Dallas Inventions: 137 patents granted in the week of September 22»Dallas Innovations

Dallas-Fort Worth ranks 9th in patent activity among 250 metropolises. The patents granted include: • 7-11 custom racks for extended position tracking system • Flatiron Health extracts facts from unstructured data • Futurewei’s intruder detection method and equipment • Hemotek’s plant media includes oxygen-containing ingredients • Mary Kay’s combination of plant extracts can improve skin tone • Spectral MD’s machine learning can be used for wound healing prediction and treatment • Toyota’s smart road sign • Wells Fargo’s monitoring alert • U.S. government energy production
Dallas Invents (Dallas Invents) is a weekly study of US patents related to the Dallas-Fort Worth-Arlington metropolitan area. The list includes patents granted to local assigns and/or North Texas inventors. Patent activity can be used as an indicator of future economic growth and the development of emerging markets and talent attraction. By tracking inventors and assigns in the region, we aim to provide a broader view of invention activities in the region. The list is organized by the Cooperative Patent Classification (CPC).
Texas Instruments (Dallas) 32 Toyota Motor Engineering Manufacturing North America (Plano) 8 Futurewei Technologies (Plano) 7 Celanese International (Owen) 2
Gary Tavares (Azle) 2 Jeffrey Dagley (McKinney) 2 John Steis (Weatherford) 2 Madaka Budagave (Plano) 2 Mika · Price (Plano) 2 Michael De Jong (Collyville) 2 Patrick N. Lawrence (Plano) 2
Speed: Application for issuance (days) 195 days to enhance the auxiliary compartment of modular barrel assembly in arc resistant switchgear Patent No. 10784660-B1 Patentee: Siemens Industries (Alpharetta, Georgia) Inventor: Rahul Ra Jewansey (Owen)
3,190 days of application usage and process monitoring in a corporate environment, with proxy session recording for process definition Patent No. 10783474-B2 Assignee: IEX CORPORATION (Richardson) Inventor: Eshai Livne (Kakul, Illinois) , Itai Nahshon (Haifa, Illinois), Paul Harold Limon (McKinney)
Patent information is provided by Joe Chiarella, the founder of Patent Index, a patent analysis company, and the publisher of Inventiveness Index.
For more detailed information on the patents granted below, please search the USPTO patent full text and image database.
Inventor: Kandi Stewart (Euless, Texas) Assignee: Recovery Tee LLC (Oak Ridge, Tennessee) Law Firm: Pitts Lake, PC (1 non-local office) Application number, date, speed: from 16265282 02/01/2019 (599 days application released)
Abstract: An exemplary embodiment of the present general inventive concept provides a postoperative rehabilitation shirt, which includes a placket for opening and closing the rehabilitation shirt, and one or more accommodation chambers, which are arranged inside the rehabilitation shirt It is close to its lower part, and is configured to contain a drainage groove connected to a drainage tube to drain the liquid from the surgical area of ​​the patient’s body.
[A41D] Outerwear; protective clothing; accessories (goggles or earmuffs A61F 9/00, A61F 11/00; sportswear A61H 36/00)
Inventor: Juan M. Gonzalez (McKinney, Texas) Assignee: Unallocated Law Firm: No Lawyer Application Number, Date, Speed: 15/816/2017/11/17 (Release Date: 1040 days)
Abstract: Disclosed is a food processing equipment, especially a tamale preparation equipment for preparing and cooking tamales. The cornmeal cooker includes two sets of cartridges, an insertion system, a steamer, a steamer and a lid for preparing and boiling the cornmeal cooker. The device prepares tamales by inserting pre-cooked spicy sauce and fillings into a cartridge. The insertion system helps to insert the pre-cooked spicy sauce and the filling from the cartridge into the steamer form. The steamer includes a perforated steamer tray to allow water vapor to reach the tamales held on the tray and help steam the tamales. Parchment paper tubes are used to maintain the shape of the tamales during cooking. The pot can cook a lot of tamales at one time, reducing labor costs.
[A21C] Machine or equipment for making or processing dough; processing baked goods from Doug
Inventors: Jeff Franco (Plano, Texas), Michael Calhoun (Lighthouse Point, Florida), Robert Vidlund (Lake Forest, Minnesota) Assignee: JD Franco Co., LLC (Plain, Texas Leno) Law Firm: Bookoff McAndrews, PLLC (1 non-local office) application number, date, speed: 16151741 on October 4, 2018 (719-day application to be released)
Abstract: A method of treating the eyes of a patient may include placing an expandable support structure in at least one of the internal carotid artery, ophthalmic artery or ophthalmic artery at the junction between the internal carotid artery, ophthalmic artery or eye opening. Additionally, the method may include directing blood flow to the ophthalmic artery via a shunt element associated with the expandable strut structure.
[A61F] Filters can be implanted into blood containers; prostheses; devices that provide ownership of the tubular structure of the human body or prevent its collapse; orthopedics, nurses or contraceptives; fermentation; treatment or protection of eyes or ears; bandages , Clothing or absorbent pad; first aid kit (dental prosthesis A61C) [2006.01]
Inventor: Donna E. Luce (Duncanville, Texas) Assignee: Unallocated Law Firm: SMU Law School Patent Clinic (local + 1 other city) Application number, date, speed: 15582639, 2017 April 29, 2016 (1242 days of application released)
Abstract: The adaptor insert is used for the purpose of enhancing or strengthening the flexible adaptor used in the protective system to provide greater support and stability in the limbus area, thereby helping to reduce hernias and helping in short-term wear When it helps the bonding of the panel, when the output between two meals is expected to be the smallest, no guards are needed. The connected inserts and adapters are located between the panel and the pouch, and their internal holes surround the panel flange or the heat weld of the ostomy appliance, and are worn under well-fitting clothing without the use of a safety belt.
[A61F] Filters can be implanted into blood containers; prostheses; devices that provide ownership of the tubular structure of the human body or prevent its collapse; orthopedics, nurses or contraceptives; fermentation; treatment or protection of eyes or ears; bandages , Clothing or absorbent pad; first aid kit (dental prosthesis A61C) [2006.01]
Inventors: David Gan (Southlake, Texas), Michelle Hines (Hickory Creek, Texas), Tiffany Florence (Dallas, Texas) Assignee: Mary Kay Inc. (Germany Addison, Texas) Law Firm: Norton Rose Fulbright US LLP (local + 13 other subways) application number, date, speed: 15828694 on December 1, 2017 (1026 days of application released)
Abstract: A method for whitening skin or evening skin tone is disclosed. The method may include topically applying a composition comprising an effective amount of an aqueous extract of white navy soybean powder to the skin in need of treatment, wherein the topical application of the composition whitens the skin or evens out the complexion.
[A61K] Preparations for medical, dental or toilet purposes (devices or methods specially used to make medicines into special physical or administration forms A61J 3/00; chemical purposes or for air deodorization, disinfection or sterilization The use of materials, or for bandages, dressings, absorbent pads or surgical supplies A61L; soap composition C11D)
Inventor: Vinay K. Jain (Dallas, Texas) Assignee: AROG PHARMACEUTICALS, INC. (Dallas, Texas) Law Firm: Chalker Flores, LLP (local) application number, date, speed: 15715219, 2009/26/2017 (application released 1092 days)
[A61N] Electrotherapy; Magnetic therapy; Radiotherapy; Ultrasound therapy (measurement of biological current A61B; Surgical instruments, equipment or methods used to transfer non-mechanical forms of energy into or out of the human body A61B 18/00; generally A61M Anesthesia equipment; incandescent lamp H01K; infrared radiator H05B for heating) [6]
Inventors: Caree L. Woodmansee (Marshall, TX), John W. Woodmansee, Jr. (Frisco, TX), Robert A. Woodmansee (Plano, TX), William E. Harmon (Russellville, Alaska): Hemotek, LLC (Plano, Texas) Law Firm: Culhane Meadows PLLC (local + 4 other cities) application number, date, speed: 2019 16384599 on April 15, 2015 (the release date is 526 days)
Abstract: A composition containing a plant culture medium and a polyoxygenated metal hydroxide, which contains an inclusion compound containing oxygen molecules. The polyoxymetal hydroxide may include polyaluminum hydroxide. The composition may contain one or more nutrients. The composition can be in solid form, fluid form, or a combination thereof. Polyaluminum hydroxide is soluble in fluids. In one embodiment, the polyoxymetal hydroxide composition may have particles having a diameter of 212 m or less, and it may be homogeneous.
[A61K] Preparations for medical, dental or toilet purposes (devices or methods specially used to make medicines into special physical or administration forms A61J 3/00; chemical purposes or for air deodorization, disinfection or sterilization The use of materials, or for bandages, dressings, absorbent pads or surgical supplies A61L; soap composition C11D)
Inventors: James Kevin McCoy (Garland, Texas), Jeffrey Alan Garrett (Allen, Texas), Richard Ray Thomson (Dallas, Texas) Assignee: Life Warmer Inc. (Connecticut State Canton) Law Firm: No Counsel application number, date, speed: October 10, 2016 15557006 (issue date is 1657 days)
Abstract: Thermal infusion system includes heat pipe system and control system. The heat pipe system has a fallopian tube body with at least one fallopian tube section. The fallopian tube segment includes a thermal element that can receive energy such as electrical energy to increase the temperature within the fallopian tube. The control system can use one or more sensors located inside the fallopian tube to regulate the energy received by the fallopian tube segment.
[A61M] Device for introducing media into or into the body (introducing media into animal body or body A61D 7/00; device for inserting tampon A61F 13/26; device for oral food or medicine A61J; for collection A61J 1/05); equipment used to transfer body media or obtain media from the body (surgical A61B; chemical aspects of surgical supplies A61L; magnetic elements placed in the body for magnetic therapy A61N 2/10); and equipment that produces or terminates sleep or sleep state[5]
Inventor: Ernest Mantes (Cologne, Texas) Assignee: Mudjala Medical Pty Limited (Blount, AU) Law Firm: Wilson Sonsini Goodrich Rosati (11 non-local offices) Application number, date, speed: 15786149 on 10/17/2017 (1071 days of application to be released)
Abstract: The implantable electrical stimulation device includes a conductive electrode structure that is configured to couple with a pulse generator device and transmit an electrical signal that is configured to generate a desired electric field around the target tissue. The electrode structure includes a porous substrate composed of a biocompatible and biosurvivable material, which has a structure that mimics the embedding of extracellular matrix. The porous substrate supports the conductive electrode element. The implantable device may further include a pulse generator, which is also embedded, embedded and supported within the porous substrate.
[A61N] Electrotherapy; Magnetic therapy; Radiotherapy; Ultrasound therapy (measurement of biological current A61B; Surgical instruments, equipment or methods used to transfer non-mechanical forms of energy into or out of the human body A61B 18/00; generally A61M Anesthesia equipment; incandescent lamp H01K; infrared radiator H05B for heating) [6]
Inventor: Gary G. Tavares (Azil, Texas), John T. Stites (Weatherford, Texas) Assignee: Karsten Manufacturing Corporation (Phoenix, Arizona) Law Firm: No lawyer application number, date, speed: 15923071 on 03/16/2018 (921-day application issued)
Abstract: Golf clubs and/or golf club heads include: a club head body that defines an internal cavity; a structure for engaging the shaft with the shaft; and/or a shaft for engaging with the shaft. The total length of the head body may be at least 4.5 inches, and the total width may be at least 4.2 inches. In other examples, the club head body may have an overall length of at least 4.6 inches, and the ratio of the overall width dimension to the overall length dimension is 1 or less. If necessary, the ratio of the head width to the head length dimension may be in the range of at least 0.94 to 1 or less.
[A63B] Equipment used for physical exercise, gymnastics, swimming, climbing or fitness; ball games; training equipment (passive exercise equipment, massage A61H)
Inventor: Gary G. Tavares (Azil, Texas), John T. Stites (Weatherford, Texas) Assignee: Karsten Manufacturing Corporation (Phoenix, Arizona) Law Firm: No lawyer application number, date, speed: 16523879 on 2019/07/26 (the 424-day application released)
Abstract: Golf clubs and/or golf club heads include: a club head body that defines an internal cavity; a structure for engaging the shaft with the shaft; and/or a shaft for engaging with the shaft. The total length of the head body may be at least 4.5 inches, and the total width may be at least 4.2 inches. In other examples, the club head body may have an overall length of at least 4.6 inches, and the ratio of the overall width dimension to the overall length dimension is 1 or less. If necessary, the ratio of the head width to the head length dimension may be in the range of at least 0.94 to 1 or less.
[A63B] Equipment used for physical exercise, gymnastics, swimming, climbing or fitness; ball games; training equipment (passive exercise equipment, massage A61H)
Inventors: Benjamin Stasson Cook (Benjamin Stasson Cook (Addison, TX), Daniel Lee Revere (Addison, TX), David Patrick Magee (Allen, TX), Stephen John Fedigan (Plano, TX) Assignee: Texas Instruments (Dallas), TX ) Law firm: No lawyer application number, date, speed: 15492433 on April 20, 2017 (the application to be released has 1251 days)
Abstract: Methods and equipment for surface wetting control are disclosed. In some of the described examples, the device may use a transducer that is mechanically coupled to the surface to expel fluid from droplets on the surface. The first area of ​​the surface may have a first wettability for the fluid, and the second area of ​​the surface may have a second wettability for the fluid. The first wettability of the first area of ​​the surface may be greater than the second wettability of the second area of ​​the surface. The first area and the second area may be arranged in a patterned arrangement.
[B08B] General cleaning; general prevention (brush A46; household or similar cleaning equipment A47L; separating particles from liquid or gas B01D; separating solids B03, B07; spraying or spraying liquid or other fluid materials on the surface of general B05 On; equipment conveyor B65G 45/10 for cleaning; simultaneous cleaning, filling and closing of B67C 7/00 bottles; inhibiting corrosion or scaling in general C23; cleaning streets, permanent roads, beaches or land E01H; swimming, Splashing or swimming pool parts, parts or accessories, especially suitable for cleaning E04H 4/16; prevent or eliminate static charge H05F)
Inventor: Edmundo Jesus Perret of Grand Prairie, Texas, Paul M. Pellet of Arlington, Texas Assignee: Raytheon Technologies (Farmington, Connecticut) Law Firm: Snell Wilmer LLP ( 5 non-local offices) Application number, date, speed: 15963230 on 04/26/2018 (880 days application released)
Abstract: A system and method for using a robot to move a substrate to a vision system; using a vision system to determine where to apply brazing material to a substrate; using a robot to move the substrate to a brazing machine; based on the determination from the vision system, using brazing The welding dispenser applies the brazing material to the substrate; the Vison system is used to determine whether to apply additional brazing to the substrate (including those used in aircraft gas turbine engine components).
[B23K] Welding or desoldering; welding; coating or plating by welding or deposition; cutting by local heating, such as flame cutting; laser beam work (manufacturing metal coating by extruding metal B21C 23/22 Products; build linings or covers by casting B22D 19/08; casting by dipping B22D 23/04; manufacturing composite layers by sintering metal powder B22F 7/00; used to replicate or control the layout on the machine tool of B23Q ; Covered metal or metal-covered material, not provided by C23C; Burner F23D)
Method for forming and adjusting the durability of the breakable part on a decorative panel Patent No. 1078043
Inventor: David M. Burke (Farmington, Michigan), Jaime N. Moore (Ann Arbor, Michigan) Assignee: Toyota Motor Engineering Manufacturing North America, Inc. (Plano, Texas) Attorney Office: Darrow Mustafa PC (2 non-local offices) Application number, date, speed: 15883338 on January 30, 2018 (966 days of application to be issued)
Abstract: A door for a motor vehicle includes a door trim panel assembly that has a plurality of door trim panels fixed together at a fixed point. The door trim panel includes a weakened perimeter formed by a series of holes in the panel, thereby forming a predetermined separation point where the component will break if a load is applied. The method of adjusting the durability of the decorative panel assembly includes a repeatable cycle in which pins are selected and inserted into different positions in the mold. During injection molding, the pins form holes to create predetermined breakaway points. Changing the size, shape and position of the pin can adjust the durability and characteristics of the separation point. The injection mold has variable pin placement capabilities to facilitate this method.
[B29C] Shaping or connecting plastics; material shapes that are not otherwise provided in a plastic state; post-processing of formed products, such as repair (manufacturing preforms B29B 11/00; manufacturing layers by merging previously unconnected layers Press the product, these unconnected layers become a product, the layers will remain together B32B 37 / 00-B32B 41/00) [4]
Inventor: Varun Jonathan Prabhakar (Salin, Michigan) Assignee: Toyota Motor Engineering Manufacturing North America, Inc. (Plano, Texas) Law Firm: Oblon, McClelland, Maier Neustadt, LLP (2 Non-local offices) Application number, date, speed: 16152574 on May 5, 2018 (718 days application to be released)
Abstract: A spoiler device for vehicles is disclosed. The disclosed spoiler for a vehicle includes a sensor operatively coupled to the vehicle. The spoiler also includes a main body that supports the sensor and includes a hole positioned thereon. The vehicle body is coupled to the exterior surface of the vehicle near the spoiler and near the lights of the vehicle so that the lights are exposed through the holes.
[B62D] Motor vehicles; trailers (steer on agricultural machinery or farm tools A01B 69/00 or guide on the required track; wheels, casters, axles, increase wheel adhesion B60B; tires, tire inflation or replacement tires B60C Connections between trains or vehicles such as B60D; vehicles used for railways and highways, amphibious or convertible vehicles B60F; suspension devices B60G; heating, cooling, ventilation or other air handling equipment B60H; windows, windshields, non Fixed roof, door or similar equipment for unused vehicles B60J; propulsion device, auxiliary drive, transmission, controller, instrument or dashboard B60K; electric equipment or electric propulsion B60L propulsion; electric propulsion B60M power supply; Passenger compartment not provided by B60N; suitable for cargo transportation or carrying special goods or objects B60P; signal or lighting equipment arrangement, installation or support suitable for the tires or circuits of general B60Q vehicles; vehicles, vehicles not provided by B60R Accessories or vehicle parts; services, cleaning, maintenance, support, lifting or manipulation not provided by B60S; brake devices, brake control systems or their parts B60T; air-cushion vehicles B60V; motorcycles and their accessories B62J, B62K; vehicle testing (G01M)
Inventor: Michael D. Carpenter (Arlington, Texas) Assignee: Siemens Logistics LLC (DFW Airport, Texas) Law Firm: No Counsel Application No., Date, Speed: 16653093 on 10 /15/2019 (Apps released in 343 days)
Abstract: The diverter system includes a conveyor belt with a horizontal belt surface, a bifurcated arm with a bifurcated belt and a diversion belt with a vertical diversion belt surface. The diverter arm is operated by an actuator assembly and is used to monitor the vertical diversion speed. The device conveyor belt surface, and a control unit operatively connected to the sensing device, wherein the control unit adjusts the speed of the vertical conveyor belt surface according to a predetermined speed ratio between the horizontal conveyor belt surface and the vertical conveyor belt surface.
