Patents by Inventor Anthony Jules
Anthony Jules has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10987812Abstract: A robotic system includes end-effector(s) that combine a plurality of objects in a production process. The system includes sensor(s) that obtain measurement(s) relating to a combination of a first object and one or more other objects during the production process. The system includes a control system communicatively coupled to the sensor(s). The control system stores specifications relating to the combination of the plurality of objects. The control system receives the measurement(s) from the sensor(s), determines a difference based on the measurement(s) and the specifications, determines adjustment(s) to the production process based on the determined difference, and sends, for the end-effector(s), instruction(s) based on the specifications and the one or more adjustment(s). The end-effector(s) combine a second object with the first object and the one or more objects based on the specifications and the one or more adjustment(s).Type: GrantFiled: October 9, 2018Date of Patent: April 27, 2021Assignee: X Development LLCInventors: Jeff Linnell, Anthony Jules, Marek Michalowski, Kendra Byrne, Jonathan Proto, Brandon Kruysman, Eli Reekmans, Matthew Bitterman, Michael Beardsworth
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Patent number: 10882181Abstract: A robotic system includes one or more end-effectors that combine, according to a production process, at least one object and structure(s) at a production site. Sensor(s) generate, from the production site, sensor data relating to the production process. A control system stores specifications for the production process based on a model of the production site and/or the at least one object. The control system: receives, from the sensor(s), the sensor data; determines, from the sensor data, properties of at least one of: the production site or the at least one object; determines difference(s) between the properties and the model; determine(s) adjustment(s) to the production process based on the difference(s); and sends, for the end-effector(s), instruction(s) for combining the at least one object and the structure(s) based on the specifications and the one or more adjustments to the production process.Type: GrantFiled: January 18, 2019Date of Patent: January 5, 2021Assignee: X Development LLCInventors: Jeff Linnell, Anthony Jules, Marek Michalowski, Kendra Byrne, Jonathan Proto, Brandon Kruysman, Eli Reekmans
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Publication number: 20190184555Abstract: A robotic system includes one or more end-effectors that combine, according to a production process, at least one object and structure(s) at a production site. Sensor(s) generate, from the production site, sensor data relating to the production process. A control system stores specifications for the production process based on a model of the production site and/or the at least one object. The control system: receives, from the sensor(s), the sensor data; determines, from the sensor data, properties of at least one of: the production site or the at least one object; determines difference(s) between the properties and the model; determine(s) adjustment(s) to the production process based on the difference(s); and sends, for the end-effector(s), instruction(s) for combining the at least one object and the structure(s) based on the specifications and the one or more adjustments to the production process.Type: ApplicationFiled: January 18, 2019Publication date: June 20, 2019Inventors: Jeff Linnell, Anthony Jules, Marek Michalowski, Kendra Byrne, Jonathan Proto, Brandon Kruysman, Eli Reekmans
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Patent number: 10245726Abstract: A method operable by a computing device is provided. The method may include receiving a request for a given task to be performed by a robotic system. The method may also determining one or more subtasks required to perform the given task, where the one or more subtasks include one or more parameters used to define the one or more subtasks. The method may also include determining an arrangement of the one or more subtasks to perform the given task, and providing for display an indication of the one or more undefined parameters for the given task. The method may also include receiving an input defining the one or more undefined parameters for the given task, and executing the one or more subtasks in the determined arrangement and in accordance with the one or more defined parameters to cause the robotic system to perform the given task.Type: GrantFiled: August 22, 2016Date of Patent: April 2, 2019Assignee: X Development LLCInventors: Advait Jain, Anthony Jules, Aaron Edsinger
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Patent number: 10220511Abstract: A robotic system includes one or more end-effectors that combine, according to a production process, at least one object and structure(s) at a production site. Sensor(s) generate, from the production site, sensor data relating to the production process. A control system stores specifications for the production process based on a model of the production site and/or the at least one object. The control system: receives, from the sensor(s), the sensor data; determines, from the sensor data, properties of at least one of: the production site or the at least one object; determines difference(s) between the properties and the model; determine(s) adjustment(s) to the production process based on the difference(s); and sends, for the end-effector(s), instruction(s) for combining the at least one object and the structure(s) based on the specifications and the one or more adjustments to the production process.Type: GrantFiled: July 28, 2016Date of Patent: March 5, 2019Assignee: X Development LLCInventors: Jeff Linnell, Anthony Jules, Marek Michalowski, Kendra Byrne, Jonathan Proto, Brandon Kruysman, Eli Reekmans
