Patents by Inventor Ryan Wasserman
Ryan Wasserman 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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Publication number: 20240107947Abstract: A collection tool comprises a drive chassis, a harvester module disposed on the drive chassis, the harvester module including a vision system configured to identify target objects, and a robotic arm including a grasper configured to collect the target objects, and a subsystem including an articulating semi-rigid catch member, the semi-rigid catch member configured to transition into a retracted state while the drive chassis is in motion and to transition into an extended state while the drive chassis is stationary and the robotic arm is in a process of collecting the target objects.Type: ApplicationFiled: April 1, 2022Publication date: April 4, 2024Inventors: Matthew Borgatti, Ryan R. Knopf, Ryan Wasserman, Joshua Aaron Lessing, Jason A. Chrisos, Michele Pratusevich, Wesley Bird
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Publication number: 20230097284Abstract: Robotic systems and methods for harvesting agricultural produce along multiple rows crops are disclosed. A mobile platform may include a robotic arm having a gripping tool and repositionable catch for collecting harvested target objects. A vision system may facilitate the identification of target objects and an associated controller may coordinate the various operational functions.Type: ApplicationFiled: January 20, 2021Publication date: March 30, 2023Inventors: Ryan R. Knopf, Jason A. Chrisos, Michele Pratusevich, Ryan Wasserman, Joshua Aaron Lessing
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Publication number: 20230068237Abstract: Disclosed herein is a collection tool configured to independently grasp and cut a tether of a target object for removal from an environment. The collection tool may include a body securable to a robotic arm of a collection robot, a base secured to the body, a plurality of fingers having proximal ends attached to the base, the plurality of fingers constructed and arranged to grasp the target object at distal ends of the plurality of fingers, and a blade coupled to one of the base or body and configured to cut the tether to which the target object is attached while the target object is held by the plurality of fingers.Type: ApplicationFiled: March 2, 2021Publication date: March 2, 2023Inventors: Ryan R. Knopf, Jason A. Chrisos, Joshua Aaron Lessing, Ryan Wasserman
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Patent number: 11331818Abstract: A remotely controlled packable robot includes a chassis, a motive subsystem for maneuvering the chassis, and an open channel under the robot defined by the chassis and the motive subsystem. A rearward arm base member mount is located between the chassis and a rotatable arm shoulder and is pivotable with respect to the chassis to store the arm underneath the robot in the open channel.Type: GrantFiled: October 7, 2019Date of Patent: May 17, 2022Assignee: Foster-Miller, Inc.Inventors: David C. Meeker, Timothy J. Mason, Andrew Kirouac, Christopher Leon, William Abraham Crowley, Ryan Wasserman
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Patent number: 11034015Abstract: A remotely controlled packable robot features a chassis with a top surface and a bottom surface, a pair of main tracks for maneuvering the chassis, and an open channel under the robot defined by the bottom surface of the chassis and the main tracks. A robot arm is foldable from a stored position in the open channel underneath the robot chassis to a deployed position extending upwards from the top surface of the chassis. A camera assembly may be foldable from a stowed position in the open channel underneath the robot chassis next to the robot arm to a deployed position extending upwards from the top surface of the chassis.Type: GrantFiled: July 11, 2019Date of Patent: June 15, 2021Assignee: Foster-Miller, Inc.Inventors: David C. Meeker, Timothy J. Mason, Andrew Kirouac, Ryan Wasserman
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Publication number: 20200346699Abstract: A method of operating a mobile remotely controlled ground robot in difficult terrain. Rear driven tracked arms of the robot are pivoted rearward and upward to trail main driven tracks of the robot at a fixed angle relative to and above the ground. The main tracks of the robot are driven forward to traverse the ground. An obstacle is traversed by driving the main tracks to traverse the obstacle pivoting the forward end of the robot upwards and at least one of the rear driven tracks are driven and engaging the ground and/or obstacle to advance the robot forward over the obstacle and to prevent the robot from tipping over backwards.Type: ApplicationFiled: April 30, 2020Publication date: November 5, 2020Inventors: David C. Meeker, Timothy J. Mason, Andrew Kirouac, Christopher Leon, William Abraham Crowley, Ryan Wasserman, Richard Wiesman