[B65G] Transportation or storage equipment, such as conveyors for loading or fixing, store conveyor systems or pneumatic tube conveyors (packing B65B; handling thin or filamentary materials, such as paper or thread, B65H; crane B66C; portable or Mobile lifting or towing devices, such as cranes, B66D; lifting or lowering devices for loading and unloading goods, such as B66F 9/00 forklifts; emptying bottles, cans, cans, barrels, barrels or similar containers that are not provided separately, B67C 9/00; conveying or transferring liquid B67D; filling or discharging container F17C for liquefied, solidified or compressed gas; piping system for liquid F17D)
Inventor: Rajeev Dwivedi (Plano, Texas) Assignee: Siemens Logistics LLC (DFW Airport, Texas) Law Firm: No Counsel Application No., Date, Speed: 16398673 on 04 /30/2019 (issued by 511 days app))
Abstract: A system for separating packages of different sizes, including a conveyor section and multiple alignment members that divide the conveyor section into multiple conveyor channels. The conveyor section has an input end, a discharge end, and a conveying mechanism for conveying the package from the input end to the discharge end. The conveying mechanism is configured to cause lateral displacement of the packages on the conveyor section. One or more alignment members in each alignment member form a respective window to allow the package to move laterally on the adjacent conveyor channel. Each window has a uniquely defined vertical height to limit the lateral movement of packages on adjacent conveyor channels based on the height of each package. Each conveyor channel conveys unique packages of different sizes at the discharge end of the conveyor section. The packages in the conveyor channel are aligned with the corresponding alignment members.
[B65G] Transportation or storage equipment, such as conveyors for loading or fixing, store conveyor systems or pneumatic tube conveyors (packing B65B; handling thin or filamentary materials, such as paper or thread, B65H; crane B66C; portable or Mobile lifting or towing devices, such as cranes, B66D; lifting or lowering devices for loading and unloading goods, such as B66F 9/00 forklifts; emptying bottles, cans, cans, barrels, barrels or similar containers that are not provided separately, B67C 9/00; conveying or transferring liquid B67D; filling or discharging container F17C for liquefied, solidified or compressed gas; piping system for liquid F17D)
Inventor: Luis Sucre (Plano, Texas) Assignee: Unallocated Law Firm: No Lawyer Application Number, Date, Speed: 15732799 on February 1, 2018 (994 days to issue)
Abstract: The present invention is a new method for efficiently recovering cement from horizontal warehouses. This new recycling method combines mechanical cement recycling machines with reduced open-air slides. The material is fluidized through a porous medium with low pressure air. The material flow is realized by tilting the air sliding conveyor to match the fluidization angle of repose of the powdered material. In addition, the present invention introduces a conveying system that includes cascaded open and closed air slides and elevators to convey cement from the recovery area to the dispatch hopper. The introduction of these components and the cement stacking and distribution system is a fully automated horizontal cement storage system and method.
[B65G] Transportation or storage equipment, such as conveyors for loading or fixing, store conveyor systems or pneumatic tube conveyors (packing B65B; handling thin or filamentary materials, such as paper or thread, B65H; crane B66C; portable or Mobile lifting or towing devices, such as cranes, B66D; lifting or lowering devices for loading and unloading goods, such as B66F 9/00 forklifts; emptying bottles, cans, cans, barrels, barrels or similar containers that are not provided separately, B67C 9/00; conveying or transferring liquid B67D; filling or discharging container F17C for liquefied, solidified or compressed gas; piping system for liquid F17D)
System and method for aligning augmented reality displays with real-time position sensors Patent No. 10783671
Inventors: Brian Edward Tucker (Fort Worth, TX), Daniel Wesley Rowe (Mansfield, TX), Jeremy Robert Chavez (Colleyville, TX), Michael Eugene Moody (Texa (Fort Worth, California) Assignee: BELL TEXTRON INC. (Fort Worth, Texas) Law Firm: Slater Matsil, LLP (local + 1 other city) application number, date, speed: 16/12/270 on 03/12/2019 (560 days, application number )
Summary: A method for aligning display data in an augmented reality (AR) display, including determining the selected location context associated with a device, determining the process elements associated with the device, and according to the selected engineering process Determine, for the digital representation of the device, the first position of the process element, receive the meta-sensor position data of one or more meta-sensors in the device, and instruct each meta-sensor relative to the second position of the device. Select the location context, determine The AR display determines the coverage data of the process element relative to the third position of the selected position context, determines the display position according to the first position, the third position and the position data of each meta sensor, and displays the superimposed data in the display position.
[B64D] Equipment used in airplanes or airplanes; flight suits; peanut butter; arrangement or installation of power units or propulsion devices on airplanes
Inventor: Prabhjot Saini (Greenville, Texas) Assignee: Texas AM University System (Texas University College) Law Firm: Winstead PC (local + 2 other cities) Application number, date, speed : 15567370 on April 18, 2016 (1618 days application released)
Abstract: The present invention provides a biodegradable “precision polymer system” (poly system) and preparation of a pharmaceutically effective “precision polymer nanosystem” for the delivery and/or targeting of drugs or drug-like compounds ( Polymer nanosystems) method.
[C08G] Macromolecular compounds obtained only through reactions involving carbon-carbon unsaturated bonds (fermentation or use of enzymes to synthesize required compounds or compositions, or separation of optical isomers from racemic mixture C12P) [ 2]
Inventors: Arvind Yadav (Hesse, Indiana), Christoph Mollenkopf (Frankfurt am Main), Peter Groer (Babenhausen, Germany) Assignee: Celanese International (Owen, Texas) Office: Dority Manning, Pennsylvania (1 non-local office) Application number, date, speed: 16684739 on November 15, 2019 (posting time 312 days)
Abstract: A method for producing ethanesulfonamide potassium, the method includes the following steps: providing a cyclizing agent composition containing a cyclizing agent and a solvent and having an initial temperature, and cooling the cyclizing agent composition to form a lower cooling temperature The cooled cyclizing agent composition. The acetoacetamide salt is reacted with the cyclizing agent in the cooled cyclizing agent composition at a temperature above 35°C to form a cyclic sulfur trioxide adduct composition containing a cyclic sulfur trioxide adduct; The cyclic sulfur trioxide adduct in the sulfur trioxide adduct forms an acesulfame potassium composition comprising non-chlorinated acesulfame potassium and less than 39 wppm of 5-chloroacesulfame potassium. The cooling temperature is at least 2°C lower than the initial temperature.
Inventors: Arvind Yadav (Hesse, Indiana), Christoph Mollenkopf (Frankfurt am Main), Peter Groer (Babenhausen, Germany) Assignee: Celanese International (Owen, Texas) Office: Dority Manning, Pennsylvania (1 non-local office) Application number, date, speed: 16684761 on November 15, 2019 (issue date is 312 days)
Abstract: Improved process for producing high-purity acesulfame potassium. In one embodiment, the method includes the steps of contacting a solvent such as methylene chloride with a cyclizing agent such as sulfur trioxide to form a cyclizing agent composition, and reacting an acetoacetamide salt with the cyclizing agent in the composition To form a ring. Sulfur trioxide adduct. The contact time is less than 60 minutes. The method also includes forming the finished acesulfame potassium composition from the cyclic sulfur trioxide adduct composition, the acesulfame potassium composition comprising unchlorinated, for example, unchlorinated acesulfame potassium and less than 35 wppm 5-halogen Acesulfame potassium, preferably less than 5wppm.
Inventor: Daniel H. Hecht (Fort Worth, Texas) Assignee: Unallocated Law Firm: Bracewell LLP (3 non-local offices) Application number, date, speed: 15211018, July 2016 15th (applications released in 1530 days)
Abstract: An environmental protection coating (“EPC”) used to protect surfaces subject to high temperatures exceeding 3000 degrees Fahrenheit. The coating includes a dense sheet-like microstructure with a self-sealing compliant adhesive material that can hold platelets together. Platelets can be formed of high temperature and impermeable materials, such as ceramics. The layered microstructure creates a tortuous path for oxygen to reach the surface. The adhesive material includes engineering free internal volume, which increases the elastic strain of the EPC. The adhesive is softer than platelets, and combined with its free volume can increase the flexibility of EPC. The adhesive may have sufficient glass content and glass forming content for initial and long-term sealing purposes.
[C09D] Coating composition, such as paint, varnish or lacquer; filling; chemical coating or ink remover; ink correction fluid; Woodstein paste or solid for coloring or printing; material use (cosmetic A61K; liquid Or other fluent materials applied to the surface, usually B05D; wood staining B27K 5/02; glaze or glass enamel C03C; natural resin, French polish, drying oil, desiccant, turpentine itself is C09F; except for France Polishing composition other than polish, ski wax C09G; adhesive or material used as adhesive C09J; material for sealing or packaging joints or coverings C09K 3/10; material for preventing leakage C09K 3 /12; used for electrolysis or electrophoresis to produce paint C25D) [5]
Inventors: Archana H. Trivedi (Mumbai, Indiana), Hongfei Jia (Ann Arbor, Michigan), Masahiko Ishii (Aichi Okazaki, Aichi Prefecture), Minjuan Zhang (Ann Arbor, Michigan), Wang Ping (North Oaks, MN ) Assignee: Toyota Motor Engineering Manufacturing North America, Inc. (Plano, Texas) Law Firm: Dinsmore Shohl LLP (14 non-local offices) Application number, date, speed: 15790846, 2017 October 23 (applications released in 1065 days)
Abstract: The present invention relates to compositions and methods in the field of self-cleaning systems using digested proteins. A composition includes a substrate, a digested protein capable of decomposing dye molecules, and a linker part that binds to both the digested protein and the substrate. The method includes binding the substrate to the surface and forming a linker portion between the digested protein and the substrate.
[C12N] Microorganism or enzyme; containing composition (microbicide, pest repellent or attractant, or plant growth containing microorganisms, viruses, microbial fungi, enzymes, fermentation products, or substances produced or extracted from microorganisms or animal materials Regulator A01N 63/00; pharmaceutical preparation A61K; fertilizer C05F); spread, preserve or maintain microorganisms; mutation or genetic engineering; culture medium (microbial detection medium C12Q 1/00) [3]
Inventors: Dennis J. Haggerty (Burleson, Texas), Jacob Andrew McGregor (Burleson, Texas), John Douglas Manning (Alvarado, Texas) Assignee: Halliburton Energy Services, Inc. (Houston, Texas) Law Office: Baker Botts LLP (local + 8 other metropolitan areas) application number, date, speed: 15563779 on January 13, 2017 (1348 days of release application)
Abstract: In order to optimize the efficiency of the perforating tool system, the downhole conditions can be simulated to determine the best configuration of the perforating tool system. Place the simulated borehole under the condition of the simulated borehole and couple it with the formation sample. The simulated wellbore includes a perforating tool system and one or more filling disks that consume a large amount of the simulated wellbore. For a given simulation of a perforating tool system, the filling plate is used to control dynamic underbalance. After the explosive charge of the piercing tool system is detonated, one or more measurements and one or more images associated with the piercing tool system can be generated. The piercing tool system can be modified based at least in part on one or more measured values ​​and one or more images of the specific dynamic underbalance used for the simulation.
[E21B] Earthwork or rock drilling (mining, quarry E21C; construction of shafts, roadways or tunnels E21D); obtain oil, gas, water, soluble or soluble materials or a series of minerals from the well [5]
Inventors: Austin Ward of Burleson, Texas, Scott Randall von Carnell of Fort Worth, Texas, Burleson, Texas Assignee of William Martin Kemp: Halliburton Energy Services (Houston, Texas) Law Firm: Polsinelli PC (local + 15 other cities) Application number, date, speed: October 2014 15503669 on the 10th (2204 days of application released)
Abstract: The systems and methods used in perforating tool assemblies, especially charging tubes and self-locking alignment fixtures. The perforating tool assembly includes: an alignment jig with a plurality of slots; and a charge tube having a plurality of protrusions on the end of the charge tube that engage with the plurality of slots on the alignment jig. The perforating tool assembly may further include an alignment finger on the outer edge of the alignment fixing device, the alignment finger radially aligning the charging tube with respect to the gun body. The alignment jig may be formed of steel or powdered metal. The groove on the alignment jig can be formed by waterjet cutting, machining, molding or casting. Once assembled, multiple charges can be placed in the charging tube. The aligning finger on the aligning jig can engage with the milled groove on the inner surface of the gun body.
[E21B] Earthwork or rock drilling (mining, quarry E21C; construction of shafts, roadways or tunnels E21D); obtain oil, gas, water, soluble or soluble materials or a series of minerals from the well [5]
Pyrotechnic-induced static pressure/boost auxiliary downhole activation device and method Patent No. 10781677
Inventor: Bryan William Kasperski (Carrollton, TX), Matthew Craig Mlcak (Carrollton, TX) Assignee: Halliburton Energy Services, Inc. (Houston, TX) Law Firm: Baker BottsL.LP. (Local + 8 other metropolitan areas) Application number, date, speed: 15571143 on May 6, 2015 (1923 days application needs to be released)
Abstract: According to an embodiment of the present disclosure, a system and method for safely and economically activating a mechanical perforator using a pyrotechnic-induced hydrostatic activation mechanism. The mechanism includes a piston connected to a power rod. The piston is activated by the rupture of the disc, which separates the first chamber from the second chamber containing the piston. When the disc ruptures, the wellbore fluid fills the second chamber, forcing the piston to move from the first position to the second position, which causes actuation of the mechanical perforator. The first chamber may optionally be filled with pressurized gas, such as nitrogen or air, to increase pressurization assistance to activate the piston.
[E21B] Earthwork or rock drilling (mining, quarry E21C; construction of shafts, roadways or tunnels E21D); obtain oil, gas, water, soluble or soluble materials or a series of minerals from the well [5]
Inventors: Bryan Wagner (Fort Worth, TX), Chandu Kumar (Fort Worth, TX), John S. Marquez (Fort Worth, TX), Justin Rand Cummings (Dirk Fort Worth, SA), Kourosh Momenkhani (Dallas, TX) Assignee: SPM Flow Control, Inc. (Fort Worth, TX) Law Firm: Grable Martin Fulton PLLC (local + 1 other city) Application number, date, speed: 16182581 on 11/06/2018 (686 days application release)
Abstract: The reciprocating pump includes a frame for the power end, an anti-skid support structure integrally formed on the base of the power end frame to provide proper support and rigidity for the power end of the pump. The integrated anti-skid support structure has multiple pillars to form a series of cavities room
[F04B] Liquid positive displacement machine; PUMPS (engine fuel injection pump F02M; rotary piston or oscillating piston F04C liquid or pump machinery; non-positive displacement pump F04D; through direct contact with another fluid or use of fluid inertia Pumping fluid pump F04F; crankshaft, crosshead, connecting rod F16C; flywheel F16F; universal F16H gears for mutual conversion of rotation and reciprocating motion; universal F16J pistons, piston rods, cylinders; ion pump H01J 41/12; electric pump H02K 44/02)
Inventor: Jeffrey L. Sikorski (Melissa, TX) Assignee: Safran Seats USA LLC (Gainesville, TX) Law Firm: Kilpatrick Townsend Stockton LLP (14 non-local offices Office) Application number, date, speed: 15305685 on 04/24/2015 (1978 days application released)
Abstract: The channel joint ([b] 1 [/ b]) can bond the pipe or tubular member ([b] 30 [/ b]) to the end fitting ([b] 20 [/ b]) by double shearing. The channel joint can include a receiving channel ([b] 25 [/ b]) in the end fitting ([b] 20 [/ b]), the shape of the receiving channel is the same as the tube, tubular member or other hollow member ([ b] 30 [/ b]) and fixed with the end joint. The use of channel joints simplifies assembly because the receiving channel can act as a reservoir for adhesive or adhesive ([b] 50 [/ b]). When the tube, tubular member or other hollow member is inserted into the containing channel containing the adhesive, the adhesive will flow back to fill the gap in the joint and drain the excess adhesive.
[F16C] Shaft; flexible shaft; mechanical device that transmits motion in a flexible sheath; elements of crankshaft mechanism; cab; important connection; rotating engineering elements other than gears, couplings, clutches or brake elements; bearings[ 5]
Inventor: Mark Alan Przybyla (Keller, Texas) Assignee: Textron Innovations Inc. (Providence) Law Firm: Lightfoot Alford PLLC (1 non-local office) Application number, date, Speed: 15972170 from 05/06/2018 (870 days application released)
Abstract: A locking mechanism for locking a drive shaft for cooperative engagement with a device includes a drive portion coupled to the drive shaft and a driven portion coupled to the device. The driving part of the locking mechanism includes a housing having a first engagement part, a ball cage having a plurality of locking balls at least partially housed therein, and a bearing housing that is biased away from the housing by a bearing housing spring. The bearing housing includes an outer wall configured to push the locking ball outward in the locked position and allow inward movement in the unlocked position. The movement of the bearing housing and thus the locking is controlled by an actuator rod, which extends through the center of the locking mechanism. The driven portion includes: a second engagement portion configured to cooperatively engage and receive torque from the first engagement portion; and a locking groove configured to receive a portion of each of the plurality of locking balls therein.
[F16D] Rotation transmission coupling (transmission gear F16H, for example, fluid gear F16H 39/00-F16H 47/00); clutch (electric clutch H02K 49/00; clutch H02N 13/00 using electrostatic gravity) ; Brake (B60L 7/00 general-purpose vehicle electric brake system; electric brake H02K 49/00) [2]
Inventor: Craig D. Herring (Panckney, Michigan), Thomas S. Hawley (Ann Arbor, Michigan) Assignee: Toyota Motor Engineering Manufacturing North America, Inc. (Plano, Texas ) Law Firm: Darrow Mustafa PC (2 non-local offices) Application number, date, speed: 15929058 on November 6, 2018 (686 days of application need to be issued)
Abstract: A method for controlling engine braking, including determining the brake pressure applied by a vehicle driving on the road. The method includes determining the current speed of the vehicle, wherein the transmission of the vehicle is operating using a first gear of a plurality of gears. The method includes determining a road gradient threshold of a second gear of the plurality of gears based on the amount of brake pressure and the current speed of the vehicle. The method includes determining the slope of the road. The method includes determining that the determined road gradient meets a road gradient threshold for the second gear of the vehicle. The method includes, in response to the determination, operating the transmission of the vehicle with a second gear of the plurality of gears.