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Patent number: 10052763Abstract: A system is provided, including one or more servers in communication with a robotic system. The one or more servers may be configured to receive operational data from the robotic system, and determine one or more operational performance metrics based on the received operational data. The system may also include a first computing device in communication with the robotic system including a workstation authoring software application configured to program the given task to be completed by the robotic system, and determine one or more subtasks required for the robotic system to perform the given task. The system may also include a second computing device in communication with the robotic system including an operational dashboard software application configured to control various operations of the robotic system, and provide for display a visual representation of the operational data and the operational performance metrics on an interface of the second computing device.Type: GrantFiled: December 7, 2016Date of Patent: August 21, 2018Assignee: X Development LLCInventors: Stefan Nusser, Aaron Edsinger, Advait Jain, Anthony Jules
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Patent number: 9934189Abstract: A method operable by a computing device is provided. The method may include receiving a request for a given task to be performed by a modular reconfigurable workcell. The method may also include determining one or more peripherals required to perform the given task. The method may also include determining an optimal placement of the one or more peripherals based on the given task, wherein the one or more peripherals are coupled to the workcell in a fixed geometric configuration based on the determined optimal placement. The method may also include determining a first calibration of the one or more peripherals based on the orientation of the one or more peripherals relative to the workcell, and determining a second calibration of the one or more peripherals based on the optimal placement of the one or more peripherals with respect to each other.Type: GrantFiled: May 10, 2017Date of Patent: April 3, 2018Assignee: X Development LLCInventors: Advait Jain, Aaron Edsinger, Anthony Jules, Stefan Nusser, James Nicholas Vines
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Publication number: 20180029235Abstract: A robotic system includes end-effector(s) that combine a plurality of objects in a production process. The system includes sensor(s) that obtain measurement(s) relating to a combination of a first object and one or more other objects during the production process. The system includes a control system communicatively coupled to the sensor(s). The control system stores specifications relating to the combination of the plurality of objects. The control system receives the measurement(s) from the sensor(s), determines a difference based on the measurement(s) and the specifications, determines adjustment(s) to the production process based on the determined difference, and sends, for the end-effector(s), instruction(s) based on the specifications and the one or more adjustment(s). The end-effector(s) combine a second object with the first object and the one or more objects based on the specifications and the one or more adjustment(s).Type: ApplicationFiled: July 28, 2016Publication date: February 1, 2018Inventors: Jeff Linnell, Anthony Jules, Marek Michalowski, Kendra Byrne, Jonathan Proto, Brandon Kruysman, Eli Reekmans, Matthew Bitterman, Michael Scott Beardsworth
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Publication number: 20180029227Abstract: A robotic system includes one or more end-effectors that combine, according to a production process, at least one object and structure(s) at a production site. Sensor(s) generate, from the production site, sensor data relating to the production process. A control system stores specifications for the production process based on a model of the production site and/or the at least one object. The control system: receives, from the sensor(s), the sensor data; determines, from the sensor data, properties of at least one of: the production site or the at least one object; determines difference(s) between the properties and the model; determine(s) adjustment(s) to the production process based on the difference(s); and sends, for the end-effector(s), instruction(s) for combining the at least one object and the structure(s) based on the specifications and the one or more adjustments to the production process.Type: ApplicationFiled: July 28, 2016Publication date: February 1, 2018Inventors: Jeff Linnell, Anthony Jules, Marek Michalowski, Kendra Byrne, Jonathan Proto, Brandon Kruysman, Eli Reekmans
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Patent number: 9694495Abstract: A robotic device may: receive movement information associated with a plurality of subtasks performed by a manipulator of a robotic device, where the movement information indicates respective paths followed by the manipulator while performing the respective subtasks and respective forces experienced by the manipulator along the respective paths; determine task information for a task to be performed by the robotic device, where the task comprises a combination of subtasks of the plurality of subtasks, where the task information includes a trajectory to be followed by the manipulator, and forces to be exerted by the manipulator at points along the trajectory; and determine, based on the task information, torques to be applied over time to the manipulator via a joint coupled to the robotic device to perform the task.Type: GrantFiled: June 24, 2014Date of Patent: July 4, 2017Assignee: Redwood Robotics Inc.Inventors: Aaron Edsinger, Advait Jain, Anthony Jules
