Patents Examined by Khoi Tran
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Patent number: 9533724Abstract: An apparatus and method for attaching a crawler vehicle to the surface of an object. The crawler vehicle may comprise a frame, a number of moveable surface-engaging components attached to the frame, a number of actuators, and an electro-permanent magnet. The number of actuators is operable to move the frame with respect to the object when the number of moveable surface-engaging components is in contact with the surface of the object. The electro-permanent magnet is operable to hold the number of moveable surface-engaging components in contact with the surface of the object by a magnetic force between the electro-permanent magnet and the object when the electro-permanent magnet is activated and to remove the magnetic force when the electro-permanent magnet is deactivated to release the number of moveable surface-engaging components from the surface of the object.Type: GrantFiled: February 17, 2015Date of Patent: January 3, 2017Assignee: THE BOEING COMPANYInventors: James J. Troy, Gary Ernest Georgeson, Scott W. Lea, Karl Edward Nelson, Daniel J. Wright
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Patent number: 9533411Abstract: A method for controlling a tele-operated robot agile lift system is disclosed. The method comprises manipulating a human-machine interface of a master robot located on a mobile platform. The human machine interface is kinematically equivalent to a user's arm with a plurality of support members. A position value and a torque value is measured for each support member. The position value and torque value are communicated to support members of a kinematically equivalent slave arm to position the support members to correspond with a position of the human-machine interface.Type: GrantFiled: January 27, 2015Date of Patent: January 3, 2017Assignee: Sarcos LCInventors: Stephen C. Jacobsen, Fraser M. Smith, Marc X. Olivier, Shane Stilson
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Patent number: 9533413Abstract: Apparatus and methods for a modular robotic device with artificial intelligence that is receptive to training controls. In one implementation, modular robotic device architecture may be used to provide all or most high cost components in an autonomy module that is separate from the robotic body. The autonomy module may comprise controller, power, actuators that may be connected to controllable elements of the robotic body. The controller may position limbs of the toy in a target position. A user may utilize haptic training approach in order to enable the robotic toy to perform target action(s). Modular configuration of the disclosure enables users to replace one toy body (e.g., the bear) with another (e.g., a giraffe) while using hardware provided by the autonomy module. Modular architecture may enable users to purchase a single AM for use with multiple robotic bodies, thereby reducing the overall cost of ownership.Type: GrantFiled: March 13, 2014Date of Patent: January 3, 2017Assignee: Brain CorporationInventors: Eugene Izhikevich, Dimitry Fisher, Jean-Baptiste Passot, Heathcliff Hatcher, Vadim Polonichko
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Patent number: 9536434Abstract: A method and apparatus of turning an aircraft for interval management. Interval management information identifying a desired spacing between the aircraft and a target aircraft is received. Turn information is determined using a performance gain factor. The turn information identifies a turn point for the aircraft. The performance gain factor identifies a desired portion of achieving the desired spacing due to turning the aircraft at the turn point and a desired portion of achieving the desired spacing due to changing speed of the aircraft. The turn information is used to turn the aircraft at the turn point.Type: GrantFiled: December 12, 2014Date of Patent: January 3, 2017Assignee: THE BOEING COMPANYInventors: Julien Emile Sebastien Scharl, David M. Myers, Aslaug Haraldsdottir
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Patent number: 9534916Abstract: A method, a device and a computer readable medium are disclosed for navigation. The method includes determining map information for display on an integrated input and display device of a navigation device, based upon a determined route of travel of the navigation device; and differentiating at least a portion of the map information within a threshold distance of the determined route of travel, from other map information, to thereby emphasize the determined route of travel. The navigation device includes a processor to determine map information for subsequent display, based upon a determined route of travel of the navigation device, the processor further being useable to control display of at least a portion of the map information, determined to be within a threshold distance of the determined route of travel, in a manner differentiated from display of other map information, to thereby emphasize the determined route of travel.Type: GrantFiled: May 2, 2008Date of Patent: January 3, 2017Assignee: TomTom International B.V.Inventors: Pieter Geelen, James Tebbutt, Jasper-Michiel Van Hemert