Inventor: Christopher Grider (Dallas, Texas), Derek Smith (Dallas, Texas) Assignee: TTP Holdings, LLC (Dallas, Texas) Law Firm: No Counsel Application Number, Date , Speed: 16163386 on 10 / 17/2018 (application released in 706 days)
Abstract: Modular systems can include multiple magnets, which can be provided to self-align the housing and accessories. The self-alignment of the housing and the accessories can provide a firm connection between the housing and the accessories. At least one pawl and at least one locking arm can fit and lock the housing on the accessory in the installation position. The at least one pawl and the at least one locking arm can be unlocked in the inserted position. When the first set of magnets attracts the second set of magnets, self-alignment occurs. In the second set of magnets, the opposite polarity will attract and automatically initiate the movement of the housing to the accessory.
[F21V] Functional features or details of lighting equipment or systems; structural combinations of lighting equipment and other articles, unless otherwise specified, [7]
Inventors: Eric M. Perez (Hickory Creek, TX), Mark G. Beste (Grapevine, TX), Steven Schneider (Plano, TX) Person: Lennox Industries Inc. (Richardson, Texas) Law Firm: Baker Botts LLP (local + 8 other metropolitan areas) Application number, date, speed: 15006543 on January 26, 2016 (requires release 1701 Day application)
Abstract: A heating control system including a heating unit with a constant burner and a pulse burner. The constant burner is configured to remain active during operation. The pulse burner is configured to switch between an active mode and an inactive mode. The heating control system also includes a memory operable to store a temperature map that maps the temperature to a percentage of the time period during which the pulse burner is activated, and the microprocessor is operatively coupled to the heating unit and the memory. The microprocessor is configured to send a first electrical signal to activate the constant burner, obtain a temperature set point, use the temperature set point and the temperature map to determine the percentage of the period that the pulse burner is active, and send a second electrical signal according to The determination of the percentage of the pulse burner activation time is used to switch the pulse burner.
[F24D] Home or space heating systems, such as central heating systems; domestic hot water supply systems; elements or components (to prevent corrosion C23F; general E03 water supply; use steam or condensed water extracted or discharged from steam engine plants for heating purposes F01K 17/02; trap F16T; household stove or range F24B, F24C; water or air heater with heat generating device F24H; heating and cooling system combination F25B; heat exchange equipment or element F28; hair removal F28G; electric heating element or device H05B)
Inventors: Daniel Castillo (Richardson, TX), Jayprakash Charavda (Irving, TX), Keith Mowery (Richardson, TX), Kyle Golden (Plano, TX), Melissa Amoros (Richardson, Texas), Steve Lazar (San Antonio) (Plano, Texas) Sunil K. Khiani (assignee): Attorney at Lennox Industries Inc. (Richardson, Texas) Firm: Schakelford, Bowen, McKinley Nortion, LLP (location not found) Application number, date, speed: 14712019 on 05/14/2015 (1958 day application released)
Abstract: A thermostat includes a front housing, a rear housing interoperably connected to the front housing, at least one sensor integrated with the front housing, a display integrated with the front housing, and interoperably coupled to At least one sensor and sensor processing circuit. display. The display is a touch screen display and is configured to demonstrate the user interface screen. The user interface screen includes a horseshoe-shaped temperature scale, hot set point control and cold set point control. Hot set point control and cold set point control are located on a horseshoe-shaped temperature scale. The horseshoe-shaped temperature scale may be adjusted by dragging at least one of the hot set point control and the cold set point control along the circumferential edge of the horseshoe-shaped temperature scale.
[F24F] Air conditioning; air humidification; ventilation; filtering with air filters (remove dust or flue gas in the production area) B08B 15/00; vertical duct for exhaust gas exhaust from building E04F 17/02; for chimney Or the top of the ventilation shaft; terminal F23L 17/02 for the flue)
Inventor: James Anthony Pautler (Plano, Texas) Assignee: UNASSIGNED Law Firm: No Counsel Application Number: Date, Speed: 16078185 (February 24, 2017) (1306 days of application need to be released program)
Summary: A device that receives the initial velocity of the projectile, determines the barrel position and barrel direction of the barrel, determines the target position related to the barrel position and barrel direction, the target velocity and the projected target trajectory, and determines the lead in The position in front of the projected target trajectory intercepted by the projectile at the target, and the guide position is displayed to the user equipment.
Inventors: Gilbert Choudury (Waltham, Massachusetts), Gonzalo Feijoo (Welsley, Massachusetts), Johan Arendt Grape (Bokes, Massachusetts) Assignee: Siemens Industry Software Inc. (Texas) Plano) Law Firm: No lawyer application number, date, speed: 16074008 on February 26, 2016 (1670 days of application released)
Abstract: Provides a system and method that facilitates the calculation of the layer surface of a multi-layer part. The system may include at least one processor configured to determine multiple surfaces of at least one material layer forming the multilayer component by repeatedly performing level setting method calculations. Based on the data defining the thickness of at least one layer of material in each layer and the data of at least one layer, the horizontal setting method can be calculated with respect to the interface surface that spreads outward from the initial surface with each determined surface of each layer The drop rate of material at the material boundary in each layer.
[G05B] General control or regulation systems; functional elements of these systems; monitoring or testing arrangements for such systems or components (fluid actuators or systems acting through fluids, generally F15B; valves themselves are F16K; only mechanical features are G05G; Sensitive components, please refer to the corresponding sub-category, such as G12B, sub-category G01, H01; Calibration unit, please refer to the corresponding sub-category, such as H02K)
Inventor: Byron Jon Roderick Shulver (Murphy, Texas), Dok Won Lee (Mountain View, California) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law Firm: No lawyer application number , Date, speed: 15633516 on 06/26/2017 (1184 days of application released)
Abstract: The integrated AMR sensor consists of a half bridge with two resistors, a Wheatstone bridge with four resistors, or the first Wheatstone bridge with four resistors in an orthogonal configuration, and A second Wheatstone bridge with four resistors in an orthogonal configuration has an angle of 45 with respect to the first Wheatstone bridge. Each resistor includes a first magnetoresistive segment and a second magnetoresistive segment, and the current direction of the first magnetoresistive segment forms a first inclination angle with respect to the reference direction of the resistor. The tilt angle is selected to advantageously eliminate the angular error caused by the shape anisotropy of the magnetoresistive section. In another embodiment, the disclosed system/method includes a method for identifying a tilt angle that eliminates angular errors due to the shape anisotropy of the magnetoresistive segment.
[G01D] No special adaptation to the measurement of specific variables; arrangements for measuring two or more variables not covered by one or more other subcategories; grid measuring instruments; no special transfer or conversion arrangements for specific variables; Unless otherwise specified, perform measurements or tests
Inventor: Ayman Luqman (Dallas, Texas) Assignee: Invoy Holdings Inc. (Irvine, California) Law Firm: Knobbe, Martens, Olson Bear, LLP (9 non-local offices) Application number, date , Speed: 16590046 on January 1, 2019 (application released for 357 days)
Abstract: The breath analyte capture device includes: a breath input port in which a user exhales a breath sample; a kit insertion port for receiving a disposable kit containing an interactive agent. During the expiration of the breath sample, at least a portion of the breath sample is directed through the cartridge so that the analyte (eg, breath acetone) is captured by the interaction agent. In some embodiments, the concentration of the analyte in the breath sample is measured by monitoring the chemical reaction occurring in the disposable cartridge. The chemical reaction can be monitored by irradiating the cartridge with each of multiple light wavelengths while measuring the reflected light.
[G01N] Conduct research or analysis of materials by determining their chemical or physical properties (except for immunoassays involving enzymes or microorganisms C12M, C12Q measurement or test processes)
Inventor: Mhark Lester Lauron Ponghon (Tarlac, PH) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law Firm: No Counsel Application No., Date, Speed: 16371201 on 04/01/2019 (540 Days released)
Abstract: A chuck device includes: a nozzle whose first end is configured to engage with a device under test (DUT); and a clamp that extends around a portion of the nozzle near the first end. The jig includes a recess for accommodating the DUT, and an engaging surface in the recess for engaging the DUT. The chuck device also includes a spring that biases the surface of the clamp toward the first end of the nozzle. One method involves translating the chuck to engage the nozzle with the DUT, further translating the chuck to engage and self-align the spring-mounted clamp with the DUT, further translating the chuck to place the DUT in the spring-mounted clamp, and The chuck with the DUT is translated to the contactor, and the chuck with the DUT is translated to engage the conductive part of the DUT with the conductive probe of the contactor.
[G01R] Measuring electrical variables; measuring magnetic variables (indicating the correct adjustment of the resonant circuit H03J 3/12)
Inventor: Jose Flores (Richardson, Texas), Rama Venkatasubramanian (Plano, Texas) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law Firm: No Counsel Application No., date, speed: 16252674 on 01/ 20/2019 (application released for 611 days)
Abstract: In the described example, the latch includes an active feedback circuit for latching input information. The logic state comparison between the input state and the output state at a selected time can determine, for example, whether the latch correctly retains the latch data. Latches can optionally be included in the scan chain, providing asynchronous latch error notification, and/or synchronous notification, indicating where the latch error occurred in the scan chain.
[G01R] Measuring electrical variables; measuring magnetic variables (indicating the correct adjustment of the resonant circuit H03J 3/12)
Inventors: Brian Ginsburg (Allen, Texas), Jawaharial Tangudu (Bangalore, Indiana), Karthik Ramasubramanian (Bangalore, Indiana), Karthik Subburaj (Bangalore, Indiana), Sandeep Rao (Bangalore, Indiana) Agent (s ): Texas Instruments (Dallas, Texas) Law Firm: No lawyer application number, date, speed: 15676547 on August 14, 2017 (1135 days to be issued)
Abstract: A device comprising: a circuit board with a circuit board, a control component, a first radar chip and a second radar chip on it. The first radar chip includes a first radar transmitting antenna, a second radar transmitting antenna and a first radar receiver antenna array. The second radar chip includes a second radar receiver antenna array. The control part can control the first radar chip and the second radar chip. The first radar transmitting antenna can transmit the first radar transmitting signal. The second radar transmitting antenna can transmit the second radar transmitting signal. The second radar chip is spaced apart from the first radar chip so as to create a virtual receiver antenna array between the first radar receiver antenna array and the second radar receiver antenna array.
[G01S] Radio directional discovery; radio navigation; use radio waves to determine distance or speed; use the reflection or radiation of radio waves to locate or detect location; use other waves of ANALOGOUS arrangement
Inventors: Brian Ginsburg (Dallas, Texas), Dan Wang (Allen, Texas), Meysam Moallem (Plano, Texas) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law Firm: No Counsel Application No. Date, speed: September 8, 2017 15699186 (1110 days of application released)
Abstract: A millimeter wave or millimeter wave system includes a process by which a transmitter transmits a millimeter wave (mm-wave) radar signal to an object. The transmitted millimeter wave radar signal may include at least two signal directions, and in response to each signal direction, the object reflects a corresponding signal reflection. Detect the signal reflection and determine the position of the object.
[G01S] Radio directional discovery; radio navigation; use radio waves to determine distance or speed; use the reflection or radiation of radio waves to locate or detect location; use other waves of ANALOGOUS arrangement
Patent No. 10788474 of a detachable optical connector for an optical chip having a connector support and a method of manufacturing the same
Inventor: Michael de Jong (Colleyville, Texas) Assignee: Corning Research and Development Corporation (Corning, New York) Law Firm: No Counsel Application Number, Date, Speed: 16197845 on 11/21/2018 (671 days Application release)
Abstract: A detachable optical connector including a connector support for an optical chip and a manufacturing method thereof are disclosed. In one embodiment, an optical component includes an optical chip including a surface, an edge extending from the surface, and at least one chip waveguide close to the surface and terminating at the edge. The optical assembly further includes a waveguide holder having a chip coupling surface, and at least one waveguide disposed in the waveguide holder and terminating at the chip coupling surface, wherein the chip coupling surface is coupled to the edge of the optical chip so that at least One waveguide is optically coupled to at least one chip waveguide of the optical chip. The optical assembly also includes a connector support having a first part connected to the optical chip and a second part connected to the waveguide support.
[G02B] Optical components, systems or devices (G02F priority; optical components dedicated to lighting equipment or systems F21V 1 / 00-F21V 13/00; measuring instruments, please refer to the relevant sub-categories of category G01, such as optical ranging G01C; Test of optical components, systems or equipment; G01M 11/00; Glasses G02C; Equipment or devices used to take pictures or project or view them; G03B; Acoustic lens G10K 11/30; Electronic and ion “optical” H01J; X-ray “Optics” H01J, H05G 1/00; Optical components combined with discharge tubes in structure H01J 5/16, H01J 29/89, H01J 37/22; Microwave “Optics” H01Q; Optical components and TV receiver H04N The combination of 5/72; the device H04N 9/00 in the optical system or color TV system; the heating device H05B 3/84 for transparent or reflective areas)[7]
Inventor: Daniel Leyva, Jr. (Arlington, Texas), Michael de Jong (Colliville, Texas) Assignee: Corning Optical Communications LLC (Charlotte, North Carolina) Office: No lawyer application number, date, speed: 16211977 on 12/06/2018 (656 days application released)
Abstract: A hardened optical fiber connector with a mechanical joint assembly is disclosed. The mechanical splice assembly is connected to the first end of an optical waveguide such as an optical fiber of an optical cable by a short optical fiber, thereby connecting the hardened connector. In one embodiment, the hardened connector includes an inner housing with two housings for fixing the tensile element of the cable and fixing the mechanical joint assembly so that the ferrule assembly can translate. Further assembly of the hardened connector has to fit the inner housing into the shield of the hardened connector. The shield helps to mate the hardened connector with the complementary device, and the shield can have any suitable configuration. The hardened connector can also include functions for optical fiber bending, sealing, cable strain relief, or pre-assembly functions for easy installation.
[G02B] Optical components, systems or devices (G02F priority; optical components dedicated to lighting equipment or systems F21V 1 / 00-F21V 13/00; measuring instruments, please refer to the relevant sub-categories of category G01, such as optical ranging G01C; Test of optical components, systems or equipment; G01M 11/00; Glasses G02C; Equipment or devices used to take pictures or project or view them; G03B; Acoustic lens G10K 11/30; Electronic and ion “optical” H01J; X-ray “Optics” H01J, H05G 1/00; Optical components combined with discharge tubes in structure H01J 5/16, H01J 29/89, H01J 37/22; Microwave “Optics” H01Q; Optical components and TV receiver H04N The combination of 5/72; the device H04N 9/00 in the optical system or color TV system; the heating device H05B 3/84 for transparent or reflective areas)[7]
Skydiving tracker: an integrated system for flight data collection and virtual reality simulators, used to improve the safety of skydiving Patent No. 10788524
Inventor: Mark Haley (McKinney, Texas) Assignee: Unappointed Law Firm: No Lawyer Application Number, Date, Speed: 15/02/433 on 06/02/2018 (843 days of issue Application)
Abstract: This integrated skydiving safety/training system combines sensors, hardware and software technology to improve the skydiving effect for individuals and teams of 12 or more military or civilian skydivers. It greatly improves the training of skydivers and helps prevent the main causes of skydiving deaths, including air collisions and dangerous landings. The system provides innovative error correction functions for low-cost trackers to collect flight data to improve the reporting of jumpers after jumpers, and create an expert proprietary flight database with hundreds of jumpers. This can be used for situation reporting/incident investigations, which can be completed within a few minutes, while it would take months to analyze the accident before that. It maps this data into a 3D interactive map. The real-time broadcast version can track teams in the air or on the ground, and the museum can use interactive map options to display amazing trips to the earth and the moon.
[G02B] Optical components, systems or devices (G02F priority; optical components dedicated to lighting equipment or systems F21V 1 / 00-F21V 13/00; measuring instruments, please refer to the relevant sub-categories of category G01, such as optical ranging G01C; Test of optical components, systems or equipment; G01M 11/00; Glasses G02C; Equipment or devices used to take pictures or project or view them; G03B; Acoustic lens G10K 11/30; Electronic and ion “optical” H01J; X-ray “Optics” H01J, H05G 1/00; Optical components combined with discharge tubes in structure H01J 5/16, H01J 29/89, H01J 37/22; Microwave “Optics” H01Q; Optical components and TV receiver H04N The combination of 5/72; the device H04N 9/00 in the optical system or color TV system; the heating device H05B 3/84 for transparent or reflective areas)[7]
Inventors: Ahmed Sakr (Mountain View, California), Guarav Bansal (Mountain View, California), Miles J. Johnson (Ann Arbor, Michigan), Vladimeros Vladimerou (Whitmore Lake, Michigan) Assignee: Toyota Motor Engineering North America Manufacturing Company (Plano, Texas) Law Office: Darrow Mustafa PC (2 non-local offices) Application number, date, speed: 15883675, date 01/30/2018 (issued 966 days for application)
Summary: One or more road features can be determined based on information received from one or more vehicles driving on the road. Data packets can be received from remote vehicles. The data packet may include data corresponding to the location and direction of the remote vehicle. The path history of the remote vehicle can be determined based on the data packet. The path history may include data points corresponding to multiple positions and headings of the remote vehicle. The path history can be used to determine the geometry of a portion of the road before the remote vehicle. The determined road geometry can be used to determine vehicle driving maneuvers and/or verify maps.
[G05D] A system used to control or adjust non-electrical variables (used for continuous casting of metal B22D 11/16; the valve itself is F16K; for sensing non-electrical variables, please refer to the relevant subcategories of G01; used to adjust electric or magnetic Variable G05F)
Inventors: David Davis (Whitelet, Texas), Fan Guolei (Chengdu, China), Wang Min (Chengdu, China), Tung K. Nguyen (McKinney, Texas) Assignee: EMERSON Process Management Regulation Technology, Inc. (McKinney, Texas) Law Firm: Marshall, Gerstein Borun LLP (2 non-local offices) application number, date, speed: 16/528/11/14/2018 (678 days to issue)
Abstract: The fluid regulator includes a balance port regulating valve and an actuator connected to the regulating valve. The regulating valve has an inlet, an outlet, a valve port arranged between the inlet and the outlet, and a valve disk movable along the longitudinal axis, the valve disk between the closed position where the valve disk sealingly engages the valve port and the open position of the valve disk turn on. The valve disc is separated from the valve port. The actuator moves the actuator rod along the longitudinal axis in response to fluid pressure. The connector assembly operably and removably connects the valve disc to the actuator rod.
[G05D] A system used to control or adjust non-electrical variables (used for continuous casting of metal B22D 11/16; the valve itself is F16K; for sensing non-electrical variables, please refer to the relevant subcategories of G01; used to adjust electric or magnetic Variable G05F)
Inventors: Huang Huanzhang (Plano, Texas), Chen Jikai (Allen, Texas), Fan Fanli (Dallas, Texas), Tang Yonghui (Plano, Texas), and Yuan Rao (Allen, Texas) assignee: TEXAS Incorporation (Dallas, Texas) Law Firm: No lawyer application number, date, speed: 16656742 on October 18, 2019 (it takes 340 days to publish the application)
Abstract: The jitter compensation circuit works in the first conduction state in response to the transition of data from high to low and the transition of data from low to high. When there is no data conversion, the circuit works in the second conduction state. The circuit compensates for the charge to the voltage source in the first conduction state, thereby reducing the voltage drop caused by data conversion.
