A surgery supporting apparatus is capable of controlling a posture of a first surgical instrument that is inserted into a body cavity and mechanically drivable, by using a second surgical instrument to be inserted into the body cavity. The apparatus comprises a robot arm configured to control the posture of the first surgical instrument attached to the robot arm. Instructions stored in a memory cause the apparatus to function as a control unit configured to control the motion of the robot arm such that the posture of the first surgical instrument is controlled in accordance with the posture of the second surgical instrument, in a case of a first mode, and controls the motion of the robot arm in accordance with a manipulation including contact to the robot arm, in a case of a second mode.

Surgical robot systems for remote manipulation having robotic telemanipulators are provided. The surgical robot systems are well adapted for use by the surgeon, seamlessly integrateable into the operation room, allow for a surgeon to work between the robot and the patient throughout a surgery in a sterile manner, are relatively low cost, and/or permit integrated laparoscopy. The system preferably includes a master console having a plurality of master links interconnected by a plurality of master joints, and a handle coupled to the master console for operating the telemanipulator. The system further includes a slave console operatively coupled to the master console and having a plurality of slave links interconnected by a plurality of slave joints that move responsive to movement at the master console to permit an end-effector to perform surgery.

A motion dependency surgical robotic system (100) employs an independent robotic arm (20) including a first surgical instrument, a dependent robotic arm (21) including a second surgical instrument, and a motion dependency robot controller (104). In operation, the motion dependency robot controller (104) controls an independent motion of the independent robotic arm (20) within a coordinate space responsive to an input signal indicative of the motion of the independent robotic arm (20) within the coordinate space, and further controls a motion of the dependent robotic arm (21) within the coordinate space as a function of a spatial geometric relationship between the independent robotic arm (20) and the dependent robotic arm (21) within the coordinate space. The spatial geometric relationship defines a procedural synchronization between the independent robotic arm (20) and the dependent robotic arm (21) in a synchronized execution of a surgical task by the surgical instruments.

Surgical robot systems for remote manipulation having robotic telemanipulators are provided. The surgical robot systems are well adapted for use by the surgeon, seamlessly integratable into the operation room, allow for a surgeon to work between the robot and the patient throughout a surgery in a sterile manner, are relatively low cost, and/or permit integrated laparoscopy. The system preferably includes a master console having a plurality of master links interconnected by a plurality of master joints, and a handle coupled to the master console for operating the telemanipulator. The system further includes a slave console operatively coupled to the master console and having a plurality of slave links interconnected by a plurality of slave joints that move responsive to movement at the master console to permit an end-effector to perform surgery.

Surgical robot systems for remote manipulation having robotic telemanipulators are provided. The surgical robot systems are well adapted for use by the surgeon, seamlessly integratable into the operation room, allow for a surgeon to work between the robot and the patient throughout a surgery in a sterile manner, are relatively low cost, and/or permit integrated laparoscopy. The system preferably includes a master console having a plurality of master links interconnected by a plurality of master joints, and a handle coupled to the master console for operating the telemanipulator. The system further includes a slave console operatively coupled to the master console and having a plurality of slave links interconnected by a plurality of slave joints that move responsive to movement at the master console to permit an end-effector to perform surgery.

A medical manipulator system includes: a first manipulator configured to change a position of an imaging section that images a target portion in a body; a second manipulator configured to change a position of an end effector that treats the target portion; a display section configured to display images from the imaging section; an operation section configured to generate an operation command for operating the first manipulator or the second manipulator; and a control section configured to select one of a plurality of control modes and control the first manipulator or the second manipulator based on the operation command.

Surgical robot systems for remote manipulation having robotic telemanipulators are provided. The surgical robot systems are well adapted for use by the surgeon, seamlessly integrateable into the operation room, allow for a surgeon to work between the robot and the patient throughout a surgery in a sterile manner, are relatively low cost, and/or permit integrated laparoscopy. The system preferably includes a master console having a plurality of master links interconnected by a plurality of master joints, and a handle coupled to the master console for operating the telemanipulator. The system further includes a slave console operatively coupled to the master console and having a plurality of slave links interconnected by a plurality of slave joints that move responsive to movement at the master console to permit an end-effector to perform surgery.

A motion dependency surgical robotic system (100) employs an independent robotic arm (20), a dependent robotic arm (21), and a motion dependency robot controller (104). In operation, the motion dependency robot controller (104) controls an independent motion of the independent robotic arm (20) within a coordinate space responsive to an input signal indicative of the motion of the independent robotic arm (20) within the coordinate space, and further controls a motion of the dependent robotic arm (21) within the coordinate space as a function of a spatial geometric relationship between the independent robotic arm (20) and the dependent robotic arm (21) within the coordinate space.

Surgical robot systems for remote manipulation having robotic telemanipulators are provided. The surgical robot systems are well adapted for use by the surgeon, seamlessly integrateable into the operation room, allow for a surgeon to work between the robot and the patient throughout a surgery in a sterile manner, are relatively low cost, and/or permit integrated laparoscopy. The system preferably includes a master console having a plurality of master links interconnected by a plurality of master joints, and a handle coupled to the master console for operating the telemanipulator. The system further includes a slave console operatively coupled to the master console and having a plurality of slave links interconnected by a plurality of slave joints that move responsive to movement at the master console to permit an end-effector to perform surgery.