Patents Examined by Tyler Paige
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Patent number: 9944285Abstract: A drivetrain system includes a controller that is programmed to, in a presence of a request for increased drivetrain torque that results in reversal of drivetrain torque direction, command an increase in drivetrain torque at a reduced rate while a value that is based on drivetrain speed difference remains within a predetermined range absent a braking torque request exceeding a threshold. The controller is further programmed to command the increase at an accelerated rate upon the braking torque request exceeding the threshold.Type: GrantFiled: March 4, 2016Date of Patent: April 17, 2018Assignee: Ford Global Technologies, LLCInventors: Jacob Doan, Shunsuke Okubo, Carol Louise Okubo, Benjamin Nault
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Patent number: 9940843Abstract: Methods, systems, and devices for providing data from a server to a UAV, enabling the UAV to navigate with respect to areas of restricted air space (“restricted areas”). A server may receive from a UAV, a request for restricted area information based on a position of the UAV. The server may determine boundaries of a surrounding area containing the position of the UAV and a number of restricted areas. The server may transmit coordinate information to the UAV defining the restricted areas contained within the surrounding area.Type: GrantFiled: October 5, 2016Date of Patent: April 10, 2018Assignee: QUALCOMM IncorporatedInventors: Rajarshi Gupta, Michael Franco Taveira
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Patent number: 9932029Abstract: A system and method for balancing the states of charge between a plurality of energy storage modules in a hybrid vehicle is disclosed. The method comprises determining states of charge of individual energy storage modules in said plurality of energy storage modules operatively connected to a power source in the hybrid electric vehicle. The vehicle is operated using a subset of the plurality of energy storage modules when the states of charge of said subset the plurality of energy storage modules is outside of a tolerances relative to the remaining energy storage modules of said plurality of said energy storage modules. The energy storage modules may be charged or discharged using the method in order to equalize the states of charge of the energy storage modules.Type: GrantFiled: August 28, 2015Date of Patent: April 3, 2018Assignee: Allison Transmission, Inc.Inventors: Perry Pruitt, Kurt Biehl, Justin Langford, Jonathan Kellerman
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Patent number: 9910154Abstract: An obstacle avoidance system based on sonar for an unmanned aerial vehicle includes an electric motor, a single sonar module, and a control panel. The sonar module rotates with the electric motor. The control panel controls a rotation of the electric motor, thereby controlling the direction in which obstacles to the flight of the unmanned aerial vehicle are detected by the sonar module. The unmanned aerial vehicle includes a fuselage, the sonar obstacle avoidance system, and an aerial vehicle controller. A sonar obstacle avoidance method is also disclosed.Type: GrantFiled: May 10, 2016Date of Patent: March 6, 2018Assignee: HON HAI PRECISION INDUSTRY CO., LTD.Inventors: Yea-Chin Yeh, Chung-Che Wei, Chieh-Yao Lin, I-Thun Lin
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Patent number: 9902403Abstract: A sensory stimulation system for autonomous vehicle (AV) can monitor AV data indicating actions to be performed by the AV. The sensory stimulation system can further provide a user interface the enables riders of the AV to adjust output parameters of the sensory stimulation system. Based at least in part on the AV data, the sensory stimulation system can generate a set of stimulation commands for one or more of the output systems. Based on adjustments made by the at least one rider on the user interface, the sensory stimulation system can execute the stimulation commands on individual output systems.Type: GrantFiled: June 17, 2016Date of Patent: February 27, 2018Assignee: UBER TECHNOLOGIES, INC.Inventors: Richard Donnelly, David McAllister Bradley, Matthew Sweeney, Emily Bartel
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Patent number: 9896819Abstract: An industrial machine and a method of controlling an industrial machine, the industrial machine including a dipper supported by a dipper handle. The method may include determining an operating phase of the industrial machine, in a first operating phase of the industrial machine, limiting, with at least one controller, a reach of the dipper handle, and in a second operating phase of the industrial machine, enabling, with the at least one controller, an extended reach of the dipper handle greater than the reach in the first operating phase. The industrial machine may include at least one controller configured to determine an operating phase of the industrial machine, in a first operating phase of the industrial machine, limit a reach of the dipper handle, and, in a second operating phase of the industrial machine, enable an extended reach of the dipper handle greater than the reach in the first operating phase.Type: GrantFiled: June 13, 2016Date of Patent: February 20, 2018Assignee: Harnischfeger Technologies, Inc.Inventors: Michael Linstroth, Joseph J. Colwell, Mooyoung Lee, Matthew I. Loew, Jason Knuth, Peter Gizewski, Jr., Justin Zunker