[G05F] System for adjusting electrical or magnetic variables (adjusting the timing or repetition frequency of pulses in radar or radio navigation system G01S; adjustment of current or voltage, especially for electronic clocks and watches G04G 19/02; closed loop system, used by electrical means Adjust the non-electric variable G05D; adjust the power supply of the digital computer G06F 1/26; used to obtain the required operating characteristics of the electromagnet with armature H01F 7/18; adjust the distribution network H02J; adjust the charging of the battery H02J 7/00; Adjust the output of static converter (for example, switching regulator H02M); adjust the output of generator H02N, H02P 9/00; control transformer, reactor or choke H02P 13/00; adjust frequency response, gain, amplifier H03G Maximum output, amplitude or bandwidth; adjust the tuning of the resonance circuit H03J; control the electronic oscillation or pulse generator H03 L; adjust the characteristics of the transmission line H04B; control the electric light source H05B 37/02, H05B 39/04, H05B 41/36; X Electronic control of ray equipment H05G 1/30) [5]
Inventor: Patrick A. La Fratta (McKinney, Texas) Assignee: Micron Technology, Inc. (Boise, Idaho) Law Firm: Holland Hart LLP (8 non-local offices) Application number, date, speed: 16195127 on 11/19/2018 (673 days application issued)
Abstract: Disclosed are devices and methods for performing data migration operations. A device may include at least two interfaces, the first interface supports data migration operations, and the second interface supports access operations associated with the host device. In some cases, the access operation may be a signal or protocol according to industry standards or specifications (for example, DRAM interface specifications). The second interface can facilitate support for industry standard applications, while the first interface that supports data migration operations can provide improved bandwidth for data migration within the device. The device may include a buffer coupled with the interface and a bank of memory banks including two or more memory cells. When the host device addresses the memory banks of the memory bank cluster, the device can use the buffer and different memory banks of the memory bank cluster to perform one or more data migration operations.
[G06F] Electrical digital data processing (computer system based on specific calculation model G06N)
Method and equipment for disaster recovery and instance refresh mechanism in event recording system Patent No. 10783034
Inventor: Emin Eliot Gerba (Plano, Texas) Assignee: salesforce, inc. (San Francisco, California) Law Firm: Nicholson De Vos Webster Elliott LLP (3 non-local offices) Application number, date, speed: 16222925 on December 17, 2018 (645-day application is required)
Abstract: Describes a method and device for disaster recovery and instance refresh mechanism in an event recording system. A first request for an event associated with the first topic is received. Retrieve the first group of events related to the first topic from the main event recording system. Each event from the first set of events includes a first submission identifier that indicates the order in which each event is stored in the main event recording system. For each event from the first set of events, the first replay identifier is determined based on the first value of the first submission identifier and the low submission identifier. The first playback identifier is exposed to the event consumer to identify the event. In response to the first request, each event from the first set of events is sent with a replay identifier.
[G06F] Electrical digital data processing (computer system based on specific calculation model G06N)
Data processing system with machine learning engine provides dynamic data transmission control function Patent No. 10783052
Inventors: Manu Kurian (Dallas, TX), Patrick Nicholas Lawrence (Plano, TX), Saritha Prasad Vrittamani (Plano, TX) Assignee: Bank of America (Charlottte) , NC) Law Firm: Banner Witcoff, Ltd. (3 non-local offices) Application number, date, speed: 15677514 on August 17, 2017 (1132-day application is required)
Abstract: Provides a system for dynamically controlling data transmission. In some examples, the system may receive data from one or more computer systems. The data associated with the event can be extracted, and the extracted data can be compared with one or more machine learning data sets to determine the likelihood that a problem associated with the computer system may occur. The system can determine whether the likelihood is greater than a predetermined threshold. If so, you can identify modifications that avoid potential problems or mitigate the impact. Modifications can be sent to and executed by the computer system to modify one or more aspects of the computer system. In some examples, one or more efficiency modifications may be identified based on the comparison of the extracted data with the machine learning data set. The identified efficiency modification can be sent to and executed by the computer system to modify one or more aspects of the computer system.
[G06G] Simulation computer (simulating optical computing equipment G06E 3/00; computer system G06N based on a specific calculation model)
Inventors: David Vibbert (Plano, TX), Kumar Unnirkrishnan (Irving, TX), Marcus Lange (Addison, TX) Assignee: Thomson Reuters Enterprise Center GmbH (Zug , CH) Law Firm: McCarter English, LLP (7 non-local offices) application number, date, speed: 15014384 on March 2, 2016 (the required publication date is 1693 days)
Abstract: Exemplary embodiments of the present disclosure relate to systems, methods, and non-transitory computer-readable media, which are based on the relationship between interrelated data (for example, the dependency relationship between interrelated data) and the computing system Interrelated data eventually achieves consistency. Programming is the configuration of an application that uses interrelated data. Exemplary embodiments may utilize one or more implicit or explicit dependency graphs, such as implicit or explicit directed acyclic graphs corresponding to related data and dependencies between related data. The subset of interrelated data can be based on the configuration of the application programmed to consume the interrelated data and/or based on the dependencies between the interrelated data, related to one or more groups or boundaries in the dependency graph Joint.
[G06F] Electrical digital data processing (computer system based on specific calculation model G06N)
Inventors: Alan Gatherer (Richardson, Texas), Alex Elisa Chandra (Plano, Texas), Ashish Rai Shrivastava (Plano, Texas), Debashis Bhattacharya (Texas) Plano), Hao Luan (Plano, TX), Mark Brown (Little Elm, TX) Assignee: Futurewei Technologies, Inc. (Plano, TX) Attorney Firm: Slater Matsil, LLP (local + 1 other city) application number, date, speed: 15264099, September 13, 2016 (1470 days of application release required)
Summary: A computing system on a chip (CSoC) includes a first scalable distributed real-time data warehouse (sdrDW) engine and a network interface coupled to the first sdrDW engine, wherein the network interface is coupled to the interconnect, and wherein the CSoC is configured to pass The interconnection sends a task request to the first networked mass storage controller (NBSC) to request the execution of the task on the mass storage medium.
[G06F] Electrical digital data processing (computer system based on specific calculation model G06N)
Inventor: Madhukar Budagavi (Plano, Texas), Vivienne Sze (Cambridge, Massachusetts) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law firm: No lawyer application number, date, speed : 15688405, applicable to 08/28/2017 (application 1121 days old)
Summary: Provides a method for decoding an encoded video bitstream in a video decoder. The method includes: determining the scan mode type of the transform block to be decoded; and determining the column position X and the last non-zero coefficient Row position Y is decoded. Obtain the transform block from the encoded video bitstream. When the scan mode type is the first type, select the column-row inverse transform order, when the scan mode type is the second type, select the row-column inverse transform order, and perform one-dimensional (1D) according to The selected transformation sequence is subjected to inverse discrete cosine transform (IDCT) calculation to inversely transform the transformed block to generate a residual block.
[G06F] Electrical digital data processing (computer system based on specific calculation model G06N)
Inventor: Massimo Panzica (Biancavilla, IT), Maurizio Gentili (Santa Clara, California) Assignee: STMICROELECTRONICS, INC. (Koper, Texas) Law Firm: Seed IP Law Group LLP (1 non-local office) Application number, date, speed: 15721362 on September 29, 2017 (1089 days of application released)
Abstract: The security engine approach involves providing an embedded microcontroller in an embedded device with internal memory. The method also includes providing a secure environment in the internal memory. The safe environment method can identify the startup sequence and restrict the user’s access to the safe environment by controlling the safe environment memory. Performing such control may include disabling the DMA controller, configuring at least one storage controller to access the secure environment, preventing execution of instructions acquired from outside the secure environment, and only allowing execution of instructions acquired from within the secure environment. The security engine program instructions are then executed to disable the interrupt, perform at least one security operation, and re-enable the interrupt after performing at least one security operation. Released the control of the safe environment memory, including clearing the memory, re-enabling the DMA controller and restoring the memory controller parameters.
[G06F] Electrical digital data processing (computer system based on specific calculation model G06N)
Inventor: James Clinton Estes, III (Weatherford, Texas), Roger Forrester (Midlothian, Texas) Assignee: Unassigned Law Firm: Scheef Stone, LLP (local) application number, Date, speed: 15828416 on 11/30/2017 (application released 1027 days old)
Abstract: A device that can be installed on the holster of a pistol. The device is configured to detect when the pistol is removed from the holster and activate the controller to receive, process and record audio signals from the microphone when the pistol is removed. As well as receiving, processing and recording motion and compass direction signals in memory. A connector for transmitting signal data to an external device equipped with software for analyzing the acoustic characteristics of gunshots is provided.
[G06F] Electrical digital data processing (computer system based on specific calculation model G06N)
Inventor: Patrick N. Lawrence (Plano, Texas) Assignee: Bank of America Corporation (Charlotte, NC) Law Firm: No Lawyer Application Number, Date, Speed: October 13, 2017 15783738 of the day (applications released in 1075 days)
Abstract: A device that is configured to simulate a logic function gate of unary related objects, including a memory and a logic engine. The memory stores a truth table of a logical operator, and the truth table of a logical operator includes a plurality of input logical values ​​and a plurality of output logical values. These logical values ​​are represented by correlithm objects. The logic engine receives the input and determines the Hamming distance between the corresponding object of the input and the corresponding object of the truth table to determine the appropriate output.
[G06F] Electrical digital data processing (computer system based on specific calculation model G06N)
Inventor: Patrick N. Lawrence (Plano, Texas) Assignee: Bank of America Corporation (Charlotte, NC) Law Firm: No Lawyer Application Number, Date, Speed: October 13, 2017 15783785 of the day (applications released in 1075 days)
Abstract: A device configured to simulate the logic function gates of binary related objects, including a memory and a logic engine. The memory stores a logic operator truth table, which includes first and second sets of input logic values ​​and a set of output logic values. These logical values ​​are represented by correlithm objects. The logic engine receives the first and second inputs and determines the Hamming distance between the corresponding object of the input and the corresponding object of the truth table to determine the appropriate output.
[G06F] Electrical digital data processing (computer system based on specific calculation model G06N)
Inventor: David B. Auner (South Lyon, Michigan) Assignee: Toyota Motor Engineering Manufacturing North America, Inc. (Plano, Texas) Law Firm: Darrow Mustafa PC (2 non-local offices) ) Application number:, date, speed: 16050377 on July 31, 2018 (applications that can be released in 784 days)
Abstract: Certain objects in the external environment of the vehicle may be difficult to detect by the driver or vehicle sensors. The object can be detected indirectly using information in the external environment of the vehicle. One or more sensors can be used to obtain sensor data of the vehicle’s external environment, and these sensors can be located on the vehicle. The external transmitter or transmission can be detected based on the acquired sensor data. The acquired sensor data can also be used to identify external transmitters or transmissions. Shadows can be detected in the acquired sensor data. The detected shadows can be used at least in part to detect objects in the external environment. In some cases, the features associated with the identified external transmitter or transmission may also be used to detect the object and/or one or more features of the object.
[G06K] Data identification; data representation; record carrier; processing record carrier (printed B41J itself)
Inventor: Paul James Garrity (Rockwall, Texas), Ross Eliot Teggatz (Cologne, Texas) Assignee: SEMTECH CORPORATION (Camarillo, California) Law Firm: Jackson Walker LLP ( Local + other 3 cities) application number. , Date, Speed: 16160306 on 10/15/2018 (708-day application release)
Abstract: A label is provided that includes a battery with printed anode and cathode. A printed circuit connection layer is formed in one of the anode or the cathode. A printed antenna is formed in one of the anode or the cathode. The low power transmitter is coupled to the circuit connection layer.
[G06K] Data identification; data representation; record carrier; processing record carrier (printed B41J itself)
Inventor: Cynthia Revol (Dallas, Texas) Assignee: FLATIRON HEALTH, INC. (New York, New York) Law Firm: Finnegan, Henderson, Farabow, Garrett Dunner LLP (9 non-local offices) Application number:, date, speed: 15211250 on July 15, 2016 (application released in 1530 days)
Abstract: Methods, systems and devices, including computer programs encoded on computer storage media, for presenting video. One of the methods includes obtaining one or more unstructured documents. The method includes obtaining a data model through a computer system, the data model identifying types of facts that can be determined from one or more unstructured documents. The method includes determining, by a computer system, a channel for extracting facts from a document based on the type of facts. The method includes allocating one or more unstructured documents to the channel by the computer system. The method involves extracting facts from one or more unstructured documents through channels. The method also includes storing facts in the data model.
Application usage and process monitoring in an enterprise environment with process-defined proxy session recording, patent number 10783474
Inventors: Eshai Livne (Carku, Illinois), Itai Nahshon (Haifa, Illinois), Paul Harold Leamon (McKinney, Texas) Assignee: IEX CORPORATION (Richardson, Texas) Place: Pearl Cohen Zedek Latzer Baratz LLP (2 non-local offices) application number, date, speed: 13340177 on December 29, 2011 (3190 days of application release required)
Summary: Real-time Activity Monitor (RTAM) runs in or associated with a machine (such as a desktop) in a background environment to automatically track and record desktop processing activities, application usage, and manual processing. The real-time activity monitor provides visibility into the processing of real-time tasks on the client’s desktop, so that companies can solve the problem of inefficient background operations exposed by data. According to another feature, the recording method is used to enable the user of the system to automatically define the processes and tasks to be monitored. This method avoids manual configuration by recording application usage operations and then using these interactions as templates for new process objects to be monitored. In an alternative embodiment, the process recorder captures screenshots and enables screen element bookmarks.
[G06Q] Data processing system or method, especially suitable for administrative, commercial, financial, management, supervision or forecasting purposes; systems or methods that have not been specifically adopted for management, commercial, financial, management, supervision or forecasting purposes, but have not been [2006.01]Provided
System and method for balancing the realization load of the entire retail supply network by combining node realization capacity and network average capacity utilization. Patent No. 10783483
Inventor: Saurabh Gupta (Irvine, Texas) Assignee: International Business Machines Corporation (Armonk, NY) Law Firm: Scully, Scott, Murphy Presser, PC (1 non-local office) Application number , Date, speed: 15153921 on May 13, 2016 (1593 days of application released)
Abstract: A method and system for evaluating node fulfillment ability in node order distribution. The method includes receiving electronic records of current orders through a network average capacity utilization cost module. The method includes: retrieving data of multiple nodes; calculating the actual capacity utilization rate of the expected date; and determining the backlog probability of the expected date. The method includes: generating a network average capacity utilization cost model; automatically converting conventional labor costs or overtime labor costs into capacity utilization costs; and transmitting the capacity utilization cost of each node to the order fulfillment engine. The method includes receiving current orders by the engine, processing cost data and capacity utilization costs. The method includes automatically calculating the execution cost and identifying the node with the lowest execution cost for allocation.
[G06Q] Data processing system or method, especially suitable for administrative, commercial, financial, management, supervision or forecasting purposes; systems or methods that have not been specifically adopted for management, commercial, financial, management, supervision or forecasting purposes, but have not been [2006.01]Provided
A system for managing, storing and sharing digital content in a multi-platform environment and providing it to users in groups defined by user relationships. Patent No. 10783503
Inventors: George Vannessek (Small) (Madison, Wisconsin), Guangbin Fan (Santa Clara, California), Jiafeng Zhu (San Ramon, California), Nino Widovic (Saratoga, California) ) Assignee: Futurewei Technologies, Inc. (Plano, Texas) Law Firm: PC’s Conley Rose (3 non-local offices) application number, date, speed: 15690583 on August 30, 2017 (issue date is 1119 days)
Abstract: A system for managing, storing shared digital content and providing it to a group of users in a multi-platform environment, including: cloud storage components configured to store numbers shared by members of a group defined by user relationships Content items; and cloud service components, which are configured to provide one of the digital content items to the first platform of the first member of the user relationship-defined group in a format suitable for the first platform, and to provide the user relationship-defined The second platform of the second member of the group. A format suitable for the second platform, where the first platform and the second platform are different platforms.
[G06F] Electrical digital data processing (computer system based on specific calculation model G06N)
Inventor: Kermit D. Lopez (Dallas, Texas), Luis M. Ortiz (Dallas, Texas) Assignee: Rateze Remote Mgmt LLC (Wilmington, Delaware) Law Firm: Kowert, Hood, Munyon, Rankin Goetzel, PC (1 non-local office) Application number, date, speed: 15688347 on August 28, 2017 (1121 days of application release required)
Abstract: A method and system for processing transferable economic credit through a handheld device associated with a third-party provider that communicates with the handheld device and/or point of sale, or at the request of the handheld device. At least one transferable economic credit may be transferred from a third-party provider that communicates with the handheld device to the handheld device and/or point of sale. Negotiable economic credits can be stored in the memory of the handheld device and/or point of sale for retrieval and processing at the point of sale associated with the retail establishment and/or the handheld device. The transferable economic credit may be associated with a security module for protecting the privacy of the transferable economic credit. The user profile can be edited to be used in the retrieval process of the transferable economic credit.
[G06Q] Data processing system or method, especially suitable for administrative, commercial, financial, management, supervision or forecasting purposes; systems or methods that have not been specifically adopted for management, commercial, financial, management, supervision or forecasting purposes, but have not been [2006.01]Provided
Image analysis and recognition and output personalization using machine learning Patent No. 10783580
Inventors: Arjun Dugal (Dallas, TX), Geoffrey Dagley (McKinney, TX), Jason Richard Hoover (Grapevine, TX), Micah Price (Plano, TX) ), Qiaochu Tang (Texas Colony), Raman Bajaj (Frisco, Texas), Sanjiv Yannick (Dallas, Texas), Stephen Mick Assignee: Capital One Services, LLC (McLean, Virginia) Law Firm: Finnegan, Henderson, Farabow, Garrett Dunner, LLP (9 non-local offices) application number, date, speed: 16165351 (issued 704 days) on October 19, 2018 s application)
Abstract: Provides systems and methods for processing images using machine learning. The system includes a processor that communicates with a client device, and a storage medium storing instructions that when executed, cause the processor to perform the following operations: receive an image of the vehicle from the client device; and receive the image of the vehicle from the client device . Extract one or more features from the image; use machine learning algorithms to determine the brand and model of the vehicle based on the extracted features. These operations also include: obtaining user information related to the vehicle financing request; according to the brand, model and user information, determining the real-time quotation of the vehicle and sending it to the client device.