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Patent number: 9534899Abstract: Vector Field SLAM is a method for localizing a mobile robot in an unknown environment from continuous signals such as WiFi or active beacons. Disclosed is a technique for localizing a robot in relatively large and/or disparate areas. This is achieved by using and managing more signal sources for covering the larger area. One feature analyzes the complexity of Vector Field SLAM with respect to area size and number of signals and then describe an approximation that decouples the localization map in order to keep memory and run-time requirements low. A tracking method for re-localizing the robot in the areas already mapped is also disclosed. This allows to resume the robot after is has been paused or kidnapped, such as picked up and moved by a user. Embodiments of the invention can comprise commercial low-cost products including robots for the autonomous cleaning of floors.Type: GrantFiled: November 9, 2012Date of Patent: January 3, 2017Assignee: iRobot CorporationInventors: Jens-Steffen Gutmann, Philip Fong, Mario E. Munich
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Patent number: 9526212Abstract: A system is provided that automatically stops a tractor based on position of a twine arm assembly in a round baler. A control system monitors position(s) of the twine arm assembly when an automatic twine-wrapping cycle is initiated. This may include starting a twine arm position monitoring procedure when an initial position change of the twine arms is detected. One or more sensors may be mounted on the baler to detect position characteristics of twine arm assembly, which may include presence or absence of the twine arm assembly at certain locations relative to a bale chamber of the baler and/or movement of the twine arm assembly. When the control system determines that the twine arm assembly is in an insert preparatory position, the control system sends a tractor halt command which automatically stops tractor at the same time that the wrapping procedure begins.Type: GrantFiled: November 26, 2014Date of Patent: December 27, 2016Assignee: CNH Industrial America LLCInventors: Kevin M. Smith, Carl M. Brewer
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Patent number: 9517556Abstract: A robot control apparatus includes a transformation-matrix generating unit that generates, on the basis of N first command values for learning per one robot, which are position-corrected command values for positioning a master robot and a slave robot on tracks of their respective robots during the synchronous driving, concerning the respective N command values for learning, transformation matrices among the command values for learning, a command-value storing unit that outputs a first command value for driving at each of M operation periods for defining the track of the master robot, a transformation-matrix -function generating unit and a command-value generating unit that interpolate the N transformation matrices and generate a transformation matrix at the each first command value for driving, and a command-value generating unit that causes the transformation matrices to act on the M first command values for driving and generates M second command values for driving of the slave robot.Type: GrantFiled: May 30, 2013Date of Patent: December 13, 2016Assignee: Mitsubishi Electric CorporationInventor: Koji Shiratsuchi
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Patent number: 9517725Abstract: An auto revising system for around view monitoring (AVM) includes: one or more target members provided in a space in which a vehicle is assembled, as a reference for a position of the vehicle; a control unit configured to control an AVM system which is installed in the vehicle; and a revising robot unit configured to interface with the control unit to automatically revise a screen of the AVM system based on the one or more target members.Type: GrantFiled: April 1, 2015Date of Patent: December 13, 2016Assignees: Hyundai Motor Company, Kia Motors CorporationInventor: Dong Myong Kim
