Patents by Inventor Luis Jaquez
Luis Jaquez 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: 11724883Abstract: Systems and methods for presorting and executing robot-assisted putaway tasks in a navigational space include assigning each of a plurality of item storage arrays to one of a plurality of zones defined within the navigational space, scanning an item identifier of at least one of a plurality of unsorted items to be stored at locations throughout the warehouse, retrieving, in response to receiving identifying information corresponding to the at least one scanned unsorted item, item data describing a storage location for putaway within the warehouse of each of the at least one scanned items, determining, from the storage location, a corresponding one of the plurality of zones of the warehouse in which the storage location is located, and placing each scanned unsorted item into an interconnected container of one of the item storage arrays assigned to the corresponding one of the zones.Type: GrantFiled: September 11, 2020Date of Patent: August 15, 2023Assignee: Locus Robotics Corp.Inventors: Sean Johnson, Luis Jaquez, Michael Charles Johnson
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Patent number: 11724395Abstract: Systems and methods are provided for robot congestion management including a robot monitoring server configured to track a location of a plurality of robots within a navigational space and a plurality of robots in communication with the robot monitoring server, each robot including a processor and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to determine, from a task list assigned to the robot, a first pose location corresponding to a first task, receive, from the robot monitoring server, congestion information associated with the first pose location, identify a congested state of the first pose location indicated by the congestion information, select, responsive to the identification of the congested state, a second task from the task list, and navigate to a second pose location corresponding to the second task.Type: GrantFiled: February 1, 2019Date of Patent: August 15, 2023Assignee: Locus Robotics Corp.Inventors: Michael Charles Johnson, Luis Jaquez, Sean Johnson, Andrew Alcutt
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Publication number: 20230202042Abstract: Systems and methods are provided for robot congestion management including a robot monitoring server configured to track a location of a plurality of robots within a navigational space and a plurality of robots in communication with the robot monitoring server, each robot including a processor and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to determine, from a task list assigned to the robot, a first pose location corresponding to a first task, receive, from the robot monitoring server, congestion information associated with the first pose location, identify a congested state of the first pose location indicated by the congestion information, select, responsive to the identification of the congested state, a second task from the task list, and navigate to a second pose location corresponding to the second task.Type: ApplicationFiled: March 7, 2023Publication date: June 29, 2023Inventors: Michael Charles Johnson, Luis Jaquez, Sean Johnson, Andrew Alcutt
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Patent number: 11479414Abstract: Processes are provided for dynamically sorting and storing items in a warehouse without the need for presorting items and without delaying or negatively impacting the efficiency of operators in the warehouse. Items are individually scanned and placed in totes of a tote-array provided on a mobile robot. An optimized route is calculated based on the items in the tote-array, and the robot navigates to a first location on the route. When the item has been put away, a replacement item is placed in the just-emptied tote of the tote-array, and an updated route is calculated. A robot capable of navigating to predefined locations for storing items is a warehouse is provided.Type: GrantFiled: September 11, 2020Date of Patent: October 25, 2022Assignee: Locus Robotics Corp.Inventors: Sean Johnson, Luis Jaquez, Michael Charles Johnson
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Publication number: 20220081216Abstract: Systems and methods for presorting and executing robot-assisted putaway tasks in a navigational space include assigning each of a plurality of item storage arrays to one of a plurality of zones defined within the navigational space, scanning an item identifier of at least one of a plurality of unsorted items to be stored at locations throughout the warehouse, retrieving, in response to receiving identifying information corresponding to the at least one scanned unsorted item, item data describing a storage location for putaway within the warehouse of each of the at least one scanned items, determining, from the storage location, a corresponding one of the plurality of zones of the warehouse in which the storage location is located, and placing each scanned unsorted item into an interconnected container of one of the item storage arrays assigned to the corresponding one of the zones.Type: ApplicationFiled: September 11, 2020Publication date: March 17, 2022Inventors: Sean Johnson, Luis Jaquez, Michael Charles Johnson
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Publication number: 20220083062Abstract: Systems and methods are provided for robot navigation management including a server configured to define a first zone and a second, adjacent zone within an environment, a threshold along a border between the first and second zones, and a waypoint associated with the threshold. One or more autonomous robots in communication with the server are configured to determine a route from the first zone to the second zone crossing the threshold, the route including a waypoint; and navigate the robot along the route from the first zone to the second zone, including traversing the waypoint in conjunction with crossing the threshold.Type: ApplicationFiled: September 11, 2020Publication date: March 17, 2022Inventors: Luis Jaquez, Sean Johnson, Michael Charles Johnson, Andrew Alcutt
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Publication number: 20220081215Abstract: Systems and methods for presorting and executing robot-assisted putaway tasks in a navigational space include assigning each of a plurality of item storage arrays to one of a plurality of zones defined within the navigational space, scanning an item identifier of at least one of a plurality of unsorted items to be stored at locations throughout the warehouse, retrieving, in response to receiving identifying information corresponding to the at least one scanned unsorted item, item data describing a storage location for putaway within the warehouse of each of the at least one scanned items, determining, from the storage location, a corresponding one of the plurality of zones of the warehouse in which the storage location is located, and placing each scanned unsorted item into an interconnected container of one of the item storage arrays assigned to the corresponding one of the zones.Type: ApplicationFiled: September 11, 2020Publication date: March 17, 2022Inventors: Sean Johnson, Luis Jaquez, Michael Charles Johnson
