A robot including an end-effector and a robot arm having a proximal link, a distal link, and a joint assembly for controlling the relative position of the two links. The joint assembly includes an actuated linkage joint including a pair of stops and a passive linkage joint including a mechanical positioner for the end-effector located between the stops. The pair of stops are configured to constrain movement of the mechanical positioner to thereby constrain the ability of a user to manipulate the end-effector outside a predetermined range of motion and permit movement of the end-effector within the predetermined range of motion. The drive mechanism is configured to control a location of at least one stop of the pair of stops based on a position of a virtual object in a virtual space. The joint assembly is one of a prismatic joint assembly and a revolute joint assembly.

One aspect of the present invention provides a robot controller for end portion control of a multi-degree-of-freedom robot. The robot controller comprises: a first control interface, which is positioned at a first position around the robot end portion and receives a first control input for at least for directions; a second control interface, which is positioned at a second position around the robot end portion and receives a second control input for at least four directions; and an encoder, which interprets the combination of the first and second control inputs as a third control input about the robot end portion and provides the robot with a signal according to the third control input.

An operator telerobotically controls tools to perform a procedure on an object at a work site while viewing real-time images of the work site on a display. Tool information is provided in the operator's current gaze area on the display by rendering the tool information over the tool so as not to obscure objects being worked on at the time by the tool nor to require eyes of the user to refocus when looking at the tool information and the image of the tool on a stereo viewer.

The present invention relates to a method and to a device for defining a movement sequence for a multi-axis manipulator of a robot system, which manipulator has a plurality of elements which form different rotational axes, and an end element for interaction with an effector, wherein the effector is intended to carry out at least one arbitrary operation in a working space, and wherein in order to carry out the at least one arbitrary operation the end element of the manipulator is to be transferred into an arbitrary target pose with respect to the working space, wherein the manipulator moves in a plurality of steps to the target pose while approaching the end element, and for each step at least one defined impedance pattern and/or admittance pattern is defined with respect to at least one axis which forms the axis of a coordinate system which is linked to the manipulator.

A surgical system includes a surgical device, a surgical tool coupled to the surgical device, a user interface, and a control system. The control system is configured to identify a target point or target region of an anatomy of a patient, generate a virtual object based on the target point or target region, the virtual object comprising a funnel-shaped boundary having a central axis substantially aligned with the target point or target region, and control the surgical device to constrain the surgical tool from penetrating the funnel-shaped boundary.

An operator telerobotically controls tools to perform a procedure on an object at a work site while viewing real-time images of the work site on a display. Tool information is provided in the operator's current gaze area on the display by rendering the tool information over the tool so as not to obscure objects being worked on at the time by the tool nor to require eyes of the user to refocus when looking at the tool information and the image of the tool on a stereo viewer.

A method for joint replacement is provided. A representation of a first bone is created, and a representation of a second bone is created. Bone preparation for implanting a first implant on the first bone is planned. The first bone to receive the first implant is prepared by manipulating a surgical tool to sculpt the first bone. Bone preparation for implanting a second implant on the second bone after preparing the first bone is planned. The second bone to receive the second implant is prepared by manipulating the surgical tool to sculpt the second bone.

A synthetic representation of a robot tool for display on a user interface of a robotic system. The synthetic representation may be used to show the position of a view volume of an image capture device with respect to the robot. The synthetic representation may also be used to find a tool that is outside of the field of view, to display range of motion limits for a tool, to remotely communicate information about the robot, and to detect collisions.

A surgical system includes a robotic device, and a surgical tool coupled to the robotic device and comprising a distal end. The system further includes a neural monitor configured to generate an electrical signal and apply the electrical signal to the distal end of the surgical tool, wherein the electrical signal causes innervation of a first portion of a patient's anatomy which generates an electromyographic signal, and a sensor configured to measure the electromyographic signal. The neural monitor is configured to determine a distance between the distal end of the surgical tool and a portion of nervous tissue based on the electrical signal and the electromyographic signal, and cause feedback to be provided to a user based on the distance.

The various embodiments herein relate to robotic surgical systems and devices that use force and/or torque sensors to measure forces applied at various components of the system or device. Certain implementations include robotic surgical devices having one or more force/torque sensors that detect or measure one or more forces applied at or on one or more arms. Other embodiments relate to systems having a robotic surgical device that has one or more sensors and an external controller that has one or more motors such that the sensors transmit information that is used at the controller to actuate the motors to provide haptic feedback to a user.