[G06Q] Data processing system or method, especially suitable for administrative, commercial, financial, management, supervision or forecasting purposes; systems or methods that have not been specifically adopted for management, commercial, financial, management, supervision or forecasting purposes, but have not been [2006.01]Provided
Inventor: Jefferson Crew (Plano, Texas) Assignee: Wells Fargo Bank (NA) (San Francisco, California) Law Firm: Schwegman Lundberg Woessner, PA (11 non-local Office) Application number, date, and speed: 15146406 on May 4, 2016 (1602 days for application release)
Abstract: In some examples, methods, systems and machine-readable media for providing users with customized alerts are disclosed. The alarm can be described by a set of alarm parameters. The alarm parameters include the type of alarm, the frequency of the alarm, and the content of the alarm. Although the alarm parameters can be initially set based on preferences explicitly input by the user, the system can monitor one or more indicators to dynamically adjust one or more alarm parameters. Because indicators allow the automated portfolio management system to respond to user needs, these alerts may increase the personalization of the automated portfolio management system.
[G06Q] Data processing system or method, especially suitable for administrative, commercial, financial, management, supervision or forecasting purposes; systems or methods that have not been specifically adopted for management, commercial, financial, management, supervision or forecasting purposes, but have not been [2006.01]Provided
Inventor: Andrew Silver (Dallas, Texas) Assignee: Unappointed Law Firm: No Lawyer Application Number, Date, Speed: 15913460 on March 6, 2018 (Need to issue 931 days time)
[G06Q] Data processing system or method, especially suitable for administrative, commercial, financial, management, supervision or forecasting purposes; systems or methods that have not been specifically adopted for management, commercial, financial, management, supervision or forecasting purposes, but have not been [2006.01]Provided
Inventors: Hamid Rahim Sheikh (Allen, Texas), Ibrahim E. Pekkucuksen (Plano, Texas), John W. Glotzbach (Allen, Texas) Assignee: Samsung Electronics Co., Ltd. (Suwon-si,, KR) law firm: No lawyer application number, date, speed: 16038296 on 18th, 18th, 2018 (797 days required for publication)
Abstract: A method for improving image quality, including: receiving an image; identifying the image area associated with the object in the image; performing the first image processing on the object in the image; performing the second image processing on the rest of the image.
Machine learning system and method for evaluation, healing prediction and wound treatment Patent No. 10783632
Inventors: Brian McCall (Dallas, Texas), Faliu Yi (Allen, Texas), Jason Dwight (Dallas, Texas), Jeffrey E. Thatcher (Irving, Texas), John Michael DiMaio (Dallas, Texas), Kevin Plant (Dallas, Texas), Peiran Quan (Dallas, Texas), Ronald Baxter (Major Assignee: SPECTRAL MD, INC. (Dirk) (Dallas, Sas.) Law Firm: Knobbe Martens Olson Bear, LLP (12 non-local offices) application number, date, speed: 16738911 (application issued for 257 days) on January 9, 2020
Abstract: A machine learning system and method are disclosed for predicting wound healing (such as diabetic foot ulcers or other wounds) and evaluating implementation methods (such as segmenting images into wound and non-wound areas). The system for evaluating or predicting wound healing may include: a light detection element configured to collect light of at least a first wavelength reflected from a tissue area including a wound; and one or more processors configured to The signal is detected by light to generate an image. An element with pixels depicting a tissue area, determine the reflection intensity value of at least one pixel subset, determine one or more quantitative characteristics of a plurality of pixel subsets based on the reflection intensity value, and generate predicted or estimated healing parameters in a predetermined Related to the wound within the time interval.
[G06K] Data identification; data representation; record carrier; processing record carrier (printed B41J itself)
Inventor: Indranil Sinharoy (Richardson, Texas), Madhukar Budagavi (Plano, Texas) Assignee: Samsung Electronics Co., Ltd. (Suwon City, KR) Law Firm: No Counsel Application Number, date, speed: 16219433 on December 13, 2018 (649 days old application)
Summary: Decoders, encoders and methods for decoding 3D point cloud data. The decoder includes a communication interface configured to receive an encoded bit stream including 3D point cloud data and a processor. The processor is configured to decode the bitstream to identify multiple 2D frames; based on the positions of corresponding pixels in the two or more geometric frames, identify the corresponding ones in the two or more geometric frames in the multiple 2D frames Pixel; identify the depth value of the corresponding pixel in two or more geometric frames; based on the identified depth value of the corresponding pixel in the two or more geometric frames, in at least one of the two or more geometric frames Identify duplicate points in the 3D point cloud data; delete or ignore the identified duplicate points when reconstructing the 3D point cloud data.
[G06K] Data identification; data representation; record carrier; processing record carrier (printed B41J itself)
Inventor: George Allen (Shanghai, China), Suraj Ravi Musuvathy (Princeton, New Jersey) Assignee: Siemens Industry Software Inc. (Plano, Texas) Law Firm: No lawyer application number, date, speed: 16468550 on 03/14/2017 (1288 days old application released)
Abstract: Product design methods and corresponding systems and computer-readable media. One method includes receiving a modeled object with a surface and a non-uniform density distribution. The method includes subdividing the surface of the object into a set of triangles defined by the vertices of the triangles. The method includes selecting a reference point for the object. The method includes: for each triangle in the mosaic, construct a tetrahedron defined by tetrahedron vertices including corresponding triangles and reference points, determine the material density at the vertices of each tetrahedron, and calculate its The mass attribute uses the material density at the vertex of each tetrahedron to draw the tetrahedron. The method involves gathering the mass properties of tetrahedrons. The method includes storing the aggregate mass characteristics of the tetrahedron as the mass characteristics of the object.
Inventors: Wanghongi Wang (Shenzhen, CN), Wang Xiaobo Wang (San Jose, California), Dingminmin Ding (San Jose, California), Hu Zhijie Hu (Milpitas, California) Assignee: Futurewei Technologies, Inc. (Plai, Texas) No. Law Firm: Schweigerman Lundberg Vosner, Pennsylvania (11 non-local offices) application number, date, speed: 16457198 on June 28, 2019 (452 ​​days for application to be issued time)
Abstract: Provides an intruder detection method. The method includes the security server sending a verification prompt to the device in the controlled access area according to the instructions of the entrant to enter the controlled access area. The verification prompt instructs the contestant to perform a predefined In the verification operation, the security server receives the behavior information of the entrant, and the security server compares the behavior information of the entrant with the behavior model of a group of authorized personnel associated with the controlled access area. The behavior model includes a verification prompt and if the behavior information of the entrant is compared with If the behavior sequence included in the behavior model does not match, the security server generates an intruder indication.
Inventors: Deepanjan Paul (Plano, TX), Ryan Robert Strong (Plano, TX), Sarath Vakacharla (Irving, TX), Shahmeer Ali Mirza (Texas Celina) Assignee: 7-11 Company (Irvine, Texas) Law Firm: Baker Botts LLP (local + 8 other cities) Application number, date, speed: 16663669 on October 25, 2019 (Requires 333-day application for issuance)
Abstract: A rack for a retractable tracking system, the weight sensor of which is located on the shelf where items are placed. The weight sensor detects the weight of the item and transmits a signal indicating the weight to the circuit board located in the rack. The circuit board transmits these detected weights to the weight server, which determines whether the item is unloaded from the shelf based on the weight.
Inventor: Eduard J. Vandersmitte (McKinney, Texas), Scott R. Meyer (Allen, Texas) Assignee: TOYOTA MOTOR NORTH AMERICA, INC. (Plano, Texas) Law Firm: Sheppard, Mullin, Richter Hampton LLP (7 non-local offices) Application number, date, speed: 16529581 on January 1, 2019 (418 days of publication required Application)
Abstract: Provides systems and methods for smart road signs. Smart road signs include transceivers. Hardware processor; a non-transitory machine-readable storage medium that is encoded with instructions executable by the hardware processor to perform a method, the method comprising: receiving a message via a transceiver, the message describing and deploying a smart road marking road Relevant conditions; and determine the direction of the message propagation; according to the determined direction, select another of the multiple smart road signs, and store the deployment mode of the smart road signs; make the transceiver send the message to the selected smart road signs.
[G08G] Traffic control system (Guide railway traffic to ensure railway traffic safety B61L; radar or similar system, sonar system or lidar system, especially suitable for traffic control G01S 13/91, G01S 15/88, G01S 17/88; Radar or similar systems specially designed for collision avoidance purposes, sonar systems or lidar systems G01S 13/93, G01S 15/93, G01S 17/93; control the position, heading, and altitude of land, water, air or space vehicles Or posture, not specific to the traffic environment G05D 1/00) [2]
System and method for automatic vehicle tracking ready with patent number 10783792
Inventors: Avid Ghamsari (Frisco, Texas), Geoffrey Dagley (McKinney, Texas), Jason Hoover (Grapevine, Texas), Micah Price (Pleas, Texas) Connaught), Qiaochu Tang (Texas Colony) Assignee: Capital One Service Co., Ltd. (McLean, Virginia) Law Firm: Banner Witcoff, Ltd. (3 non-local offices) Application number, date , Speed: 16666001 on October 22, 2019 (release date is 336 days)
Abstract: The aspects described in this article can facilitate the preparation of automatic vehicle tracking with limited human-computer interaction. One method includes: receiving vehicle-specific identification information of the vehicle requested for test drive, rental use or lease; prompting to place the vehicle in the first predetermined area; determining that the vehicle is entering the first predetermined area to start the test drive, and lease use Or lease; use one or more image sensors associated with the first predetermined area to generate the first multimedia content representing the appearance of the vehicle; determine that the vehicle is entering the second predetermined area to end the test drive, lease use, or lease; Use one or more image sensors to generate second multimedia content, which shows the appearance of the vehicle; analyze the first multimedia content and the second multimedia content to determine the difference in appearance of the vehicle ; Generate vehicle evaluations based on differences; and generate instructions to remind you of vehicles.
[G08G] Traffic control system (Guide railway traffic to ensure railway traffic safety B61L; radar or similar system, sonar system or lidar system, especially suitable for traffic control G01S 13/91, G01S 15/88, G01S 17/88; Radar or similar systems specially designed for collision avoidance purposes, sonar systems or lidar systems G01S 13/93, G01S 15/93, G01S 17/93; control the position, heading, and altitude of land, water, air or space vehicles Or posture, not specific to the traffic environment G05D 1/00) [2]
Inventor: Lawrence Jin-Sung Ham (Anna, Texas) Assignee: Unallocated Law Firm: No Counsel Application Number, Date, Speed: 15237483, August 15, 2016 (1499 days of application is required )
Abstract: A drum and pitch adjusting device for drums, including: a drum having a sounding membrane; a device for applying pressure to the sounding membrane; and a cable configured to apply pressure to and release the pressure to the sounding membrane Device. The pitch of the drum, but if there is no force, it returns to the original pitch of the drum. The manual joystick located on the side of the drum manipulates the cable to push the pressure device up to the sounding membrane and change its pitch. Without this force, the drum will return to its original pitch, and different pitch changes will occur during real-time playback.
[G10D] Stringed instruments; wind instruments, accordions or concerts; percussion instruments; instruments not yet provided (non-musical aspects of musical instrument toy A63H 5/00; organs, harmonicas or similar instruments with related wind instruments G10B; with One or more keyboards G10C piano, harpsichord, trumpet reel or similar stringed instruments; automatic musical instruments G10F; electronic musical instruments G10H; musical instruments that generate tones through electromechanical means or electronic generators, or musical instruments that synthesize tones from data storage area G10H )
Inventor: Kulvir S. Bhogal (Fort Worth, Texas) Assignee: International Business Machines Corporation (Armonk, NY) Law Firm: Heslin Rothenberg Farley Mesiti PC (2 non-local offices) Application Number, date, speed: 16006153 on December 12, 2018 (the application will be released for 833 days)
Summary: A method, computer program product, and system in which one or more processors continuously obtain processing requests from devices in a group of devices within geographical proximity defined by each other. Each request is the result of a device in the device group receiving and interpreting a voice command issued in the geographic area that includes the device group. The processor buffers part of the processing request obtained within a defined time interval in the storage resource. The processor determines that there are duplicate processing requests in this section. Based on determining that there are duplicates, the processor rejects the duplicates. The processor selects a specific device from the request and the device where the copy of the request is located to execute each processing request. The processor uses a specific device to perform processing requests.
[G10L] Speech analysis or synthesis; speech recognition; speech or speech processing; speech or audio coding or decoding[4]
Inventor: Raghukiran Sreeramaneni (Frisco, Texas) Assignee: Micron Technology, Inc. (Boise, Idaho) Law Firm: Fletcher Yoder, PC (1 non-local office) Application number , Date, speed: 16723570 on 12/20/2019 (application released for 277 days)
Abstract: A device that includes a signal input for receiving data input as part of a bit stream. The device also includes a reference input for receiving reference signals. The device further includes: a push-pull circuit for receiving a first weight value; receiving a first correction value; and generating a push signal based on the first weight value and the first correction value to selectively modify data Input; and a pull circuit for receiving the second weight value. Weighting value, receiving the second correction value, and generating a pull signal based on the second weighting value and the second correction value to selectively modify the data input.
[G11C] Static store (information storage based on the relative movement between the record carrier and the transducer G11B; semiconductor devices used to store H01L, such as H01L 27/108-H01L 27/11597; generally H03K pulse technology, such as Electronic switch H03K 17/00)
Inventor: Gary L. Howe (Allen, Texas), Thanh K. Mai (Allen, Texas) Assignee: Micron Technology, Inc. (Boise, Iowa) Law Firm: Fletcher Yoder, PC (1 non-local office) application number, date, speed: 16520071 (release date: 07/23/2019))
Abstract: A semiconductor device may include: a plurality of memory banks; a plurality of mode registers that can control the operation mode associated with each of the plurality of memory banks; and a set of global wiring coupled to each of the plurality of mode registers . The global wiring group may include: a first global wiring for sending data to each of the multiple mode registers; a second global wiring for sending an address signal to each of the multiple mode registers; and a third global wiring, Used to send an address signal to each of the multiple mode registers. Send the read command signal to each of the plurality of mode registers, and the fourth global wiring to send the write command signal to each of the plurality of mode registers.
[G11C] Static store (information storage based on the relative movement between the record carrier and the transducer G11B; semiconductor devices used to store H01L, such as H01L 27/108-H01L 27/11597; generally H03K pulse technology, such as Electronic switch H03K 17/00)
Parity error synchronization method and storage device and system using the same patent number 10783980
Inventor: Vijayakrishna J. Vankayala (Allen, Texas), William C. Waldrop (Allen, Texas) Assignee: Micron Technology, Inc. (Boise, Idaho) Law Firm : Perkins Coie LLP (17 local offices) application number, date, speed: 15975697 on May 9, 2018 (applications available for 867 days)
Abstract: Disable internal commands by delaying the activation of the command disable signal, thereby providing a system and method for parity error synchronization based on the parity waiting time value, so that the command disable signal is activated before the parity error command.
[G11C] Static store (information storage based on the relative movement between the record carrier and the transducer G11B; semiconductor devices used to store H01L, such as H01L 27/108-H01L 27/11597; generally H03K pulse technology, such as Electronic switch H03K 17/00)
Inventor: Cody Michael Berger (Melissa, TX), Ramana Tadepalli (McKinney, TX) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, TX) Law Firm: No Counsel Application number, date, speed: 15897879 on 02/15/2018 (application released for 950 days)
Summary: In some examples, a method for manufacturing a solid state device includes: forming a first layer of the solid state device; and forming a first layer of the solid state device. The conductive layer of the solid-state device is formed above the first layer, the conductive layer has access pads formed on the ends of the conductive layer; the access pad is used to apply a voltage to the conductive layer, which is in the first layer below the conductive layer An electric field is formed in the region; after voltage is applied, the solid-state device is manufactured.
[G01R] Measuring electrical variables; measuring magnetic variables (indicating the correct adjustment of the resonant circuit H03J 3/12)
Method, system and computer-readable medium for securely establishing credential data for computing devices Patent No. 10785219
Inventor: Christopher Michael Davis (Frisco, TX) Assignee: EMC IP HOLDING COMPANY LLC (Rod Rock, TX) Law Firm: Jenkins, Wilson, Taylor Hunt, PA (2 Non-local offices) application number:, date, speed: 14942332 on November 16, 2015 (1772 days application needs to be released)
Abstract: A method, system and computer readable medium for securely establishing credential data for computing devices are disclosed. According to one example, a method includes: assigning, by a credential manager, credential set data to a computing device, and mapping the credential set data to a device identifier secret associated with the computing device in a credential data store accessible by the credential manager. key. The method further includes: in response to the activation of the computing device at the customer location site, the credential manager receives a credential setting request message including the device identifier key from the provisioning service client, and sends the credential manager to the provisioning service client , The credential set data is used to authenticate the computing device on the customer location site.
[G06F] Electrical digital data processing (computer system based on specific calculation model G06N)
Inventor: Gregory Scott Pettitt (Sherman, Texas), Zhongyansheng (Allen, Texas) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law Firm: No lawyer applies Number, date, speed: 16235883 (12th December) / 28/2018 (applications released in 634 days)
Abstract: In the described example, the digital light processing color projector includes a light emitter configured to collectively emit light of multiple wavelengths, a plurality of light guide elements forming an illumination path with at least one aperture stop, and a micro In the mirror array, there is a color filter at the aperture stop, and a filter with a selected color transmittance profile at or near the aperture stop. The light guide element is configured to guide light to the micromirror array as illumination light. The aperture width determines the diameter of the illumination light. The open state of the micromirror reflects the illumination light into the open state light. The substrate reflects the illumination light into flat light. The light guide element guides the on-state light to the projector output through the hole. The filter filters the flat light in the overlap area of ​​the conduction light and the flat light or the portion of the illumination light corresponding to the overlap area.
[G03B] Devices or devices used to take pictures or project or view them; devices or devices that use analog technology using waves similar to optical waves; accessories (optical parts G02B of such devices; photosensitive materials or methods for photographic purposes G03C; Equipment for processing exposed photographic materials G03D) [4]
Inventor: Connor Garrison (Plano, Texas) Assignee: U.S. Government, represented by the Secretary of the Army (Washington, DC) Law Firm: No Lawyer Application Number, Date, Speed: 15275543 on 09/26/2016 (1457 days of release of the application)
Abstract: Describes various embodiments related to energy production. The housing can hold the spring coupled to the gear set. When the spring undergoes linear compression and extension, the spring causes rotational movement in the gear set. The rotational movement from the gear set can cause the rotation of the rotating magnet. When the rotating magnet rotates around the coil assembly, it can convert energy. Energy can be used to charge the battery.
