Abstract: Underactuated robotic manipulators may include a plurality of links rotatably or rigidly coupled to one another at a plurality of joints. The links may include driven links that are driven to grasp an object to be held, driving links that are actuated by an actuator to drive movement of the driven links, and a plurality of connecting links that couple the driving links to the driven links. Such manipulators may include a plurality of driven links and associated touch points, and a plurality of independent degrees of freedom, and be driven by a single actuator, making them underactuated.

Abstract: The present disclosure generally relates to a robotic gripping system and method that utilizes vacuum suction and finger grasping, wherein the suction and grasping are actuated based on a dynamic collision model. In an exemplary embodiment, the present disclosure is directed to generating collision scenes of a surrounding environment which is used to determine possible collisions in a motion path, and which is used to selectively actuate the vacuum suction and/or finger grasping.

Abstract: The present disclosure generally relates to a robotic gripping system and method that utilizes vacuum suction and finger grasping, wherein the suction and grasping are actuated based on a dynamic collision model. In an exemplary embodiment, the present disclosure is directed to generating collision scenes of a surrounding environment which is used to determine possible collisions in a motion path, and which is used to selectively actuate the vacuum suction and/or finger grasping.

Abstract: Systems and methods for identifying an object being extracted from or moved among a plurality of objects in a designated area, the plurality of objects equipped with transponders that emit a reply signal encoding an identifier. A set of antennas proximately located to the designated area are controlled to emit interrogation signals that cause the transponders to emit the reply signal in response. Sets of information are obtained regarding the reply signals received by the set of antennas, the reply signals including an indication of a signal characteristic and an identifier particular to the type of the object. The sets of information are analyzed to identify an identifier of the object being extracted based on fluctuations in the signal characteristic relative to the plurality of objects. One or more operations may be performed involving the object based on identification of the identifier.

Abstract: A tool changer at a distal end of a robotic arm may include a proximal engagement plate and a tool may include a distal engagement plate magnetically engaged with the proximal engagement plate. The tool changer may be configured to magnetically engage and disengage with a variety of tools as different tools are needed for operations being performed by the robotic arm. Decisions regarding which tools to couple to the tool changer may be made on-the-fly and based on changing circumstances as the robotic arm is used to operate on objects.

Abstract: One or more embodiments of the present disclosure relate generally to the field of robotic gripping systems, and in particular to electromagnetic shielding of Radio Frequency Identification (RFID) devices in order to prevent unwanted wireless exchange of data between RFID tags and remote transceivers, such as a RFID readers. In one or more exemplary embodiments, the shielding is utilized within a sort station or pick-and-place environment where a robotic gripper is operating.

Abstract: A robotic manipulator includes a first stage, a second stage, a third stage, and an actuator that actuates movement of the second stage with respect to the first stage. Movement of the second stage with respect to the first stage passively drives movement of the third stage with respect to the second stage. In some embodiments, the passive driving is achieved using one or more cables. In other embodiments, the passive driving is achieved using rack and pinion components. The robotic manipulator may further include additional stages, wherein movement of preceding stages passively drives movement of succeeding stages.

Abstract: Underactuated robotic manipulators may include a plurality of links rotatably or rigidly coupled to one another at a plurality of joints. The links may include driven links that are driven to grasp an object to be held, driving links that are actuated by an actuator to drive movement of the driven links, and a plurality of connecting links that couple the driving links to the driven links. Such manipulators may include a plurality of driven links and associated touch points, and a plurality of independent degrees of freedom, and be driven by a single actuator, making them underactuated.

Abstract: One or more embodiments of the present disclosure relate generally to the field of robotic gripping systems, and in particular to electromagnetic shielding of Radio Frequency Identification (RFID) devices in order to prevent unwanted wireless exchange of data between RFID tags and remote transceivers, such as a RFID readers. In one or more exemplary embodiments, the shielding is utilized within a sort station or pick-and-place environment where a robotic gripper is operating.

Abstract: Systems and methods for identifying an object being extracted from or moved among a plurality of objects in a designated area, the plurality of objects equipped with transponders that emit a reply signal encoding an identifier. A set of antennas proximately located to the designated area are controlled to emit interrogation signals that cause the transponders to emit the reply signal in response. Sets of information are obtained regarding the reply signals received by the set of antennas, the reply signals including an indication of a signal characteristic and an identifier particular to the type of the object. The sets of information are analyzed to identify an identifier of the object being extracted based on fluctuations in the signal characteristic relative to the plurality of objects. One or more operations may be performed involving the object based on identification of the identifier.

Abstract: The present disclosure generally relates to a robotic gripping system and method that utilizes vacuum suction and finger grasping, wherein the suction and grasping are actuated based on a dynamic collision model. In an exemplary embodiment, the present disclosure is directed to generating collision scenes of a surrounding environment which is used to determine possible collisions in a motion path, and which is used to selectively actuate the vacuum suction and/or finger grasping.