A manipulator, including: a drive unit for generating a driving force, and a treatment tool that is driven by the drive unit and attachable to and detachable from the drive unit, wherein the treatment tool includes: a distal end having at least one joint driven by the drive unit, a lock unit that is actuated to lock at least one of joints at the distal end, a lock-operating unit for operating the lock unit, and a control unit that is operated such that the lock unit is operated by the lock-operating unit and such that when the drive unit is driven, the drive unit is deactivated, and even with the treatment tool detached from the drive unit, the lock unit keeps on with locking.

In an apparatus for controlling the positioning of an object having a specified point, a first limiter establishes a movable range of the specified point of the object, and limits movement of the specified point of the object within the movable range. The movable range includes a line connecting the position of the specified point of the object and a target position for the specified point of the object. A second limiter limits change of a specified orientation of the object from increasing an angular difference between the specified orientation of the object a target orientation for the specified orientation of the object.

In an apparatus for controlling the positioning of an object having a specified point, a first limiter establishes a movable range of the specified point of the object, and limits movement of the specified point of the object within the movable range. The movable range includes a line connecting the position of the specified point of the object and a target position for the specified point of the object. A second limiter limits change of a specified orientation of the object from increasing an angular difference between the specified orientation of the object a target orientation for the specified orientation of the object.

A correction jig of a medical master-slave manipulator system limits a straight state of a master manipulator, in a state where the correction jig is attached to the master manipulator.

A correction jig of a medical master-slave manipulator system limits a straight state of a master manipulator, in a state where the correction jig is attached to the master manipulator.

Surgical robotic systems including a user console for controlling a robotic arm or a surgical robotic tool are described. The user console includes components designed to automatically adapt to anthropometric characteristics of a user. A processor of the surgical robotic system is configured to receive anthropometric inputs corresponding to the anthropometric characteristics and to generate an initial console configuration of the user console based on the inputs using a machine learning model. Actuators automatically adjust a seat, a display, or one or more pedals of the user console to the initial console configuration. The initial console configuration establishes a comfortable relative position between the user and the console components. Other embodiments are described and claimed.

Provided is an operation input device for inputting an operation command to a medical manipulator having a distal-end-side moving portion having at least one joint on a distal end and a proximal-end-side moving portion that is connected to a proximal-end side of the distal-end-side moving portion and moves the distal-end-side moving portion, and the operation input device includes a first operation portion that generates a moving command for driving the distal-end-side moving portion in accordance with an operation command input with a palm or a finger and a second operation portion that is linked to the first operation portion and generates the moving command for driving the proximal-end-side moving portion in accordance with an operation command input with a wrist or an arm.

A teleoperated robotic system that includes master control arms, slave arms, and a mobile platform. In use, a user manipulates the master control arms to control movement of the slave arms. The teleoperated robotic system can include two master control arms and two slave arms. The master control arms and the slave arms can be mounted on the platform. The platform can provide support for the master control arms and for a teleoperator, or user, of the robotic system. Thus, a mobile platform can allow the robotic system to be moved from place to place to locate the slave arms in a position for use. Additionally, the user can be positioned on the platform, such that the user can see and hear, directly, the slave arms and the workspace in which the slave arms operate.

A teleoperated robotic system that includes master control arms, slave arms, and a mobile platform. In use, a user manipulates the master control arms to control movement of the slave arms. The teleoperated robotic system can include two master control arms and two slave arms. The master control arms and the slave arms can be mounted on the platform. The platform can provide support for the master control arms and for a teleoperator, or user, of the robotic system. Thus, a mobile platform can allow the robotic system to be moved from place to place to locate the slave arms in a position for use. Additionally, the user can be positioned on the platform, such that the user can see and hear, directly, the slave arms and the workspace in which the slave arms operate.

A robot control system has a jointed mechanism with sensors and actuators in a rotatable sphere, tracks movements of a person engaged in the jointed mechanism through the sensors, as commands causing movement of a robot machine, which also has sensors and actuators mirroring the sensors and actuators of the jointed mechanism. The robot machine sends activity data back to influence actuators at the jointed mechanism, providing tactile feedback to the person engaged in the jointed mechanism.