Abstract: A method and apparatus for automatic charging of electric vehicles in which a plug head of a charging unit is automatically received in a receiving compartment of a vehicle charger actuation device. A push wall of the vehicle charger actuation device is displaced into contact the plug head in a manner that facilitates rotation of the plug head into angular alignment with the plug head receptacle. The charging unit can align a position of the plug head with the plug head receptacle such that continued displacement of the push wall displaces the plug head to a position at which the plug head is electrically coupled to the plug head receptacle. After a charging event, the push wall moves away from the plug head receptacle and engages a pull rod that is coupled to a pin skirt such that the pin skirt is displaced in a direction that ejects the plug head from the plug head receptacle.

Abstract: A method and apparatus for automatic charging of electric vehicles in which a plug head of a charging unit is automatically received in a receiving compartment of a vehicle charger actuation device. A push wall of the vehicle charger actuation device is displaced into contact the plug head in a manner that facilitates rotation of the plug head into angular alignment with the plug head receptacle. The charging unit can align a position of the plug head with the plug head receptacle such that continued displacement of the push wall displaces the plug head to a position at which the plug head is electrically coupled to the plug head receptacle. After a charging event, the push wall moves away from the plug head receptacle and engages a pull rod that is coupled to a pin skirt such that the pin skirt is displaced in a direction that ejects the plug head from the plug head receptacle.

Abstract: Devices, methods and software for automated electrical connector positioning for electric vehicle (EV) charging are provided. Using, for example, the disclosed automatic charging device, a method for charging an EV includes determining receipt of an EV-side electrical connector to a charging zone of an EV charging environment. The method includes actuating a charger-side electrical connector from an initial position outside of the charging zone to a final position inside of the charging zone. The final position corresponds to the charger-side electrical connector matingly engaged with the EV-side electrical connector.

Abstract: A charging station for automatically conductively charging an electric vehicle having an underbody receptacle cavity is provided. When charging, the charging station and the electric vehicle may spaced apart by a linear distance. Other alignment discrepancies may also exist between the electric vehicle and the charging station. To traverse the linear distance and align and insert the plug into the receptacle, the charging station may be capable of moving in multiple translational degrees of freedom.

Abstract: A protective arrangement for an electric vehicle charging system includes a floor unit forming a recess and a linkage disposed in the recess. The linkage is extendable from the recess from a stowed position to an extended position. A cleaning device is disposed to discourage accumulation of debris into the recess and on the linkage when the linkage is in the stowed position.

Abstract: Systems and method for underside charging of electric vehicles (EVs) are provided. With the EV positioned in a charging environment having a ground surface, a floor unit device actuates an electrical connector toward a charge receptacle of an EV vehicle unit, and the vehicle unit actuates the charge receptacle toward the electrical connector. The actuation facilitates coupling between the connector and the charge receptacle. A flow of electrical current is initiated through the coupled connector and charge receptacle to charge the EV power storage device. Upon completion of the EV charging process, the electrical connector and the charge receptacle are actuated away from one another to facilitate decoupling therebetween.

Abstract: Systems, methods and software for mapping locations of cartons are provided. The method includes, for a first carton, assigning a first identifier to the first carton received for positioning in: a pallet space of a pallet, or in a container space of a container. The method includes determining one or more physical properties of the first carton. The method includes associating the one or more physical properties of the first carton with the first identifier. The method includes determining an as-positioned location of the first carton in the pallet space or in the container space. The method includes generating a three-dimensional (3D) map of the pallet space or the container space. The 3D is generated based on: the determined one or more physical properties of the first carton, and the determined as-positioned location of the first carton in the pallet space or in the container space.

Abstract: An in-hand object location system including at least one robotic hand including a plurality of grippers and a body and at least one camera disposed on a periphery surface of the plurality of grippers. The system also includes at least one illumination surface disposed on a periphery surface of the plurality of grippers and at least one tactile sensor disposed in the at least one illumination surface. The at least one robotic hand, the plurality of grippers, the at least one camera, the at least one illumination surface and the at least one tactile sensor are electrically connected to a controller.

Abstract: A system and method of object manipulation and training including providing at least one robotic hand including a plurality of grippers connected to a body and providing a plurality of cameras disposed in a periphery surface of the grippers. The method also includes providing a plurality of tactile sensors disposed in the periphery surface of the grippers and actuating the grippers to grasp an object. The method further includes detecting a position of the object with respect to the robotic hand via a first image feed from the tactile sensors and detecting a position of the object with respect to the robotic hand via a second image feed from the cameras. The method also includes generating instructions to grip and manipulate an orientation of the object based on the first and the second image feeds for a visualization of the object relative to the robotic hand.

Abstract: A method of automated in-hand calibration including providing at least one robotic hand including a plurality of grippers connected to a body and providing at least one camera disposed on a periphery surface of the plurality of grippers. The method also includes providing at least one tactile sensor disposed in the at least one illumination surface and actuating the plurality of grippers to grasp an object. The method further includes locating a position of the object with respect to the at least one robotic hand and calibrating a distance parameter via the at least one camera. The method also includes calibrating the at least one tactile sensor with the at least one camera and generating instructions to grip and manipulate an orientation of the object via an image feed from the at least one camera for a visualization of the object.