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Methods and systems for rapid configuration, calibration, and deployment of a modular robot workcell
Patent number: 9672184Abstract: A method operable by a computing device is provided. The method may include receiving a request for a given task to be performed by a modular reconfigurable workcell. The method may also include determining one or more peripherals required to perform the given task. The method may also include determining an optimal placement of the one or more peripherals based on the given task, wherein the one or more peripherals are coupled to the workcell in a fixed geometric configuration based on the determined optimal placement. The method may also include determining a first calibration of the one or more peripherals based on the orientation of the one or more peripherals relative to the workcell, and determining a second calibration of the one or more peripherals based on the optimal placement of the one or more peripherals with respect to each other.Type: GrantFiled: June 19, 2014Date of Patent: June 6, 2017Assignee: Redwood Robotics, Inc.Inventors: Advait Jain, Aaron Edsinger, Anthony Jules, Stefan Nusser, James Nicholas Vines -
Patent number: 9561590Abstract: A system is provided, including one or more servers in communication with a robotic system. The one or more servers may be configured to receive operational data from the robotic system, and determine one or more operational performance metrics based on the received operational data. The system may also include a first computing device in communication with the robotic system including a workstation authoring software application configured to program the given task to be completed by the robotic system, and determine one or more subtasks required for the robotic system to perform the given task. The system may also include a second computing device in communication with the robotic system including an operational dashboard software application configured to control various operations of the robotic system, and provide for display a visual representation of the operational data and the operational performance metrics on an interface of the second computing device.Type: GrantFiled: June 23, 2014Date of Patent: February 7, 2017Assignee: Redwood Robotics, Inc.Inventors: Stefan Nusser, Aaron Edsinger, Advait Jain, Anthony Jules
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Patent number: 9505136Abstract: Examples for precision assembly of robotic components are described herein. A robotic manipulator may require the assembly and disassembly of its components. To enable efficient assembly of the robotic manipulator, an example assembly may include connection links between robotic components that enable functional and precise assembly. In one embodiment, an example assembly may include connection links having various structural features positioned incrementally at respective positions proximal to outside edges of the connection links for securing the connection links together in a fixed, immovable geometric configuration. In some instances, the connection links may further include electrical components or slots for electrical components of components for establishing electrical connections between the connection links within the assembly. Further, an example assembly may include a clamping component for providing axial force to secure the connection links in the precise configuration.Type: GrantFiled: June 24, 2014Date of Patent: November 29, 2016Assignee: Redwood RoboticsInventors: Stefan Nusser, Advait Jain, Anthony Jules, James Nicholas Vines, Aaron Edsinger, Attila Kabai
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Patent number: 9465384Abstract: A method operable by a computing device is provided. The method may include receiving a request for a given task to be performed by a robotic system. The method may also determining one or more subtasks required to perform the given task, where the one or more subtasks include one or more parameters used to define the one or more subtasks. The method may also include determining an arrangement of the one or more subtasks to perform the given task, and providing for display an indication of the one or more undefined parameters for the given task. The method may also include receiving an input defining the one or more undefined parameters for the given task, and executing the one or more subtasks in the determined arrangement and in accordance with the one or more defined parameters to cause the robotic system to perform the given task.Type: GrantFiled: June 23, 2014Date of Patent: October 11, 2016Assignee: Redwood Robotics, Inc.Inventors: Advait Jain, Anthony Jules, Aaron Edsinger
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Patent number: 9186795Abstract: A robotic device may receive task information defining (i) a nominal trajectory for an end-effector coupled to a manipulator of the robotic device, and (ii) forces to be exerted by the end-effector along the nominal trajectory; determining, based on the task information, a modified trajectory that is offset from the nominal trajectory; determining, based on the modified trajectory and the forces, torques to be applied to the manipulator over time; causing the torques to be applied to the manipulator so as to cause the end-effector to follow the modified trajectory and substantially exert the forces along the modified trajectory; receiving force feedback information from a sensor coupled to the robotic device indicating respective forces being experienced by the end-effector at respective points along the modified trajectory; and adjusting the torques to be applied to the manipulator based on the force feedback information.Type: GrantFiled: June 24, 2014Date of Patent: November 17, 2015Inventors: Aaron Edsinger, Advait Jain, Anthony Jules