[H02K] Electric machinery (electric relay H01H 53/00; convert DC or AC input power into surge output power H02M 9/00)
Integrated circuit with self-calibration oscillator and its operation method, patent number 10778727
Inventors: Angelo William Pereira of Allen, Texas, Pinar Korkmaz of Allen, Texas, Sujan Kundapur Manohar of Dallas, Texas Attorney: Texas TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law Firm: No lawyer application. , Date, Speed: 16194784 on 11/19/2018 (673 days of application release)
Abstract: An integrated circuit with a self-calibrating oscillator and its operating method are disclosed. The disclosed example integrated circuit includes: a clock generator; a comparator having a first input connected to the output of the clock generator; and a second input connected to a reference voltage; a calibrated detector with an input connected to the comparator And the output is communicatively coupled to the calibration code register.
[H03K] Pulse technology (measure pulse characteristics G01R; use pulse H03C to modulate sinusoidal oscillation; transmit digital information H04L; the discriminator circuit detects the phase difference between the two signals by counting or integrating the oscillation period H03D 3/04; automatic Control, start, synchronization or stabilization of generators that are not related to the type of electronic oscillation or pulse generator or not specified; usually H03M encoding, decoding or code conversion)[4]
Inventor: Federico Romero (Corpus Christi, Texas) Assignee: Overhead Door Corporation (Levisville, Texas) Law Firm: Haynes and Boone, LLP (local + 13 other cities) ) Application number, date, speed: 15589307 on 05/08/2017 (application issued 1233 days old)
Abstract: A sealed electrical contact system including at least one convex electrical contact connected to at least one annular flange and one convex conductive contact. The at least one female electrical contact includes a socket and a female conductive contact arranged in the socket. The at least one annular flange is configured to contact the inner surface of the socket when the male conductive contact contacts the female conductive contact and closes the circuit.
[H01H] electrical switch; relay selector; emergency protection device (contact cable H01B 7/10; electrolytic self-breaker H01G 9/18; emergency protection circuit device H02H; switch by electronic means without contact H03K 17/00 )
Method for etching the features of microelectronic mechanical system in silicon wafer Patent No. 10784115
Inventors: Ercan Mehmet Dede (Ann Arbor, Michigan), Feng Zhou (South Lyon, Michigan), Kenneth E. Goodson (Poto Valley, California), Ki Wook Jung (Santa Clara, California), Mehdi Asheghi (Pa Loalto), assignee: Toyota Motor Engineering Manufacturing North America Co., Ltd. (Plano, Texas) Law Firm: Dinsmore Shohl LLP (14 non-local offices) application number, date, speed: 16507272, July 10, 2019 (440 days old application)
Abstract: A method for etching features in a silicon wafer. The method includes coating a mask layer on the top and bottom surfaces of the silicon wafer. The etching rate of the mask layer is lower than that of the silicon wafer. Or a plurality of parts form a mask pattern in the mask layer on the top and bottom surfaces of the silicon wafer, and one or more top surface features are etched into the top surface of the silicon wafer through the mask pattern until it is located between the tops The depth plane is on one surface and the bottom surface of a silicon wafer with a certain depth from the top surface. The top surface and one or more top surface features are coated with a metal coating, and one or more bottom surface features are etched to the silicon wafer. The bottom surface passes through the mask pattern to reach the target depth plane.
[H01L] Semiconductor equipment; there is no other solid-state equipment provided (semiconductor equipment for measuring G01; resistors for conventional H01C; magnets, inductors, transformers for magnet H01G; capacitors for conventional H01G; electrolytic equipment H01G 9/00; Battery, storage battery H01G; waveguide, resonator, or waveguide type H01P line; line connector, collector H01R; stimulated emission device H01S; electromechanical resonator H03H; speaker, microphone, phonograph pickup or similar electromechanical transducer H04R ; General H05B electric light source; printed circuit boards, hybrid circuits, electrical equipment housing or structural details, electrical components manufacturing H05K; semiconductor devices used in circuits with specific applications, please refer to the application subcategories) [2]
Method and equipment for semiconductor device with dual material die attach layer Patent No. 10784188
Inventor: Rongwei Zhang (Plano, TX), Vikas Gupta (Dallas, TX) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, TX) Law Firm: No Counsel Application No. , Date, Speed: 16443653 on 06/17/2019 (app issued for 463 days)
Abstract: The described example includes a device that includes a semiconductor die having a first surface with bonding pads, and an opposite second surface is bonded by covering at least a portion of the second surface The agent layer is attached to the substrate. The adhesive layer includes a first area composed of a first polymer compound and added to the first portion of the surface area, and a second area composed of a second polymer compound and added to the second portion of the surface area, the first area and the second area . The second area is continuous. The first polymer has a first modulus, and the second polymer has a second modulus greater than the first modulus.
[H01L] Semiconductor equipment; there is no other solid-state equipment provided (semiconductor equipment for measuring G01; resistors for conventional H01C; magnets, inductors, transformers for magnet H01G; capacitors for conventional H01G; electrolytic equipment H01G 9/00; Battery, storage battery H01G; waveguide, resonator, or waveguide type H01P line; line connector, collector H01R; stimulated emission device H01S; electromechanical resonator H03H; speaker, microphone, phonograph pickup or similar electromechanical transducer H04R ; General H05B electric light source; printed circuit boards, hybrid circuits, electrical equipment housing or structural details, electrical components manufacturing H05K; semiconductor devices used in circuits with specific applications, please refer to the application subcategories) [2]
Inventors: Anis Fauzi bin Abdul Aziz (Kedah, MY), Lee Han [Email protected] Lee (Johor Bahru, MY), Wei Fen Sueann Lim (Melaka, MY) Assignee: TEXAS INSTRUMENTS INCORPORATED (Texa (Dallas, Slovakia) Law Firm: No lawyer application number, date, speed: 15680499 on August 18, 2017 (1131 days of application need to be issued)
Abstract: The lead frame tape used to manufacture leaded integrated circuit packages includes a plurality of integrally connected lead frames, each lead frame has a die attach pad and first and second sides opposite to the die attach pad. The first and second damping strips are positioned adjacent to each other. A plurality of continuous lead structures extend between the opposite dam bars of horizontally adjacent lead frames without interference from other structures. A plurality of integrally connected lead frames are arranged in a plurality of vertical columns, wherein the die attach pads in one vertical column and the die attach pads in the adjacent vertical column are in the vertical direction Offset.
[H01L] Semiconductor equipment; there is no other solid-state equipment provided (semiconductor equipment for measuring G01; resistors for conventional H01C; magnets, inductors, transformers for magnet H01G; capacitors for conventional H01G; electrolytic equipment H01G 9/00; Battery, storage battery H01G; waveguide, resonator, or waveguide type H01P line; line connector, collector H01R; stimulated emission device H01S; electromechanical resonator H03H; speaker, microphone, phonograph pickup or similar electromechanical transducer H04R ; General H05B electric light source; printed circuit boards, hybrid circuits, electrical equipment housing or structural details, electrical components manufacturing H05K; semiconductor devices used in circuits with specific applications, please refer to the application subcategories) [2]
Inventors: Benjamin James Timmer (Dallas, Texas), Gregory Boyd Shinn (Dallas, Texas), Honglin Guo (Dallas, Texas), Hong Qizhong (Richardson, Texas) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law Firm: No attorney application number, date, speed: 16047889 on July 27, 2018 (788-day application is required)
Abstract: An integrated circuit (IC) includes a substrate with a semiconductor surface layer with a functional circuit for realizing at least one circuit function, and an interlayer dielectric (ILD) layer on a metal layer above the semiconductor surface layer. A thin film resistor (TFR) including a TFR layer is on the ILD layer. At least one vertical metal wall is on at least two sides of the TFR. The metal wall includes at least two metal layers coupled through filled vias. The functional circuit is located outside the metal wall.
[H01L] Semiconductor equipment; there is no other solid-state equipment provided (semiconductor equipment for measuring G01; resistors for conventional H01C; magnets, inductors, transformers for magnet H01G; capacitors for conventional H01G; electrolytic equipment H01G 9/00; Battery, storage battery H01G; waveguide, resonator, or waveguide type H01P line; line connector, collector H01R; stimulated emission device H01S; electromechanical resonator H03H; speaker, microphone, phonograph pickup or similar electromechanical transducer H04R ; General H05B electric light source; printed circuit boards, hybrid circuits, electrical equipment housing or structural details, electrical components manufacturing H05K; semiconductor devices used in circuits with specific applications, please refer to the application subcategories) [2]
Inventor: Mark S. Rodder (Dallas, Texas) Assignee: Samsung Electronics Co., Ltd. (Suwon City, South Korea) Law Firm: Lewis Roca Rothgerber Christie LLP (6 non-local offices) number, Date, speed: 15681243 on August 18, 2017 (1131 days of application released)
Abstract: A semiconductor integrated circuit that includes a substrate, a series of metal layers and a series of insulating layers. The metal layer and the insulating layer are alternately stacked on the substrate. The semiconductor integrated circuit further includes at least two standard cells in the substrate and at least one power rail crossing at the boundary of the at least two standard cells. The power rail includes a vertical portion of conductive material that continuously extends through at least two vertical levels of the stack. The stacked two vertical layers include a metal layer and an insulating layer. The insulating layer is above the metal layer.
[H01L] Semiconductor equipment; there is no other solid-state equipment provided (semiconductor equipment for measuring G01; resistors for conventional H01C; magnets, inductors, transformers for magnet H01G; capacitors for conventional H01G; electrolytic equipment H01G 9/00; Battery, storage battery H01G; waveguide, resonator, or waveguide type H01P line; line connector, collector H01R; stimulated emission device H01S; electromechanical resonator H03H; speaker, microphone, phonograph pickup or similar electromechanical transducer H04R ; General H05B electric light source; printed circuit boards, hybrid circuits, electrical equipment housing or structural details, electrical components manufacturing H05K; semiconductor devices used in circuits with specific applications, please refer to the application subcategories) [2]
Inventor: Akram Ali Salman (Plano, Texas), Henry Litzmann Edwards (Garland, Texas) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law Firm: No Counsel Application No., date, speed: 16371960 on 04/01/2019 (Apply 540 days old)
Abstract: An integrated circuit including a plurality of first n-type regions and a plurality of second n-type regions intersecting the surface of a substrate, respectively. The first n-type regions are arranged in the first n-well in a first linear array and in the second n-well in a second linear array. The first and second n-wells are respectively located in and separated by the first p-type region. The second n-type region is located in and separated by the second p-type region. The n-type trench region is located between the first and second p-type regions. The n-type trench region extends into the substrate toward the n-type buried layer extending under the first p-type region and the second p-type region.
[H01L] Semiconductor equipment; there is no other solid-state equipment provided (semiconductor equipment for measuring G01; resistors for conventional H01C; magnets, inductors, transformers for magnet H01G; capacitors for conventional H01G; electrolytic equipment H01G 9/00; Battery, storage battery H01G; waveguide, resonator, or waveguide type H01P line; line connector, collector H01R; stimulated emission device H01S; electromechanical resonator H03H; speaker, microphone, phonograph pickup or similar electromechanical transducer H04R ; General H05B electric light source; printed circuit boards, hybrid circuits, electrical equipment housing or structural details, electrical components manufacturing H05K; semiconductor devices used in circuits with specific applications, please refer to the application subcategories) [2]
Air-stabilized lithium sulfide cathode composition, its preparation method and solid lithium battery containing the same patent number 10784505
Inventors: Erika Nagai (Ann Arbor, Michigan), John Muldoon (Salin, Michigan), Patrick J. Bonnick (Ann Arbor, Michigan), Timothy S. Arthur (Ann Arbor, Michigan) Assignee: Toyota Motor North American Engineering Manufacturing Co., Ltd. (Plano, Texas) Law Firm: Darrow Mustafa PC (2 non-local offices) Application number, date, speed: 16059641 on September 9, 2018 (775 days to issue )
Abstract: Lithium sulfide (Li [subscript] 2 [/subscript] S [subscript] w [/subscript])-lithium sulfide (Li [subscript] x [/subscript] P [subscript] y [/Subscript] S [This article describes the composite material, the electrochemical cell containing the composite material and its manufacturing method. Through the mechanochemical method described in this article, Li [subscript] 2 [/subscript] S [subscript ] w [/subscript] Li [subscript] x [/subscript] P [subscript] y [/subscript] S [subscript] z [Compounds can be formed and used in various electrochemistry The active material in the positive electrode of the battery. This article shows that the composite material is an electrochemically active cathode material. In addition, it has been shown that Li [subscript] 2 [/subscript] S [subscript] w [/subscript] Li [下Subscript] x [/subscript] P [subscript] y [/subscript] S [subscript] z [The compound shows higher resistance to decomposition and H than Li [subscript] 2 [/subscript] S [Subscript] 2 [/subscript] The ability to generate S.
[H01M] A process or device used to directly convert chemical energy into electrical energy, such as a battery [2]
Electromagnetic knotting applications in radio waves for wireless and photonics, for quantum computing Patent No. 10784569
Inventor: Solyman Ashrafi (Plano, Texas) Assignee: NXGEN PARTNERS IP, LLC (Dallas, Texas) Law Firm: No Counsel Application Number, Date, Speed: 16579298 on 09/23 /2019 (365 days application release)
Abstract: A system for transmitting signals, including a processing circuit for receiving at least one input signal for transmission from a processing circuit to a second location. The electromagnetic junction processing circuit receives the processed signal from the first processing circuit, and applies the electromagnetic junction to the received processed signal before transmission to the second location. The first signal degradation caused by the environmental factor of the signal processed by the electromagnetic junction is improved than the second signal degradation caused by the environmental factor of the signal not processed by the electromagnetic junction.
The auxiliary compartment of the modular bucket assembly is enhanced in the arc resistant switchgear of Patent No. 10784660
Inventor: Rahul Rajvanshi (Irving, Texas) Assignee: SIEMENS INDUSTRY, INC. (Alpharetta, Georgia) Law Firm: No Counsel Application Number, Date, Speed: 16815863 on 03/11/2020 (195 days application release)
Abstract: A modular bucket assembly of a low-voltage switchgear, including: a box-shaped bucket with an inner bucket side wall, an outer bucket side wall with a ventilation hole on the first periphery, the bucket Back wall, bucket top wall and bucket bottom wall. All bucket walls define the auxiliary compartment of the switch cabinet. The vent on the side wall of the outer barrel defines an arc gas discharge channel communicating with the inside of the auxiliary compartment for discharging the arc gas to the outside of the cabinet. The modular bucket assembly also includes a metal shell mounted on the bottom wall of the bucket. The metal shell has a side opening with a second periphery such that the second periphery overlaps the first periphery of the outer bucket side wall. The metal enclosure is configured to house devices and protective fuses that are directly connected to the power source, and withstand arc fault pressure.
[H02B] Circuit boards, bases or switchgear used for power supply or power distribution (basic electrical components, their components, including the installation in the housing or the base or the installation of the cover on it), please refer to the sub Class, such as transformer H01F, switch, fuse H01H, line connector H01R; installation of cable or line, or installation of combination of optical cable and cable or line, or other conductors used for power supply or distribution H02G)
Inventor: Harshal S. Chhaya (Plano, TX), Thomas Brian Olson (Allen, TX) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, TX) Law Firm: None Lawyer application number, date, speed: 15046647 on 02/18/2016 (1678 days of application released)
Abstract: A system and method for monitoring the current consumption of various subsystems and applications and adjusting functional parameters to ensure constant current consumption from the battery is disclosed. The constant current consumption can be dynamically adjusted based on a predetermined battery life. Users can determine the required battery life, and the system adjusts the current consumption of various subsystem components and applications to provide consistent and predictable battery life.
[H02J] Circuit device or system for supplying or distributing power; electric energy storage system (power circuit G01T 1/175 for equipment used to measure X-rays, gamma rays, particle radiation or cosmic rays; specifically for those without moving parts Power supply circuit G04G 19/00 for electronic clocks and watches; used for digital computer G06F 1/18; used for discharge tube H01J 37/248; used for converting electric power circuits or equipment, used for controlling or regulating such circuits or equipment H02M ; Relevant control of multiple motors, control of prime mover-generator/generator combination H02P; control high-frequency power H03L; in addition, use power line or grid to transmit information H04B)
Inventors: Carsten Stoerk (Fresins, Germany), Eduardas Jodka (Fresins, Germany), Julian Becker (Fresins, Germany) Assignee: Texas Instruments Incorporated (Dallas, Texas) Law Firm: No Lawyer Application Number, Date, Speed: February 1, 2019 16265478 (application issued for 599 days)
Abstract: The gate driver for high-side NMOS power transistors used in DC/DC boost converters includes first and second switches connected in series between the output pin and the gate of the high-side transistor. The third switch is coupled between the gate and the switch node between the high-side transistor and the low-side transistor, and the switch node is also coupled to the input pin. The fourth and fifth switches are connected in series between the output pin and the clamp pin. The sixth and seventh switches are connected in series between the output pin and the ground pin. The first and second bootstrap capacitors have respective first terminals coupled to the first node between the first and second switches. The second terminal of the first capacitor is coupled to the node between the fourth and fifth switches. The second terminal of the second capacitor is coupled to the node between the sixth and seventh switches.
[H03K] Pulse technology (measure pulse characteristics G01R; use pulse H03C to modulate sinusoidal oscillation; transmit digital information H04L; the discriminator circuit detects the phase difference between the two signals by counting or integrating the oscillation period H03D 3/04; automatic Control, start, synchronization or stabilization of generators that are not related to the type of electronic oscillation or pulse generator or not specified; usually H03M encoding, decoding or code conversion)[4]
Inventor: Zhu Danyang (North Carolina), Liu Zhidong (North Carolina) Assignee: Texas Instruments (Dallas, Texas) Law Firm: No Lawyer Application Number, Date, Speed: 16126666 on 09/10 /2018 (743 days of application release)
Abstract: Isolation devices can provide high common-mode transient immunity without increasing the supply voltage rail at the transmitter. On the one hand, the disclosed isolation device implements a self-boosting scheme to increase the voltage swing of the transmission signal under a smaller power supply voltage rail. The disclosed isolation device includes a first stage circuit, a boost circuit and a second stage circuit. The first-stage circuit is configured to generate a first signal and a second signal, each signal having a first voltage within a power supply voltage range. The boost circuit is configured to provide a boost voltage range larger than the power supply voltage range in response to at least one of the first signal or the second signal. The second-stage circuit is configured to generate an output signal based on any one of the first signal or the second signal so that the output signal has a second voltage within the boost voltage range.
Inventor: Jeffrey Morroni (Parker, Texas), Yogesh Kumar Ramadass (San Jose, California) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law Firm: No lawyer application number, date, speed: 16224457 12/18/2018 (application 644 days old)
Abstract: The capacitor step-down power supply includes a rectifier and a switched capacitor converter coupled to the rectifier. The rectifier is configured to receive an alternating current (AC) signal under an alternating voltage, and convert the AC signal into a rectified direct current (DC) signal under the rectified voltage. The switched capacitor converter is configured to receive the rectified DC signal and generate a converter output signal at a converter voltage that is proportional to the rectified voltage and less than the AC voltage.