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Patent number: 11213950Abstract: Systems and methods for proximate robot object detection and avoidance are provided herein which include a receiver in electronic communication with an autonomous robot and configured to receive a broadcast message from a beacon, a processor, and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to detect, based on the received broadcast message, a proximity of the beacon to the autonomous robot, determine, from the received broadcast message, a beacon status, the beacon status indicating whether the beacon is stationary, approaching the autonomous robot, or withdrawing from the autonomous robot, identify, according to the detected proximity and the determined beacon status, a corresponding proximity operation, and control the autonomous robot to stop an ordinary operation and operate according to the identified proximity operation.Type: GrantFiled: February 1, 2019Date of Patent: January 4, 2022Assignee: Locus Robotics Corp.Inventors: Michael Charles Johnson, Sean Johnson, Luis Jaquez, Bruce Welty
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Patent number: 11078019Abstract: A method for assigning orders to a plurality of robots fulfilling orders in a warehouse with the assistance of a plurality of operators. The method includes providing a first robot of the plurality of robots to a be assigned an order set, including one or more orders to be fulfilled and assessing the locations of at least one of the plurality of robots or at least one of the plurality of operators in the warehouse. The method also includes selecting an anchor location in the warehouse and generating an order set for the first robot correlated to the anchor location in the warehouse. The method also includes assigning the order set to the first robot for fulfillment.Type: GrantFiled: January 30, 2019Date of Patent: August 3, 2021Assignee: Locus Robotics Corp.Inventors: Michael Charles Johnson, Bruce Welty, Sean Johnson, Luis Jaquez
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Patent number: 11034027Abstract: Systems and methods for robot assisted personnel routing including a plurality of autonomous robots operating within a navigational space, each robot including a processor and a memory storing instructions that, when executed by the processor, cause the autonomous robot to detect completion of a task operation by a human operator, receive status information corresponding to at least one other robot, the status information including at least one of a location or a wait time associated with the other robot, determine, from the status information, at least one next task recommendation for directing the human operator to a next robot for a next task operation, and render, on a display of the robot, the at least one next task recommendation for viewing by the human operator, the next task recommendation including a location of the next robot corresponding to the next task.Type: GrantFiled: February 1, 2019Date of Patent: June 15, 2021Assignee: Locus Robotics Corp.Inventors: Michael Charles Johnson, Luis Jaquez, Sean Johnson
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Patent number: 11000953Abstract: Methods and systems are provided for improving operator performance by robot gamification, the method including parking a robot at a pose location within a navigational space, identifying, by a sensor in electronic communication with an interactive display device, an operator located within a zone proximate the robot for acquiring an item to be picked, receiving, at the interactive display device, operator performance data associated with the acquiring of the item, and rendering, on the interactive display device in response to the received operator performance data, at least one graphic representation of operator achievement within a gamified performance tracking environment.Type: GrantFiled: January 21, 2019Date of Patent: May 11, 2021Assignee: Locus Robotics Corp.Inventors: Michael Charles Johnson, Sean Johnson, Luis Jaquez, Bruce Welty, Karen Leavitt
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Patent number: 10994933Abstract: A method for recommending a tote type for an operator to select for use in robot induction process, wherein the robot operates under the control of a warehouse management system to fulfill orders, each order including one or more items and each item being located in a warehouse. The method includes grouping one or more orders from an order queue to form at least one order set. The method also includes identifying, based on a characteristic of the at least one order set, a preferred tote type to be assigned to the robot to carry the order set on the robot. The method further includes communicating to an operator the preferred tote type to enable the operator to select from a plurality of totes a tote of the preferred tote type to assign to the robot for execution of the order.Type: GrantFiled: January 30, 2019Date of Patent: May 4, 2021Assignee: Locus Robotics Corp.Inventors: Michael Charles Johnson, Sean Johnson, Luis Jaquez, Bruce Welty
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Patent number: 10913604Abstract: A method for queuing robots destined for one or more processing stations in an environment includes determining when each robot of a plurality of robots destined for the one or more processing stations have entered a predefined target zone proximate the one or more processing stations. The method also includes assigning each of the robots to one of a plurality of queue positions based on an assigned priority and directing each of the robots from its assigned queue position to a processing position of one of the processing stations. Each of the processing stations includes at least two processing positions for a like number of robots to occupy for processing by an operator.Type: GrantFiled: May 7, 2018Date of Patent: February 9, 2021Inventors: Kaitlin Margaret Gallagher, Sean Johnson, Michael Charles Johnson, Luis Jaquez