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Patent number: 9517558Abstract: A time-optimal trajectory generation method, for a robotic manipulator having a transport path with at least one path segment, comprising generating a forward time-optimal trajectory of the manipulator along the at least one path segment from a start point of the at least one path segment towards an end point of the at least one path segment, generating a reverse time-optimal trajectory of the manipulator along the at least one path segment from the end point towards the start point of the at least one path segment, and combining the time-optimal forward and reverse trajectories to obtain a complete time-optimal trajectory, where the forward and reverse trajectories of the at least one path segment are blended together with a smoothing bridge joining the time-optimal forward and reverse trajectories in a position-velocity reference frame with substantially no discontinuity between the time-optimal forward and reverse trajectories.Type: GrantFiled: August 30, 2012Date of Patent: December 13, 2016Assignee: Brooks Automation Inc.Inventors: Jayaraman Krishnasamy, Martin Hosek
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Patent number: 9511769Abstract: Autonomous cruise control is provided to permit one vehicle to follow another at a predetermined separation regardless of gradient. A system and method is disclosed which continually determines the separation distance of the vehicles, the speed of the leading vehicle and the location of the leading vehicle, to the intent that the following vehicle computes the required speed upon reaching the instant location of the lead vehicle.Type: GrantFiled: February 20, 2013Date of Patent: December 6, 2016Assignee: Jaguar Land Rover LimitedInventors: Andrew Fairgrieve, James Kelly
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Patent number: 9514576Abstract: A method for detecting wear on at least one component of an electric bicycle includes: monitoring the operating condition of the at least one component with the aid of at least one sensor; detecting the stress on the component over the duration of operation; and displaying the need for service on a display unit as soon as a long-term load threshold defined for this component is reached, to inform the cyclist promptly of the need for service.Type: GrantFiled: April 23, 2012Date of Patent: December 6, 2016Assignee: Robert Bosch GmbHInventors: Oliver Gerundt, Gregor Dasbach, Ingo Immendoerfer, Ralf Diekmann
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Patent number: 9505131Abstract: In an elastic-deformation-compensation control device (10), a first dynamic characteristic calculation unit (300) performs filtering processing with respect to a motor-angle command value (?mc) outputted from a motor-angle-command-value calculation unit (600), and outputs a processed motor-angle target value (?md). A second dynamic characteristic calculation unit (400) is provided with a high-frequency cutoff characteristic having a cutoff frequency which is lower than that of the first dynamic characteristic calculation unit (300), performs filtering processing with respect to the output from an axial force torque calculation unit (200), and outputs a processed axial force torque compensation value (fd).Type: GrantFiled: May 30, 2013Date of Patent: November 29, 2016Assignee: Kobe Steel, Ltd.Inventors: Yoshiharu Nishida, Takashi Wada, Yoshihide Inoue, Shuichi Inada
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Patent number: 9504456Abstract: A surgical controlling system comprising: at least one location estimating means to real-time locate the 3D spatial position of at least one surgical tool; at least one movement detection means in communication with a movement database and with the location estimating means; and a controller, which controls the position of at least one surgical tool, in communication with a movement database, a control database and the movement detection means. The movement database stores the 3D spatial position of each surgical tool at the present time and at at least one previous time; a tool has moved if its present position is different from its previous position. The control database stores rules to identify a movement of a tool as either an ALLOWED movement or a RESTRICTED movement.Type: GrantFiled: June 28, 2015Date of Patent: November 29, 2016Assignee: M.S.T. MEDICAL TECHNOLOGIES LTDInventors: Motti Frimer, Mordehai Sholev, Yehuda Pfeffer
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Patent number: 9504367Abstract: A cleaning robot including a main body, a pad mounted below the main body to implement cleaning, and a drive assembly to apply drive power to the pad. The drive assembly moves the main body to a target position by adjusting the drive power. The cleaning robot may move at a high speed owing to omni-directional movement thereof without rotation of the main body. Further, the cleaning robot may imitate a human wiping pattern, thus achieving enhanced cleaning efficiency. Furthermore, various cleaning patterns including a straight pattern and a curvilinear pattern may be applied to the cleaning robot.Type: GrantFiled: November 3, 2014Date of Patent: November 29, 2016Assignee: SAMSUNG ELECTRONICS CO., LTD.Inventors: In Joo Kim, Jeong Ki Yoo, Dong Hyun Lee, Dong Hun Lee, Jin Sung Kim