[H02M] Devices used for conversion between AC and AC, between AC and DC, or between DC and DC, and devices used with power grids or similar power systems; convert DC or AC input power into surge Output power; control or regulation (conversion of current or voltage, especially suitable for electronic clocks without moving parts G04G 19/02; usually used for systems that regulate electrical or magnetic variables, for example, using transformers, reactors or chokes, The combination of these devices is a system with static converter G05F; used for digital computer G06F 1/00; transformer H01F; when operating in conjunction with similar or other power sources H02J, the connection or control of a converter; electric converter H02K 47/ 00; control transformer, reactor or choke, motor control or regulation, generator or generator-motor converter H02P; pulse generator H03K) [5]
Inventor: Filippo Marino (Tremesti, Italy), Salvatore Giombanco (Casaro, Italy) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law Firm: No Counsel Application Number, Date, Speed : 15850177 12/21/2017 (1006 days old application released)
Abstract: Switching power supplies include power transistors, transformers and detection circuits. The transformer includes a primary winding that is coupled to the drain terminal of the power transistor. The detection circuit is coupled to the source terminal of the power transistor. The detection circuit is operable to monitor the signal present on the drain terminal through the parasitic drain-source capacitance of the power transistor when the power transistor is turned off, and to detect the demagnetization of the secondary winding of the transformer through the monitored signal.
[H02M] Devices used for conversion between AC and AC, between AC and DC, or between DC and DC, and devices used with power grids or similar power systems; convert DC or AC input power into surge Output power; control or regulation (conversion of current or voltage, especially suitable for electronic clocks without moving parts G04G 19/02; usually used for systems that regulate electrical or magnetic variables, for example, using transformers, reactors or chokes, The combination of these devices is a system with static converter G05F; used for digital computer G06F 1/00; transformer H01F; when operating in conjunction with similar or other power sources H02J, the connection or control of a converter; electric converter H02K 47/ 00; control transformer, reactor or choke, motor control or regulation, generator or generator-motor converter H02P; pulse generator H03K) [5]
Inventor: Dattatreya Baragur Suryanarayana (Bangalore, Indiana), Kushal D Murthy (Bangalore, Indiana) Assignee: Texas Instruments Incorporated (Dallas, Texas) Law Firm: No lawyer Application number, date, speed: 16222849 in 12/17/2018 (645 days application released)
Summary: A circuit that includes a power transistor including a first control input and first and second current terminals, the second current terminal to be coupled to a load to provide current to the load. The second transistor includes a second control input terminal and third and fourth current terminals, and the first and second control input terminals are connected together and the first and third current terminals are connected together. The third transistor includes a third control input and fifth and sixth current terminals. The fourth transistor includes a fourth control input terminal and seventh and eighth current terminals, and the seventh current terminal is coupled to the fourth and fifth current terminals. The amplifier amplifies the difference between the voltages on the second and fourth current terminals. The output of the amplifier is coupled to the third control input, and the diode device is connected between the third and fourth control inputs.
[H03F] Amplifier (measurement, test G01R; optical parametric amplifier G02F; circuit device with secondary emission tube H01J 43/30; laser, laser H01S; generator-motor amplifier H02K; control of amplifier H03G; and Coupling device amplifier, voltage divider H03H, independent of the nature of the device; amplifier H03K that can only process pulses; repeater circuit H04B 3/36, H04B 3/58 in transmission line; application of voice amplifier in telephone communication H04M 1/ 60, H04M 3/40)
Inventors: Bradford Lawrence Hunter (Spiwood, TX), Christopher Lee Betty (Arlington, TX), Kenneth J. Maggio (Dallas, TX) Assignee: Texas Instruments Incorporated (Dallas, Texas) Law Firm: No lawyer application number, date, speed: 16555563 on August 29, 2019 (390-day application released)
Abstract: An energy storage element control circuit comprising a charge transistor, the first node of the charge transistor is adapted to be coupled to the output node of the energy storage element control circuit, and the second node is adapted to be coupled to the terminal of the energy storage element. The energy storage control circuit also includes a bootstrap capacitor having a first node and a second node. The energy storage element also includes a comparator including a first input node coupled to the first node of the charge transistor and a second input node adapted to be coupled to a terminal of the energy storage element. The comparator also includes an output node.
[H03K] Pulse technology (measure pulse characteristics G01R; use pulse H03C to modulate sinusoidal oscillation; transmit digital information H04L; the discriminator circuit detects the phase difference between the two signals by counting or integrating the oscillation period H03D 3/04; automatic Control, start, synchronization or stabilization of generators that are not related to the type of electronic oscillation or pulse generator or not specified; usually H03M encoding, decoding or code conversion)[4]
Inventor: Adam Lee Shook (Carrollton, Texas), Xiong Xiong (Allen, Texas) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, Texas) Law Firm: No Counsel application Number, date, speed: 16428455, 05/31/2019 (480 days of application released)
Abstract: An adaptive gate driver and related methods and systems are disclosed. An exemplary gate driver system includes a comparator, a latch having first and second inputs and outputs, a first input is coupled to the comparator, a timer having an input and an output, and the input is coupled to a first output of the latch , The output is coupled to the second input of the latch, the control logic has an input and first and second outputs, the input is coupled to the second output of the latch, the first and second transistors have gates, and the first buffer has Input and output, the input is coupled to the first output of the control logic, the output is coupled to the gate of the first transistor, and a second buffer with input and output, the input is coupled to the second output of the control logic, and the output is coupled to the gate Very second transistor
[H03K] Pulse technology (measure pulse characteristics G01R; use pulse H03C to modulate sinusoidal oscillation; transmit digital information H04L; the discriminator circuit detects the phase difference between the two signals by counting or integrating the oscillation period H03D 3/04; automatic Control, start, synchronization or stabilization of generators that are not related to the type of electronic oscillation or pulse generator or not specified; usually H03M encoding, decoding or code conversion)[4]
Inventor: Michael S. Hockema (Plano, Texas) Assignee: Raytheon (Waltham, Massachusetts) Law Firm: No Counsel Application No., Date, Speed: 16520253 on 07/23 /2019 (issued by 427 days app))
Abstract: A gate drive circuit for generating an asymmetric drive voltage, including a gate drive transformer, the gate drive transformer includes: a primary winding, which responds to a pulse width module (PWM) input signal to generate a positive bias Voltage and a bipolar signal of a negative bias voltage; and the secondary winding generates a PWM output signal in response to the bipolar signal. In response to the PWM output signal, the first charge pump is connected to the secondary winding to generate a level-shifted PWM output signal. The second charge pump is connected to the secondary winding to generate a re-adjusted PWM output signal by reducing at least a part of the level-shifted PWM output signal. The gate switching device is connected to the first charge pump and the second charge pump. The level-shifted PWM output signal determines the turn-on condition of the gate MOSFET, and the re-adjusted PWM output signal determines the cut-off condition of the MOSFET.
[H03K] Pulse technology (measure pulse characteristics G01R; use pulse H03C to modulate sinusoidal oscillation; transmit digital information H04L; the discriminator circuit detects the phase difference between the two signals by counting or integrating the oscillation period H03D 3/04; automatic Control, start, synchronization or stabilization of generators that are not related to the type of electronic oscillation or pulse generator or not specified; usually H03M encoding, decoding or code conversion)[4]
Inventor: Ajith Kumar Narayanasetty (Bangalore, Indiana), Amar Kanteti (Bangalore, Indiana) Assignee: Texas Instruments Incorporated (Dallas, Texas) Law Firm: No Lawyer Application Number, Date, Speed: 16445915 on 06 /19/2019 (461 days old application)
Abstract: A level conversion circuit for voltage level shifters, including first and second cross-coupled level shifters, each of which is coupled between the output power supply voltage and the lower rail, and is further coupled to receive The first and second input control signals and provide output control signals. The second cross-coupled level shifter includes a first PMOS transistor coupled in series with the first NMOS transistor and a second PMOS transistor coupled in series with the second NMOS transistor. When the input power supply voltage is less than the VCCI trigger related to the output power supply voltage, only the first and second NMOS transistors are coupled to contribute to the output control signal, and when the input power supply voltage is equal to or greater than the VCCI trigger, only the first and second NMOS transistors Two PMOS transistors are coupled to contribute to the output control signal.
[H03L] (motor generator H02P) automatic control, start, synchronization or stabilization of electronic vibration or pulse generators [3]
Inventors: Kemal Safak Demirci (Dallas, Texas), Li Quinging Li (Allen, Texas), Shanmuganand Chellamuthu (Richardson, Texas) Assignee: TEXAS INSTRUMENTS INCORPORATED (Texas State Dallas) Law Firm: No lawyer application number. , Date, speed: 16391865 on April 23, 2019 (518 days old application)
Abstract: A circuit that includes a band-pass filter and a self-tracking circuit. The band pass filter has a first input node configured to receive an input square wave signal and an output node configured to provide an output sine wave signal. The band pass filter includes a first binary weighted programmable resistor array. The self-tracking circuit includes a second input node coupled to the output node. The self-tracking circuit includes a counter, and the counter includes an output node coupled to the first binary weighted programmable resistor array.
[H03H] Impedance network, such as resonant circuit; resonator (measurement, test G01R; device G10K 15/08 that produces reverberation or echo; impedance network or resonator composed of distributed impedance, for example, waveguide type H01P; amplification Control, such as amplifier bandwidth control, H03G; tuning resonant circuit, such as tuning coupled resonant circuit H03J; used to modify the frequency characteristics of the communication system network H04B)
Inventor: Krishnaswamy Nagaraj (Plano, TX), Weiff (Plano, TX) Assignee: TEXAS INSTRUMENTS INCORPORATED (Dallas, TX) Law Firm: No lawyer applies No., date, speed: 16231568 on 12/23/2018 (app released 639 days)
Summary: A circuit including a first filter, multiple binary weighted capacitors and a current source device. The circuit also includes a first plurality of switches. Each of the plurality of first switches is connected to an individual capacitor of the plurality of binary weighted capacitors. The first plurality of switches are connected together, and the first plurality of switches are not connected to the first filter. A second plurality of switches is also included, and each of the second plurality of switches is connected to an individual capacitor of the plurality of binary weighted capacitors and the control input of the first filter and the current source device. The first multiple switches are not connected to the control input.
[H03K] Pulse technology (measure pulse characteristics G01R; use pulse H03C to modulate sinusoidal oscillation; transmit digital information H04L; the discriminator circuit detects the phase difference between the two signals by counting or integrating the oscillation period H03D 3/04; automatic Control, start, synchronization or stabilization of generators that are not related to the type of electronic oscillation or pulse generator or not specified; usually H03M encoding, decoding or code conversion)[4]
Inventors: Darren J. Rollman (Richardson, Texas), Michael J. Zroka (Marengo, Illinois), Sri Navaneethakrishnan Easwaran (Plano, Texas), Ted F. Lekan (Chicago, Illinois) ) Assignee: Texas Instruments Incorporated (Dallas, TX) Law Firm: No lawyer application number, date, speed: 16521170 on July 24, 2019 (application for 426 days to be issued)
Abstract: Multiple sensors are coupled to the first pin of the PSI5 transceiver to receive sensor bus signals. The Manchester decoder is connected to the second pin, and the battery is connected to the third pin. The comparator receives a first voltage proportional to the current on the sensor bus signal and a second voltage proportional to the base current on the sensor bus signal, and sends the data output signal to the second pin. The sample-and-hold circuit captures a third voltage that affects the second voltage in response to a high value on the basic current sampling signal. The basic current update circuit detects edge transitions on the data output signal, and sets the basic current sampling signal to a high level when the data output signal does not have an edge transition within the interval time defined in the PSI5 standard.
Inventors: Eran Pisek (Allen, TX), Farooq Khan (Allen, TX), Khalil Haddad (Allen, TX), Khurram Muhammad (Fort Worth, TX) ), Paul Gilliland (Allen, Texas), Robert Clark Daniels (Attorney: Phazr, Inc. (Allen, Texas) Law Firm: No lawyer application number, date, speed: May 2017 15642308 on the 5th of the month (the release date is 1175 days)
Summary: The wireless transmitter includes a signal processing circuit configured to generate multiple first and second spatial stream signals. The transmitter includes a frequency shift circuit configured to selectively apply different frequency shifts to the first and second spatial stream signals. The wireless receiver includes a frequency shift circuit configured to selectively apply different frequency shifts to the received first and second spatial stream signals. The receiver also includes a signal processing circuit configured to process the first and second frequency shifted signals.
Inventor: Manivannan Thyagarajan (Koper, Texas) Assignee: NOKIA TECHNOLOGIES OY (Espoo, FI) Law Firm: Squire Patton Boggs (USA) Law Firm (13 non-local offices) Application Number, date, speed: 16277242 on 02/15/2019 (585-day application issued)
Abstract: Provides systems, methods, devices and computer program products for robust system information (SI) transmission. A method may include: receiving the SI request from the UE by the network node; and sending an acknowledgement of the SI request to the UE. In one example, the method may include selecting, by the network node, a subset of the downlink beams to use for sending the requested SI message. In one embodiment, the selection may include selecting a subset of downlink beams based on the SI request associated with the SS/PBCH block, and the subset of the downlink beam associated with the SI request is used for the delivery of the SI message .
Inventors: Liu Bin (San Diego, California), Xia Feifei (San Diego, California), Young Hoon Kwon (San Diego, California) Assignee: FUTUREWEI TECHNOLOGIES, INC. (Plano, Texas) Law Firm: Vierra Magen Marcus LLP (2 non-local offices) Application number, date, speed: 16560779 on 09/04/2019 (384-day application issued)
Abstract: This disclosure relates to techniques for identifying user equipment beam indexes in base stations. The base station indicates one or more resources allocated to the user equipment in the beam failure random access channel (BRACH) resource, and sends one or more synchronization signal block resources and one or more new beam identification reference signal resources to the user equipment . Then, the base station receives one of the resources from a group of one or more of the BRACH resources allocated to the user equipment corresponding to the BRACH resource, and identifies the preference of the user equipment based on the information in the BRACH resource Beam index. And one of the resources received.
Millimeter wave building penetration system using beamforming and beam steering Patent No. 10784962
Inventor: Solyman Ashrafi (Dallas, Texas) Assignee: NXGEN PARTNERS IP, LLC (Dallas, Texas) Law Firm: No Counsel Application Number, Date, Speed: 16808990, Date 03/04 /2020 (202 days) application release)
Abstract: A system that enables a signal to penetrate a building. It includes a first circuit located outside the building for sending and receiving signals at a first frequency. The signal will suffer loss when penetrating the interior of the building, and Convert the received signal inside the building. The first format overcomes the loss caused by the wireless communication link penetrating the interior of the building and converting the received first format signal into the first frequency signal. The first circuit uses beamforming and beam steering to receive the signal sent to the first circuit at the first frequency. The first antenna associated with the first circuit transmits the signal in the first format to the interior of the building through the wireless communication link, and receives the signal from the interior of the building in the first format through the wireless communication link. The second circuit located inside the building and communicating with the first circuit through a wireless communication link receives and transmits the converted received signal in the first format, which offsets the penetration from the building/building into the building And the losses caused. First circuit. The second antenna associated with the second circuit transmits the signal in the first format to the outside of the building through the wireless communication link, and receives the signal from the outside.
System and method for automatically tuning the radio system to the preferred channel Patent No. 10784975
Inventor: Joshua Babcock (Dallas, Texas), Scott Meyer (Allen, Texas) Assignee: TOYOTA MOTOR NORTH AMERICA, INC. (Plano, Texas) Law Firm: Dinsmore Shohl LLP (14 non-local offices) Application number, date, speed: 16541457 on August 15, 2019 (404 days of application need to be published)
Abstract: Disclosure of computing equipment. For example, a computing device includes one or more processors and one or more databases. The computing device includes one or more non-transitory storage modules that store machine-readable instructions that, when executed, cause one or more processors to perform the following operations: receive a plurality of event flags, wherein Each of the event flags is compared with each of the broadcasting audio signals; the plurality of event flags are compared with user profiles stored in one or more databases, where the user profile includes Associated preference characteristics; determine whether one or more event flags match a set of preference characteristics of the user profile; and send to the vehicle in response to one or more event flags matching a set of preference characteristics of the user profile Notification signal.
[H04H] Broadcast communication (multiplex communication H04J; graphic communication aspect of broadcasting system H04N)
System and method for UE-specific beam management for high-frequency wireless communication Patent No. 10785001
Inventors: Diana Maamari (Palatine, Illinois), George Calcev (Hoffman Estate, Illinois), Liu Jialing (Palatine, Illinois), Lukasz Krzymien (Rolling Meadows, Illinois), Majid Ghanbarinejad (Rolling May, Illinois) Doss), Qian Cheng (Aurora, Illinois), Xiao Weimin (Hofma assignee: Futurewei Technologies, Inc. (Plano, Texas) Law Firm: Slater Matsil, LLP (local + 1 Other cities) Application number, date, speed: 15671948, 08 August 2017 (1141 days to release the application)
Summary: The physical downlink shared channel (PDSCH) area of ​​a subframe can include a reference signal (RS) part, which includes one or more of the beam scanning sub-part, the transmitting (TX) beam tracking sub-part, and the receiving (RX) The beam tracking sub-part and the channel state information (CSI) sub-part. The reference signal in the TX beam tracking section can be used to update the TX analog beam. The reference signal in the RX beam tracking section can be used to update the RX analog beam. The reference signal in the beam scanning section can be used to evaluate different combinations of TX and RX analog beams for future directional data transmission. The reference signal in the CSI section can be transmitted through a quasi-coordinated (QCL) antenna port, and can be used for channel estimation.
[H04L] Transmission of digital information, such as telecommunications (a common arrangement for telecommunications and telephone communications H04M) [4]
Inventors: Carina Lau (Palatine, Illinois), Qian Cheng (Naperville, Illinois), Minmin Xiao (Hoffman Estate, Illinois) Assignee: Futurewei Technologies, Inc. (Play, Texas Connaught) Law Firm: Slater Matsil, LLP (local + 1 other metropolitan area) application number, date, speed: 16242872 on January 8, 2019 (requires release of 623 days of application)
Abstract: The embodiment method of network node operation includes: the first network node indicates to the first UE the first number of REs in the first RB group of the first reference signal, and the first network node sends the first number of REs to the first UE. The first UE performs first precoding according to the first RE in the first subframe according to the first RE, and the first network node receives a report indicating the first MCS from the first UE. The interference measured by the first UE, where the measurement is limited to the first reference signal, and the first network node sends the first data with the indicated first MCS and the first precoding in the second subframe, and the first data is sent On the second number of REs in the first set of RBs in the second subframe.