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Patent number: 9891061Abstract: Systems and methods are provided for updating vehicle navigation guidance systems. The methods may comprise receiving an audible emergency broadcast, and scanning the audible emergency broadcast for a plurality of predetermined key terms. Upon detecting a presence of at least one of the plurality of predetermined key terms, the method may include analyzing an additional portion of the audible emergency broadcast for vehicular traffic information. The method includes determining at least one incident location to have a potential of being affected by the vehicular traffic information. The method may include providing an update, alert, or information related to the vehicular traffic information to at least one vehicle within a certain distance to the incident location, or to at least one vehicle currently routed through the incident location.Type: GrantFiled: April 10, 2016Date of Patent: February 13, 2018Assignee: Toyota Motor Engineering & Manufacturing North America, Inc.Inventors: Bryan E. Yamasaki, Sean L. Helm
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Patent number: 9884690Abstract: Methods and systems are provided for facilitating analysis and selection of a destination for operating a vehicle. One exemplary method facilitating analysis of landing an aircraft at an airport involves displaying a map of the airport that includes a graphical representation of a runway at the airport, determining a runway viability parameter for the runway using current status information associated with one or more of the aircraft and the airport, and displaying indicia of the runway viability parameter on the map in graphical association with the graphical representation of the runway, thereby providing indication of the value or state of the runway viability parameter for that runway on the airport map.Type: GrantFiled: May 3, 2016Date of Patent: February 6, 2018Assignee: HONEYWELL INTERNATIONAL INC.Inventors: Zdenek Moravek, Katerina Sprinarova, David Kunes, Filip Magula
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Patent number: 9885579Abstract: Disclosed in some examples are methods, systems, and machine readable mediums that provide location based services such as navigation in an indoor space by utilizing a network of specially configured locator nodes (LNs) and the identified line of sight (LOS) relationships between the LNs. The LOS relationships may be automatically learned by the LNs.Type: GrantFiled: April 4, 2016Date of Patent: February 6, 2018Assignee: Intel CorporationInventors: Haim Rochberger, Ron Rotstein
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Patent number: 9880008Abstract: The disclosure relates to an indoor positioning method performed by an indoor positioning system installed on an object inside of a building. The indoor positioning system includes a gyroscope, a digital compass, an accelerometer, a distance sensor and a processor; an indoor map of the building is stored in the processor. Dead reckoning is performed to obtain an estimated position of the object on the map. An target area around the estimated position is selected on the map. Several measurements between the object and walls of the building are performed to obtain an actual distance data. The unique point inside the target area which matches the actual distance data is used the actual position of the object.Type: GrantFiled: March 29, 2016Date of Patent: January 30, 2018Assignee: HON HAI PRECISION INDUSTRY CO., LTD.Inventor: Chung-Che Wei
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Patent number: 9875657Abstract: A low flying unmanned vehicle is disclosed that may be able to determine whether a collision is possible and may take evasive action in response to the possible collision. The vehicle may wirelessly communicate and may use a standard protocol such that a variety of additional objects may be taken into account when determining the possible collision risk.Type: GrantFiled: September 8, 2015Date of Patent: January 23, 2018Assignee: PRECISION HAWK USA INC.Inventor: Tyler James Collins
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Patent number: 9863848Abstract: An analysis tool which extracts all the available parameter identifications (i.e. PIDS) from a vehicle's power train control module for diagnostic decisions. This is done by checking these PIDS and other information (e.g., calculated PIDS, Break Points, charts and algorithms) in three states; key on engine off, key on engine cranking, key on engine running. In all three modes the tool is comparing the live data from PIDS and voltage to the other information (e.g., Break Points). If any of this data are outside the programmed values a flag is assigned to the failure or control problem. The relationship between a particular PID and its associated preprogrammed value(s) may be indicated by a light. The depth of the problem (if any) is conveyed by the color of the light. Also included are tests/charts for fuel trim, engine volumetric efficiency, simulated injector, power, catalyst efficiency, and engine coolant range.Type: GrantFiled: December 13, 2013Date of Patent: January 9, 2018Assignee: Automotive Test Solutions, Inc.Inventors: Bernie C. Thompson, Neal R. Pederson
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Patent number: 9855919Abstract: A vehicle monitoring system includes at least one sensor in the vehicle. A processor receiving information from the at least one sensor, the processor programmed to automatically identify a driver of the vehicle based upon the information from the at least one sensor.Type: GrantFiled: August 9, 2012Date of Patent: January 2, 2018Assignee: INTELLIGENT MECHATRONIC SYSTEMS INC.Inventors: Otman A. Basir, William Ben Miners, Seyed Hamidreza Jamali, Daniel Evan Lajeunesse
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Patent number: 9851210Abstract: The present invention has an object to provide a technique capable of reducing the size of update data. A map information processing apparatus includes a data extractor that extracts a difference between a shape of a past road link and a shape of a current road link as update data for updating predetermined map information. The data extractor does not extract the difference as the update data in a case where one road link of the past road link and the current road link is included in a buffer region obtained by extending the shape of the other road link by a predetermined distance.Type: GrantFiled: February 21, 2014Date of Patent: December 26, 2017Assignee: Mitsubishi Electric CorporationInventors: Hironobu Kaneshiro, Seigo Kanazawa, Mitsuo Shimotani