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Patent number: 9501878Abstract: Vehicle event data playback systems described herein may provide users means for reviewing events recorded by a vehicle event recorder. Circumstances relating to vehicle operation may be visually presented in these playback systems. Video playback from multiple recording devices may be synchronized with each other and/or with information related to the operation of the vehicle during the recorded events to affect a presentation of information related to operation of the vehicle. A user may be presented with many data types in graphical and/or intuitive arrangements.Type: GrantFiled: October 16, 2013Date of Patent: November 22, 2016Assignee: SmartDrive Systems, Inc.Inventors: Jason Palmer, Slaven Sljivar
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Patent number: 9498886Abstract: A mobile human interface robot including a drive system having at least one drive wheel driven by a corresponding drive motor, a localization system in communication with the drive system, and a power source in communication with the drive system and the localization system. The robot further including a touch response input supported above the drive system. Activation of the touch response input modifies delivery of power to the drive system to reduce a drive load of the corresponding drive motor of the at least one drive wheel white allowing continued delivery of power to the localization system.Type: GrantFiled: November 18, 2014Date of Patent: November 22, 2016Assignee: iRobot CorporationInventors: Michael T. Rosenstein, Chikyung Won, Geoffrey Lansberry, Steven V. Shamlian, Michael Halloran, Mark Chiappetta, Thomas P. Allen
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Patent number: 9494341Abstract: The present invention relates to a highly-available and fault-tolerant solar tracking system and the process required to manage such a system. A fleet of multiple, redundant mobile robots managed by a task coordinator is deployed to track solar panels in a solar farm in alignment with the sun. Each robot has a control unit for engaging with a coupler connected to one or multiple solar panels and adjusting their orientation, as well as communicating with the task coordinator to receive tasks. The task coordinator senses various events such as robot failure/deterioration, as well as various environmental conditions, and sends tasks reconciled with event types. The system is highly-available and fault-tolerant as it remains operational as long as there is one operational robot. The task coordinator assigns tasks to the mobile robots so as to optimize battery life or other factors, such as, e.g., overall maintenance costs across the fleet.Type: GrantFiled: September 10, 2013Date of Patent: November 15, 2016Assignee: SolarCity CorporationInventors: Salomon J. Trujillo, Vayardo L. Ruiz, Noe Esparza, Jessica A. Riley, Kevin C. Chu, Wasiq Bokhari
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Patent number: 9488630Abstract: A system for high temporal and high spatial resolution monitoring of a field of plants is disclosed. Illustratively, the system includes a plurality of ground based reference objects, a balloon adapted to be positioned above the field of plants, and a balloon positioning system coupled to the balloon and configured to position the balloon relative to the field of plants. An imaging system is supported by the balloon and includes a locations system, at least one camera, and at least one gimbal configured to orient the at least one camera. The imaging system captures at least one image of the field of plants including the plurality of ground based reference objects in the at least one image.Type: GrantFiled: November 6, 2014Date of Patent: November 8, 2016Assignee: Dow AgroSciences LLCInventors: Tristan Coram, Yang Yang, Terry R. Wright, Pradeep Setlur, Fikru Haile
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Patent number: 9487210Abstract: A hybrid vehicle includes a differential device, a first motor, an engine, a second motor, an engagement device, and an electronic control unit. The electronic control unit is configured to control the first motor and the second motor when an engagement state of the engagement device changes, such that a first angular acceleration and a second angular acceleration reach a first target value and the second target value respectively, the first angular acceleration and the second angular acceleration being two angular accelerations of the engine, the first motor, and the second motor and to calculate the first target value and the second target value by applying a constraint condition to at least one of the first target value and the second target value.Type: GrantFiled: May 15, 2014Date of Patent: November 8, 2016Assignees: TOYOTA JIDOSHA KABUSHIKI KAISHA, AISIN AW CO., LTD.Inventors: Masaya Yamamoto, Shunya Kato, Akihiro Kimura, Hideki Furuta