[H04L] Transmission of digital information, such as telecommunications (a common arrangement for telecommunications and telephone communications H04M) [4]
Inventors: Alvin R. McQuarters (Euless, Texas), Amir Ansari (Plano, Texas), George A. Cowgill (Farmersville, Texas), Jude P. Ramayya (Texa Richardson, Texas), Ramprakash Masina (Plano, Texas) Assignee: KIP PROD P1 LP (New York, New York) Law Firm: Perkins Coie LLP (17 non-local offices) Application number, date, speed: 15011843 on January 2, 2016 (1695 days of application must be issued)
Abstract: An application gateway that includes application service programming at the user’s premises can provide voice control and management services to users and one or more endpoint devices associated with the application gateway. The application gateway can be remotely controlled by the application service provider through the service management center and configured to execute the application service provided from the application service provider. The application gateway can execute the application service at the user according to the user’s voice command, and is independent of the application service executed on the network of the application service provider. The application service logic manager can communicate with the application service implementation manager to verify whether the request complies with the policies and usage rules associated with the application service, so that the application service can be executed on the application gateway directly or through end-point device authorization .
[H04L] Transmission of digital information, such as telecommunications (a common arrangement for telecommunications and telephone communications H04M) [4]
Inventor: Daniel B. Penney (Willie, Texas), Raghukiran Sreeramaneni (McKinney, Texas) Assignee: Micron Technology, Inc. (Boise, Idaho) Law Firm: Fletcher Yoder, PC (1 non-local office) application number, date, speed: 16526433 on 07/30/2019 (420 days application released)
Abstract: An apparatus including a voltage generator that generates a reference signal, and a multi-level bias generator that is coupled to the voltage generator to receive the reference signal and generate a plurality of bias level signals based at least in part on the reference signal. The multi-level bias generator sends multiple bias level signals to multiple multiplexers, and each multiplexer receives a selection signal to select the bias level signal of the multiple bias level signals. Subset. The device also includes an adjustment circuit of the decision feedback equalizer that receives a correspondingly selected subset of the bias level signal from one of the multiple multiplexers and uses the bias level The corresponding selected subset of the signal compensates for the inter-symbol interference of the bits. Due to the bits of the previously received bit stream.
[H04L] Transmission of digital information, such as telecommunications (a common arrangement for telecommunications and telephone communications H04M) [4]
Inventor: Jin Yang (Bridgewater, New Jersey), Xin Li (Xi’an, China), Ying Li (Hillsboro, New Jersey) Assignee: FUTUREWEI TECHNOLOGIES, INC. (Plano, Texas) Law Firm: Vierra Magen Marcus LLP (2 non-local offices) Application number, date, speed: 15684760 on August 23, 2017 (1126 days of application release required )
Abstract: This disclosure relates to techniques for configuring parameters in wireless communication networks. Based on the collected data samples, determine the parameter configuration that causes the key quality indicator (KQI) and key performance indicator (KPI) measurement values ​​to change. The data samples are divided into subsets, including a first subset and a second subset. The first subset includes data samples associated with the parameter configuration that failed to cause the KQI and KPI measurement values ​​to change, and the second subset includes The data sample associated with the parameter configuration depends on the KQI and KPI measurement values ​​that meet the conditions in the wireless communication network. Then a subset of the data samples is determined for use in machine learning to optimize the parameter configuration, and the subset of data samples is provided as input to the machine learning for parameter configuration to optimize the wireless communication network.
[H04L] Transmission of digital information, such as telecommunications (a common arrangement for telecommunications and telephone communications H04M) [4]
Inventor: Chase Alan Sylvester (Prosper, Texas) Assignee: Accenture Global Solutions Ltd (Dublin, IE) Law Firm: Brinks Gilson Lione (7 non-local offices) Application number, date, speed : 16666758 on 10/29/2019 (the application is 329 days old)
Abstract: A mechanism will automatically reconfigure, and then restore the network configuration and settings of a network device installed in one location based on the configuration and settings of the corresponding network device installed in another location. This allows users to access these network devices in the same way in both locations. This mechanism also avoids any network reconfiguration of mobile devices that may be carried between the two locations.
[H04L] Transmission of digital information, such as telecommunications (a common arrangement for telecommunications and telephone communications H04M) [4]
Inventor: Vignesh Janakiraman (Plano, Texas) Assignee: NetScout Systems, Inc (Westford, Massachusetts) Law Firm: Locke Lord LLP (local + 12 other cities) application number, Date, speed: 15601475, 2005/22/2017 (application released in 1219 days)
Summary: A method for monitoring tunneled Internet Protocol (IP) traffic in a communication network, which includes monitoring the tunnel signaling flow to determine the relationship between the tunnel and the user session of each established tunnel. For each established tunnel, the first tunnel signaling state is stored in the data warehouse. The first tunnel signaling state indicates a certain relationship between the tunnel and the corresponding user session. In response to detecting the monitoring gap, the second tunnel signaling state is verified based on the stored first tunnel signaling state to identify an incorrect association between the monitored tunnel and the corresponding user session.
[H04L] Transmission of digital information, such as telecommunications (a common arrangement for telecommunications and telephone communications H04M) [4]
The packet processing matching and action pipeline structure with dependency calculation eliminates the wrong dependency. Patent No. 10785151
Inventor: Patrick W. Bosshart (Plano, Texas) Assignee: Texas Instruments (Dallas, Texas) Law Firm: No lawyer application number, date, speed: 15906944 on 02/27 /2018 (938 days application release)
Summary: One embodiment includes multiple tables in a hardware network for performing packet processing. Each of the multiple tables includes a table declaration. The table declaration includes a first set of fields for input matching and a second set of fields for input for action processing. Select the first table from multiple tables. Select the successor table of the first table from multiple tables. Each successor table in the successor table has a third set of fields. The content of the third group of fields is the output field. When the next table of the first table is the successor of the first table, the first table will modify the output field.
[H04L] Transmission of digital information, such as telecommunications (a common arrangement for telecommunications and telephone communications H04M) [4]
Inventor: Gregory A. Ladd (Frisco, Texas) Assignee: Raytheon (Waltham, Massachusetts) Law Firm: Schwegman Lundberg Woessner, PA (11 non-local offices) application number, Date, speed: 16008610 on 06/14/2018 (831 day application released)
Abstract: One method can include the use of Open Mission (OMS) to construct command and control computer network defense (CND) systems. The task data file (MDF) is processed. The target interface is 1553B bus, which is determined by MDF. The CND capability message that extends the OMS capability message and indicates that the target interface has been encoded. The CND command message of the extended OMS command message is decoded. The CND command message has been verified. Bind the target interface based on the verification of the CND command message. Based on the verification of the CND command message, the CND command status message is encoded. The CND command status message extends the OMS command status message.
[H04L] Transmission of digital information, such as telecommunications (a common arrangement for telecommunications and telephone communications H04M) [4]
Inventors: Guy R. VanBuskirk (Grapevine, Texas), Ravi Shankar Kumar (Richardson, Texas), Shiva Cheedella (Dallas, Texas), Steve Lucy (Texas (Dallas) Assignee: Theatro Labs, Inc. (Richardson, Texas) Law Firm: No lawyer application number, date, speed: 16521823 on July 25, 2019 (425 days to publish)
Abstract: A method and system for managing and distributing content and data aggregation among multiple observation platforms are disclosed. A message containing the content is generated in the content distribution manager. Arrange the delivery of messages and designate multiple designated devices so that they can be delivered to multiple observation platforms at a specified time and/or location through the content distribution manager, where multiple observation platforms can receive signals from the first mobile device The signal has a first characteristic corresponding to the audio source and a second characteristic corresponding to the information indicating the geographic location of the first mobile device, and is based on the first characteristic and/or relays the signal to the destination second Features. The message is delivered to multiple observation platforms, and the observation platform relays the message to multiple designated devices at a specified time.
[H04L] Transmission of digital information, such as telecommunications (a common arrangement for telecommunications and telephone communications H04M) [4]
Inventors: Ibrahim Ether Peck Cookson (Dallas, Texas), Vikram Vijayan Babu Appia (Dallas, Texas) assignee: Texas Instruments (Dallas, Texas) Law Firm: No lawyer application number, date, speed: 14322887 from July 2, 2014 (2274 days of application released)
Summary: Provides an image processing method in a structured light imaging device. The method includes capturing multiple images of a scene into which a structured light pattern is projected by a projector in the structured light imaging device. Extract each captured feature image, find feature matches between the reference image of the multiple captured images and each other image in the multiple captured images, correct each other image to align with the reference image, where the other images The correction of each image in is based on the feature matching between the image and the reference image, the other corrected images and the reference image are combined using interpolation to generate a high-resolution image, and the high-resolution image is used to generate a depth image.
Inventor: Zhou Minhua (San Diego, California) Assignee: Texas Instruments Incorporated (Dallas, Texas) Law Firm: No Counsel Application No., Date, Speed: 14013296 on 08/29/2013 (2581 days app) issued)
Summary: Provides a method for encoding pictures of a video sequence in a bitstream, which limits the overhead of tile processing. The method includes: calculating the maximum tile rate of the video sequence; calculating the maximum number of tiles of the picture based on the maximum tile rate; and encoding the picture, where the number of tiles used to encode the picture is forced to not exceed the maximum number of tiles.
Method and device for measuring audience composition and recruiting audience measurement experts Patent No. 10785534
Inventor: Madhusudhan Reddy Alla (Allen, Texas) Assignee: NIELSEN COMPANY (US), LLC (New York, New York) Law firm: Hanley, Flight Zimmerman, LLC (1 non-local office) application number: . , Date, Speed: 16502480 on 07/03/2019 (447 days of application release)
Abstract: The method and equipment used to measure audience composition and recruit audience measurement experts are disclosed. The example device disclosed herein includes a database for storing audience measurement data associated with audience members. A processor; a memory including machine-readable instructions that, when executed, cause the processor to: when the panel registration information of the audience member is not in the database, assign a flag to the audience measurement data; and, when it is assigned When panel registration information is obtained within the threshold time period after the mark, the audience measurement data is associated with the audience members.
[H04H] Broadcast communication (multiplex communication H04J; graphic communication aspect of broadcasting system H04N)
The method of end-to-end (E2E) user equipment trajectory network automation based on the future UE location Patent No. 10785634
Inventor: Virgilio Fiorese (McKinney, Texas) Assignee: Telefonaktiebolaget LM Ericsson (publ) (Stockholm, SE) Law Firm: Withrow Terranova, PLLC (1 non-local office) Application number, date , Speed: 16297423 on 03/08/2019 (564 days application released)
Abstract: This article provides methods and systems for end-to-end (E2E) user equipment (UE) trajectory network automation. According to one aspect, a network node for E2E UE trajectory network automation, such as a network data analysis function (NWDAF), receives information identifying a future E2E UE trajectory from a requesting entity. The E2E UE trajectory includes a start position, an end position, and a start Zero or more intermediate positions between the position and the end position; calculate the end-to-end movement trajectory prediction for the identified future end-to-end UE trajectory; and send the calculated end-to-end mobility trajectory prediction to the requesting entity. The requesting entity can be a trusted entity or an untrusted entity, such as a third-party provider (3PP) outside the trusted domain of the network. If the requesting entity selects the movement track, the network node sends mobility management and optimization information to the radio access network node.
Inventor: Sudhakar Reddy Patil (Flower Hill, Texas) Assignee: Verizon Patent and Licensing Corporation (Basking Ridge, New Jersey) Law Firm: No Counsel Application Number: Date, Speed: 16255241 (01/ 23) / 2019 (application released for 608 days)
Summary: An example method may include receiving information identifying a quality of service (QoS) flow for a communication session involving a user equipment (UE). This information may include a QoS profile and a QoS flow identifier (QFI). The method may include identifying a QoS configuration identifier associated with the QoS flow from a QoS profile, and selecting a data radio bearer (DRB) for communication associated with the QoS flow. The DRB may be selected based on the mapping of multiple DRBs to multiple QoS flows, and the mapping may be based on the corresponding QoS configuration identifiers of the multiple QoS flows. The method may include allocating the QoS flow to the selected DRB by adding the QFI of the QoS flow to the mapping with respect to the selected DRB, and causing communications associated with the QoS flow to be sent using the selected DRB.
Self-configuration and optimization of cell neighbors in wireless telecommunication networks Patent No. 10785591
Inventor: Harald Kallin (Southeast Sollentuna), Johan Moe (Mantop, Southeast) Assignee: Unwired Planet, LLC (Plano, Texas) Law Firm: Nixon Vanderhye PC (2 Non-local office) Application No., Date, Speed: 16683613 on 11/14/2019 (313 days of application to be released)
Summary: The mobile terminal assists in updating the list of neighbor cells associated with the first cell of the wireless telecommunication network. The list includes elements that identify other cells that have a neighbor cell relationship with the first cell. The mobile terminal includes: a radio transceiver; the controller is coupled to the radio transceiver.
Receive downlink data for coordinated multi-point transmission in backup patent number 10785758
Inventor: Chen Runhua (Plano, Texas) Assignee: Texas Instruments (Dallas, Texas) Law Firm: No lawyer application number, date, speed: 15070835 (2016/03/15) The application date is 1652 days issue)
Abstract: A system and method for back-off rate matching and timing of user equipment (UE) configured for downlink (DL) coordinated multipoint transmission (CoMP) are disclosed. In one embodiment, when the UE configured in DL CoMP receives the backoff transmission, the PDSCH is rate-matched around the CRS of the serving cell. In an alternative embodiment, when the UE configured in DL CoMP receives the backoff transmission, the PDSCH is rate matched or uses timing around one of the cell-specific reference symbol (CRS) resource element (RE) sets indicated by RRC-higher . Layer signaling. For example, it is possible to perform rate matching on the PDSCH or use timing around the CRS RE set configured by the first RRC higher layer.
Inventors: Pierre Bertrand (Antibes, FR), Shantan Kangude (Dallas, Texas), Shen Kangkang (Allen, Texas) Person: Texas Instruments (Dallas, Texas) Law Firm: No lawyer applies. , Date, speed: 15489344 on April 17, 2017 (1254 days of application release)
Summary: The transmission block size of the first uplink message (RACH Msg3) transmitted on the physical uplink shared channel (PUSCH) in the random access process in the user equipment (UE) accessing the radio access network (TBS) The path loss threshold parameter can be determined by receiving. Then determine the downlink path loss value indicating the radio link condition between the UE and the base station (eNB) serving the UE. If the determined path loss value is greater than the working power level of the UE minus the path loss threshold parameter, then a smaller TBS value is selected from a set of TBS values. If the path loss value is less than the UE’s working power level minus the path loss threshold parameter, and the TBS required to send the RACH Msg3 exceeds the smaller TBS value, then the larger TBS value is selected.
Inventor: Hossam H. Hmimy (Allen, Texas), Manish Jindal (Plano, Texas) Assignee: Charter Communications Operating, LLC (St. Louis, Missouri) Law Firm: Armis IP Law , LLC (found without location)) Application number, date, speed: 15978600 on May 14, 2018 (application needs to be released 862 days)
Summary: According to a configuration, a system includes resources for configuring a baseband manager, a first virtual radio, a second virtual radio, and a third virtual radio. The first virtual radio is coupled to a first set of antenna elements of the antenna hardware, which provides a wireless connection to the first communication device in the first wireless coverage area. The second virtual radio device is coupled to a second set of antenna elements of the antenna hardware, which provides a wireless connection to the second communication device in the second wireless coverage area. The third radio communication hardware is coupled to the main backhaul of communication with the remote network through the third set of antenna elements of the antenna hardware. The baseband manager couples the first virtual radio device and the second communication resource to the third virtual radio device, so that the first communication device and the second communication device can access the remote network.
Inventor: Joseph John Terndrup (Fort Worth, Texas) Assignee: Unallocated Law Firm: No Lawyer Application Number, Date, Speed: January 2019 29677216 on the 18th (613 days to be issued)
Inventors: Adam Cole Ewing (McKinney, TX), Kent Poteet (Lucas, TX), Otto Karl Allmendinger (Rocket, TX) Assignee: TRAXXAS LP ( (McKinney, Texas) Law Firm: No. , Date, speed: 29696563 on June 28, 2019 (452 ​​days application issued)
Inventors: Aaron Alexander Acee (Flower Hills, Texas), Andrew Paul Haldeman (Fort Worth, Texas), Andrew Thomas Carter (Richland Hills, Texas), Clegg Benjamin Brian Smith (Keller, Texas), Derek Ray Eddins (Latana, Texas), James Everett Coyman (James Everett Coyman) (Fort W assignee: Bell Textron Inc. (Fort Worth, Texas) Law firm: Lawrence Youst PLLC (local) application number, date, speed: 29707474, September 27, 2019 (issued in 361 days) s application)
Inventor: Vallabh Janardhan (Dallas, Texas) Assignee: Insera Therapeutics, Inc. (Sacramento, California) Law Firm: Knobbe Martens Olson Bear, LLP (12 non-local offices) application number, date, Speed: 29684193 on 03/19/2019 (553 days application released)
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Every working day, the Dallas Innovation Museum will bring you the latest information to learn about the top tourist attractions in the area you might miss.
Here are some quotes from North Texas innovators that inspire, inspire, inspire or just make us laugh.
When COVID-19 hit Dallas Fort Worth in March, it completely screwed up the commercial real estate industry. But what will happen next year? Which pandemic-related changes are aimed at…
Therefore, we are always looking for contests and competitions, awards ceremonies, and available grants that our innovators can apply for. …
Coming to Dallas is a pet hub with technical support that hopes to completely change how to care for furry friends.
M2G Ventures, headquartered in Fort Worth, is a real estate investment and development company that has acquired a 1.19 million square foot Farmers Branch industrial distribution facility and company store together with Austin-based Pennybacker Capital LLC.
Every working day, the Dallas Innovation Museum will bring you the latest information to learn about the top tourist attractions in the area you might miss.
Here are some quotes from North Texas innovators that inspire, inspire, inspire or just make us laugh.
When COVID-19 hit Dallas Fort Worth in March, it completely screwed up the commercial real estate industry. But what will happen next year? Which pandemic-related changes are aimed at…
Therefore, we are always looking for contests and competitions, awards ceremonies, and available grants that our innovators can apply for. …
Coming to Dallas is a pet hub with technical support that hopes to completely change how to care for furry friends.
M2G Ventures, headquartered in Fort Worth, is a real estate investment and development company that has acquired a 1.19 million square foot Farmers Branch industrial distribution facility and company store together with Austin-based Pennybacker Capital LLC.
Dallas Innovates is a collaboration between the Dallas Regional Chamber of Commerce and D Magazine partners. It is an online news platform covering the latest news in Dallas and the latest news-Fort Worth Innovations.


Post time: Jan-21-2021

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