Abstract: A connector arrangement for charging an electric vehicle includes a first connector disposed adjacent a slide surface and having a pin extending from the first connector. A second connector has a second connector body and is moveable along the slide surface by a linkage mechanism. A socket extends through the second connector body between two opposed openings, and at least one sensor is associated with the second connector body. The at least one sensor provides information indicative of a location of the second connector body on the slide surface to the linkage mechanism.

Abstract: A deployment system for an inspection vehicle operable in a housing having a liquid medium is disclosed in the present application. The deployment system includes a mount connectable to the housing through an aperture formed in a wall thereof. An extendable arm is connected to the mount and positioned within the housing. A tether is slidably coupled to the extendable arm and adapted to connect with the inspection vehicle. A control mechanism is operable to control deployment of the tether and the position of the extendable arm.

Abstract: Devices, systems, and methods for charging an electric vehicle are disclosed. The system includes a floor unit and a vehicle unit, each having an electrical connector. The method includes positioning the floor unit electrical connector with reference to the mating vehicle unit electrical connector. The method includes inserting the floor unit electrical connector into the mating vehicle unit electrical connector. The method includes initiating an electric vehicle charging process by selectively enabling a flow of electric current from an electric power supply through the matingly coupled vehicle unit and floor unit electrical connectors.

Abstract: A product manipulation tool for interacting with products and containers at, for example, a retail facility can include a securing mechanism to secure an exposed portion of the container with respect to a horizontal surface such as a shelf. The product manipulation tool can also include a stabilizing device to stabilize the container with respect to the horizontal surface prior to securing the container. The product manipulation tool can also include a support structure for insertion underneath the container to support the load. The stabilizing mechanism may lift or tilt the container prior to insertion of the support structure. In an example, the product manipulation tool may be disposed on a mobile unit configured for locomotion about the retail facility.

Abstract: Systems, methods, and software are provided for automated item restocking using gantry robots and establishing safety barriers for retail work operation spaces in retail store environments. Robot controllers in communication with the gantry robots and barrier robots direct the autonomous movements thereof for transferring items between customer-accessible point of sale locations and customer-inaccessible storage, and for alternately restricting and enabling access to work operation spaces, respectively.

Abstract: A submersible inspection device used for inspection of, for example, liquid cooled electrical transformers can include a number of separate cameras for imaging the internal structure of the transformer. The submersible can be configured to communicate to a base station using a number of wireless transmitters and receivers. Signals transmitted to the submersible include command signals useful to effect an action on the submersible but also a heartbeat signal to indicate health of the transmitted signal. A redundant channel selection logic is provided to switch from a channel which no longer receives a heartbeat to another channel that includes a current heartbeat. Multiple signals can be received and evaluated in software, and another signal received via a firmware radio.

Abstract: For training an object picking robot with real and simulated grasp performance data, grasp locations on an object are assigned based on object physical properties. A simulation experiment for robot grasping is performed using a first set of assigned locations. Based on simulation data from the simulation, a simulated object grasp quality of the robot is evaluated for each of the assigned locations. A first set of candidate grasp locations on the object is determined based on data representative of simulated grasp quality from the evaluation. Based on sensor data from an actual experiment for the robot grasping using each of the candidate grasp locations, an actual object grasp quality is evaluated for each of the candidate locations.

Abstract: Systems, methods and software for mapping locations of cartons are provided. The method includes, for a first carton, assigning a first identifier to the first carton received for positioning in: a pallet space of a pallet, or in a container space of a container. The method includes determining one or more physical properties of the first carton. The method includes associating the one or more physical properties of the first carton with the first identifier. The method includes determining an as-positioned location of the first carton in the pallet space or in the container space. The method includes generating a three-dimensional (3D) map of the pallet space or the container space. The 3D is generated based on: the determined one or more physical properties of the first carton, and the determined as-positioned location of the first carton in the pallet space or in the container space.

Abstract: Systems and methods for automatic restocking different items in retail store environments having POS locations for the items are disclosed. The method includes, for a first item of the different items, storing at least one first item parameter uniquely identifying the first item. The method includes determining, based on the at least one first item parameter, a first autonomous movement control scheme for manipulation of the first item by a robotic arm. The method includes executing, by the robotic arm, the first control scheme, the executing including shelving the first item on the shelf. The method includes evaluating, by a processor or a user of the robotic arm, the executing for the first item according to at least one predetermined first performance criteria. The method includes determining and storing, based on the evaluating, an updated first control scheme for subsequent executing by the robotic arm for the first item.

Abstract: Unique systems, methods, techniques and apparatuses of a robot training system are disclosed. One exemplary embodiment is an industrial robot training system comprising a mixed reality display device structured to superimpose a virtual scene on a real-world view of a real-world scene including a plurality of physical objects including an industrial robot, a video input device, and a computing device. The computing device is structured to detect physical objects using video output from the video input device, generate virtual objects using the detected physical objects, simulate a virtual robot path, determine one movement of the series of robot movements causes a collision, adjust the virtual robot path so as to avoid the collision between the two virtual objects of the plurality of virtual objects, and program the industrial robot to perform a real robot path using the adjusted virtual robot path.