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Publication number: 20200246978Abstract: Systems and methods for robot assisted personnel routing including a plurality of autonomous robots operating within a navigational space, each robot including a processor and a memory storing instructions that, when executed by the processor, cause the autonomous robot to detect completion of a task operation by a human operator, receive status information corresponding to at least one other robot, the status information including at least one of a location or a wait time associated with the other robot, determine, from the status information, at least one next task recommendation for directing the human operator to a next robot for a next task operation, and render, on a display of the robot, the at least one next task recommendation for viewing by the human operator, the next task recommendation including a location of the next robot corresponding to the next task.Type: ApplicationFiled: February 1, 2019Publication date: August 6, 2020Inventors: Michael Charles Johnson, Luis Jaquez, Sean Johnson
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Publication number: 20200246972Abstract: Systems and methods are provided for robot congestion management including a robot monitoring server configured to track a location of a plurality of robots within a navigational space and a plurality of robots in communication with the robot monitoring server, each robot including a processor and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to determine, from a task list assigned to the robot, a first pose location corresponding to a first task, receive, from the robot monitoring server, congestion information associated with the first pose location, identify a congested state of the first pose location indicated by the congestion information, select, responsive to the identification of the congested state, a second task from the task list, and navigate to a second pose location corresponding to the second task.Type: ApplicationFiled: February 1, 2019Publication date: August 6, 2020Inventors: Michael Charles Johnson, Luis Jaquez, Sean Johnson, Andrew Alcutt
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Publication number: 20200246971Abstract: Systems and methods for proximate robot object detection and avoidance are provided herein which include a receiver in electronic communication with an autonomous robot and configured to receive a broadcast message from a beacon, a processor, and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to detect, based on the received broadcast message, a proximity of the beacon to the autonomous robot, determine, from the received broadcast message, a beacon status, the beacon status indicating whether the beacon is stationary, approaching the autonomous robot, or withdrawing from the autonomous robot, identify, according to the detected proximity and the determined beacon status, a corresponding proximity operation, and control the autonomous robot to stop an ordinary operation and operate according to the identified proximity operation.Type: ApplicationFiled: February 1, 2019Publication date: August 6, 2020Inventors: Michael Charles Johnson, Sean Johnson, Luis Jaquez, Bruce Welty
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Publication number: 20200239233Abstract: A method for recommending a tote type for an operator to select for use in robot induction process, wherein the robot operates under the control of a warehouse management system to fulfill orders, each order including one or more items and each item being located in a warehouse. The method includes grouping one or more orders from an order queue to form at least one order set. The method also includes identifying, based on a characteristic of the at least one order set, a preferred tote type to be assigned to the robot to carry the order set on the robot. The method further includes communicating to an operator the preferred tote type to enable the operator to select from a plurality of totes a tote of the preferred tote type to assign to the robot for execution of the order.Type: ApplicationFiled: January 30, 2019Publication date: July 30, 2020Inventors: Michael Charles Johnson, Sean Johnson, Luis Jaquez, Bruce Welty
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Publication number: 20200239232Abstract: A method for assigning orders to a plurality of robots fulfilling orders in a warehouse with the assistance of a plurality of operators. The method includes providing a first robot of the plurality of robots to a be assigned an order set, including one or more orders to be fulfilled and assessing the locations of at least one of the plurality of robots or at least one of the plurality of operators in the warehouse. The method also includes selecting an anchor location in the warehouse and generating an order set for the first robot correlated to the anchor location in the warehouse. The method also includes assigning the order set to the first robot for fulfillment.Type: ApplicationFiled: January 30, 2019Publication date: July 30, 2020Inventors: Michael Charles Johnson, Bruce Welty, Sean Johnson, Luis Jaquez
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Patent number: 10558214Abstract: A method for performing tasks on items located in a space using a robot, includes receiving an order to perform a task on at least one item and obtaining a pose associated with the at least one item. The pose is in a coordinate system defined by the space and the pose is where the task is to be performed on the at least one item. The method includes navigating the robot toward the pose associated with the at least one item and detecting, when in proximity to the pose, if the pose is obstructed by an object. If the pose is obstructed by an object, halting the robot at a location spaced from the pose and then causing the robot to provide a first signal indicating that the robot is in a holding mode at the location spaced from the pose.Type: GrantFiled: February 5, 2018Date of Patent: February 11, 2020Inventors: Luis Jaquez, Sean Johnson, Michael Charles Johnson
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Publication number: 20190243358Abstract: A method for performing tasks on items located in a space using a robot, includes receiving an order to perform a task on at least one item and obtaining a pose associated with the at least one item. The pose is in a coordinate system defined by the space and the pose is where the task is to be performed on the at least one item. The method includes navigating the robot toward the pose associated with the at least one item and detecting, when in proximity to the pose, if the pose is obstructed by an object. If the pose is obstructed by an object, halting the robot at a location spaced from the pose and then causing the robot to provide a first signal indicating that the robot is in a holding mode at the location spaced from the pose.Type: ApplicationFiled: February 5, 2018Publication date: August 8, 2019Inventors: Luis Jaquez, Sean Johnson, Michael Charles Johnson