A hermetically sealed multi-axis articulated arm apparatus for use within a sealable isolator chamber comprises a rotational shaft that passes through an opening in the chamber, a sealing member disposed within the chamber for sealing the shaft to an inner surface of the chamber, a plurality of interconnected hermetically sealed arm segments, operably attached to the linear motion shaft; an end effector operably attached to a terminal arm segment among the plurality of arm segments, and at least one fully enclosed drive system for driving and controlling the shaft and the plurality of arm segments. The linear motion shaft may have a sealing member in the form of a bellows. The materials for the parts of the apparatus exposed to the atmosphere of the chamber are compatible with an aseptic and cleanable environment and the surfaces of the arm segments are shaped to avoid pooling of contaminants.

A hermetically sealed multi-axis articulated arm apparatus for use within a sealable isolator chamber comprises a rotational shaft that passes through an opening in the chamber, a sealing member disposed within the chamber for sealing the shaft to an inner surface of the chamber, a plurality of interconnected hermetically sealed arm segments, operably attached to the linear motion shaft; an end effector operably attached to a terminal arm segment among the plurality of arm segments, and at least one fully enclosed drive system for driving and controlling the shaft and the plurality of arm segments. The linear motion shaft may have a sealing member in the form of a bellows. The materials for the parts of the apparatus exposed to the atmosphere of the chamber are compatible with an aseptic and cleanable environment and the surfaces of the arm segments are shaped to avoid pooling of contaminants.

A multi-degree-of-freedom continuum robot with a flexible target grasping function comprises a driving device module, a trunk simulation module and a nimble finger module. The trunk simulation module is composed of a rotary compression module and a bending compression module. Each module has a unified connection interface reserved at the end, and is combined and assembled according to actual needs. The driving module is arranged on the base of the robot to realize the driving operation of all cables to control the motion of the robot. The rotary compression module can simultaneously generate the motion in the forms of rotation and compression, thereby compensating for the defect of blind angle of the bending compression module. The bending compression module can realize compression deformation and bending deformation of the module independently. The nimble finger module realizes a grasping function by multi-finger collaboration.

A hermetically sealed multi-axis articulated arm apparatus for use within a sealable isolator chamber is disclosed. In one general aspect, it comprises a rotational shaft that passes through an opening in the chamber, a sealing member disposed within the chamber for sealing the shaft to an inner surface of the chamber, interconnected hermetically sealed arm segments operably attached to the linear motion shaft; an end effector operably attached to a terminal arm segment among the arm segments, and at least one fully enclosed drive system for driving and controlling the shaft and the arm segments. The rotational shaft can further be a linear motion shaft for which the sealing member is a bellows. The materials for the parts of the apparatus exposed to the atmosphere of the chamber can be compatible with an aseptic and cleanable environment and the surfaces of the arm segments can be shaped to avoid pooling of contaminants.

Adaptable and customizable truss-like robots are provided. The robotic truss has robotic roller modules configured to translate along one or more pliable member and therewith control the shape or design of the robot.

A robot for capturing image frames of subjects in response to a request includes a base, a robot head, a camera, a vertical positioning mechanism, and a control system. The base has a transport mechanism for controllably positioning the robot along a lateral surface. The vertical positioning mechanism couples the robot head to the base and adjusts a vertical distance between the robot head and the support surface. The control system controls image capture of the camera, the transport mechanism, and the vertical positioning mechanism.

A hermetically sealed multi-axis articulated arm apparatus for use within a sealable isolator chamber comprises a rotational shaft that passes through an opening in the chamber, a sealing member disposed within the chamber for sealing the shaft to an inner surface of the chamber, a plurality of interconnected hermetically sealed arm segments, operably attached to the linear motion shaft; an end effector operably attached to a terminal arm segment among the plurality of arm segments, and at least one fully enclosed drive system for driving and controlling the shaft and the plurality of arm segments. The linear motion shaft may have a sealing member in the form of a bellows. The materials for the parts of the apparatus exposed to the atmosphere of the chamber are compatible with an aseptic and cleanable environment and the surfaces of the arm segments are shaped to avoid pooling of contaminants.

A robotics camera system includes a camera robot that is in wireless communication with a robot cloud server through a cloud network such as the Internet. A user having a mobile device desires to utilize a particular camera robot. The user mobile device may wirelessly communicate with the camera robot either directly or indirectly, through the cloud network. User interaction with the camera robot may be to initiate a photo session and/or to have the camera robot follow the user through a venue. In some embodiments the user initiates the interaction through a social media platform. In some embodiments the user initiates the interaction by utilizing a designated application that runs upon the user's mobile device. In some embodiments the user initiates the interaction with the use of a two-dimensional machine-readable code element. In some embodiments the user initiates an interaction with a plurality of robots that work collaboratively.

A robot for parking a vehicle is provided. The robot for parking a vehicle according to an aspect of the present disclosure, which lifts a vehicle having a pair of first wheels and a pair of second wheels to park in a parking lot, may include a first module for lifting the pair of first wheels by moving to the side of a first direction as a direction in which the rotation shafts of the pair of first wheels of the vehicle extend; a second module which is disposed on the side of a second direction as a direction from the pair of first wheels of the first module toward the pair of second wheels and lifts the pair of second wheels by moving toward the side of the first direction of the pair of second wheels of the vehicle; a connection link for connecting the first module and the second module; and a controller for controlling the first module and the second module.

A manipulator includes a mount member, a base member with threaded openings and an aperture, two links, and an output member with threaded openings and an aperture. The manipulator also includes three motors mounted to the mount member and three drive trains connected to the motors, respectively.