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Patent number: 9845022Abstract: A control device for electric motor vehicle configured to decelerate by a regenerative braking force of the motor detects an accelerator operation amount, calculates a motor torque command value and controls the motor on the basis of the calculated motor torque command value. Further, a speed parameter proportional to a traveling speed is detected, and a feedback torque for stopping the electric motor vehicle is calculated on the basis of the detected speed parameter. Furthermore, the speed parameter is estimated in accordance with a state of the electric motor vehicle, and a feedforward torque is calculated on the basis of the estimated speed parameter. When accelerator operation amount is not larger than a predetermined value and the electric motor vehicle stops shortly, the motor torque command value is converged to zero on the basis of the feedback torque and the feedforward torque with a reduction in the traveling speed.Type: GrantFiled: November 20, 2014Date of Patent: December 19, 2017Assignee: Nissan Motor Co., Ltd.Inventors: Hiroyuki Komatsu, Ken Ito, Takashi Nakajima, Yuji Katsumata, Akira Sawada
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Patent number: 9845109Abstract: A system and a method of controlling a power steering system of a vehicle are provided. A control system includes a control module operable to determine a rack force of the vehicle based on at least one of a motor velocity, a driver torque and a motor torque, determine a plurality of modeled rack forces based on a roadwheel angle and a vehicle speed, compare the rack force to the plurality of modeled rack forces to generate a friction level included in a control signal, and send the control signal to the power steering system.Type: GrantFiled: March 22, 2016Date of Patent: December 19, 2017Assignee: STEERING SOLUTIONS IP HOLDING CORPORATIONInventors: Mariam Swetha George, Shrenik P. Shah, Farhad Bolourchi, Tejas M. Varunjikar
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Patent number: 9841768Abstract: In the prior art, detection sensitivity was fixed for an obstacle detection means provided to an autonomous travelling service vehicle; therefore, in the present invention an autonomous travelling service vehicle is provided with a position calculation means that determines the position of the chassis using a satellite positioning system, and with a control device that automatically drives the vehicle along a set travel route and causes the vehicle to execute the service, wherein an obstacle sensor that acts as an obstacle detection means for detecting whether or not an obstacle is present around the autonomous travelling service vehicle and a sensitivity adjustment means for adjusting the sensitivity of the obstacle sensor are provided, and the sensitivity of the obstacle sensor is adjusted by the sensitivity adjustment means so as to be high within a set work area and low outside the set work area.Type: GrantFiled: March 26, 2015Date of Patent: December 12, 2017Assignee: YANMAR CO., LTD.Inventors: Toshifumi Hiramatsu, Hideaki Aoki, Kouhei Ogura
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Patent number: 9840341Abstract: A method and system for satellite control in space using an IP-based satellite bus and all-IP compliant subsystems and payload(s) and a corresponding T&C system. Specifically, the present method/system includes a satellite-based IP Bus (connected as a network) that relies on Ethernet, USB, WIFI, or Bluetooth to connect various satellite components, satellite components configured to communicate on the IP bus, and a T&C system that understands the IP bus and can read its telemetry and commands. The system permits operations control on-orbit, in near real time within a secure system environment, with a dramatic increase in mission efficiency, an expansion of how much and what can be done on-orbit, and cost savings on future missions using IP-compliant spacecraft and payloads.Type: GrantFiled: May 6, 2016Date of Patent: December 12, 2017Inventor: Rishabh Y. Maharaja
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Patent number: 9837706Abstract: A vehicle may include a conductive housing surrounding an antenna and defining an aperture having a size at least equal to a wavelength of signals radiated by the antenna. A controller may be configured to orient the conductive housing to direct the aperture at a direction of travel to guide electromagnetic radiation from the antenna. The controller may orient the conductive housing in response to receiving a cooperative adaptive cruise control signal from an established platoon of vehicles.Type: GrantFiled: February 19, 2016Date of Patent: December 5, 2017Assignee: Ford Global Technologies, LLCInventors: Cynthia M. Neubecker, Perry Robinson MacNeille, Omar Makke, Dehua Cui, David Allen Kowalski, Allen R. Murray, Oliver Lei
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Patent number: 9835465Abstract: A method for operating a motor vehicle when the driver thereof needs to accomplish a series of tasks (such as delivery and/or pick-up of items) along a route that each require the driver to park the motor vehicle, to leave it and to cover certain distances on foot. The motor vehicle is able to operate both under the control of a human driver aboard the motor vehicle or autonomously without driver intervention. When the driver parks the motor vehicle for the purpose of task accomplishment, an electronic plan of the tasks is checked to determine whether it is more efficient for task accomplishment if the driver returns to the motor vehicle at the first parking location or if the vehicle drives autonomously to a next stopping point situated in the direction of travel and the human driver walks to meet it at the next stopping point.Type: GrantFiled: March 16, 2016Date of Patent: December 5, 2017Assignee: Ford Global Technologies, LLCInventor: Frederic Stefan