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Publication number: 20200114529Abstract: A remotely controlled packable robot includes a chassis with a top surface and a bottom surface, a motive subsystem for maneuvering the chassis, an open channel under the robot defined by the chassis and the motive subsystem, a camera assembly, and a robot arm including a rotatable shoulder, an upper arm pivotable with respect to the shoulder, a forearm, an elbow between the upper arm and the forearm, a wrist connected to the forearm, and a gripper attached to the wrist. A rearward arm base member mount between the chassis and the rotatable arm shoulder is pivotable with respect to the chassis to store the arm underneath the robot in the open channel. A forward camera assembly base member mount for the camera is pivotable with respect to the chassis to store the camera assembly underneath the robot in the open channel. Another camera mount is for retaining the camera assembly on the shoulder of the robot arm. A novel power distribution subsystem is also disclosed.Type: ApplicationFiled: October 7, 2019Publication date: April 16, 2020Inventors: David C. Meeker, Timothy J. Mason, Andrew Kirouac, Christopher Leon, William Abraham Crowley, Ryan Wasserman
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Patent number: 10471589Abstract: A remotely controlled packable robot features a chassis, right and left main tracks for maneuvering the chassis, and right and left tracked rotatable flipper arms for maneuvering the chassis. An integrated drive assembly is provided for each main track and flipper pair and includes a motor in a housing attached to the chassis for rotating the flipper and a stator and rotor disposed about the motor housing for driving the main track and the flipper track.Type: GrantFiled: September 14, 2017Date of Patent: November 12, 2019Assignee: Foster-Miller, Inc.Inventors: David C. Meeker, Timothy J. Mason, Andrew Kirouac, Ryan Wasserman
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Publication number: 20190337145Abstract: A remotely controlled packable robot features a chassis with a top surface and a bottom surface, a pair of main tracks for maneuvering the chassis, and an open channel under the robot defined by the bottom surface of the chassis and the main tracks. A robot arm is foldable from a stored position in the open channel underneath the robot chassis to a deployed position extending upwards from the top surface of the chassis. A camera assembly may be foldable from a stowed position in the open channel underneath the robot chassis next to the robot arm to a deployed position extending upwards from the top surface of the chassis.Type: ApplicationFiled: July 11, 2019Publication date: November 7, 2019Inventors: David C. Meeker, Timothy J. Mason, Andrew Kirouac, Ryan Wasserman
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Patent number: 10414039Abstract: A remotely controlled packable robot features a chassis with a top surface and a bottom surface, a pair of main tracks for maneuvering the chassis, and an open channel under the robot defined by the bottom surface of the chassis and the main tracks. A robot arm is foldable from a stored position in the open channel underneath the robot chassis to a deployed position extending upwards from the top surface of the chassis. A camera assembly may be foldable from a stowed position in the open channel underneath the robot chassis next to the robot arm to a deployed position extending upwards from the top surface of the chassis.Type: GrantFiled: September 14, 2017Date of Patent: September 17, 2019Assignee: Foster-Miller, Inc.Inventors: David C. Meeker, Timothy J. Mason, Andrew Kirouac, Ryan Wasserman
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Publication number: 20180079073Abstract: A remotely controlled packable robot features a chassis, right and left main tracks for maneuvering the chassis, and right and left tracked rotatable flipper arms for maneuvering the chassis. An integrated drive assembly is provided for each main track and flipper pair and includes a motor in a housing attached to the chassis for rotating the flipper and a stator and rotor disposed about the motor housing for driving the main track and the flipper track.Type: ApplicationFiled: September 14, 2017Publication date: March 22, 2018Inventors: David C. Meeker, Timothy J. Mason, Andrew Kirouac, Ryan Wasserman
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Publication number: 20180079070Abstract: A remotely controlled packable robot features a chassis with a top surface and a bottom surface, a pair of main tracks for maneuvering the chassis, and an open channel under the robot defined by the bottom surface of the chassis and the main tracks. A robot arm is foldable from a stored position in the open channel underneath the robot chassis to a deployed position extending upwards from the top surface of the chassis. A camera assembly may be foldable from a stowed position in the open channel underneath the robot chassis next to the robot arm to a deployed position extending upwards from the top surface of the chassis.Type: ApplicationFiled: September 14, 2017Publication date: March 22, 2018Inventors: David C. Meeker, Timothy J. Mason, Andrew Kirouac, Ryan Wasserman