Abstract: The gait rehabilitation control system according to the present invention comprises an operation device unit for setting gait training mode of a patient and displaying gait state information of the patient; a gait device unit worn on the patient's feet so as to move along with the gait motion of the patient; and a control unit for driving the gait device unit according to the gait training mode set by the operation device unit, wherein the control unit comprises a gait pattern analysis unit for measuring reaction force between the patient's feet and the gait device unit, and analyzing the gait pattern of the patient with the data of the reaction force.

Abstract: A surgical path setting method, for a surgical robot, comprises the steps of (a) the surgical robot's operating a first surgical path that has been preset with respect to a surgical site of a person to be operated on; (b) the surgical robot's confirming whether or not a surgical path reset command, transmitted from a surgical path setting device, has been received; (c) the surgical robot's stopping if the surgical path reset command has been received; (d) the surgical path setting device's receiving an input of surgical path form information; (e) the surgical path setting device's determining a second surgical path, which is a new surgical path, on the basis of the surgical path form information and then transmitting same to the surgical robot; and (f) the surgical robot's operating along the second surgical path.

Abstract: Disclosed is a medical intervention apparatus. The medical intervention apparatus includes a needle rotation unit configured to include a first needle rotation member, a second needle rotation member that is disposed to be separated from the first needle rotation member, and a first driver that drives the first and second needle rotation members to rectilinearly move in opposite directions and a needle insertion unit configured to insert a needle, which is inserted between the first needle rotation member and the second needle rotation member, into a target.

Abstract: The present invention relates to a system and method for identifying position of marker for orthopedic surgery, wherein the system comprises a main sensor and an auxiliary sensor having different sensing schemes, so that during orthopedic surgery, it is possible to flexibly handle a situation where a single sensor fails or a sensing signal cannot be received, thereby accurately identifying the position and posture of a marker.

Abstract: Disclosed is a medical intervention apparatus. The medical intervention apparatus includes a needle rotation unit configured to include a first needle rotation member, a second needle rotation member that is disposed to be separated from the first needle rotation member, and a first driver that drives the first and second needle rotation members to rectilinearly move in opposite directions and a needle insertion unit configured to insert a needle, which is inserted between the first needle rotation member and the second needle rotation member, into a target.

Abstract: A seating-type rehabilitation robot for walking, comprising: a weight supporting part comprising an elevating and lowering part which is connected to a vertical supporting part and moves up and down, and a seating part which is connected to the elevating and lowering part, and supporting a trainee who sits on the seating part; and a walk actuating part which is connected to the weight supporting part and is installed on the ground, with weight supporting links which are connected to footrests to train the walking of the trainee and which are separately mounted side by side on both side thereof, the walk actuating part comprising first actuating part for forward and backward movement according to the walk tracking of each footrests, second actuating part for upward and downward movements of the footrest caused by rotation of the weight supporting links, and third actuating part for rotation of the footrests.

Abstract: A surgical path setting method, for a surgical robot, comprises the steps of (a) the surgical robot's operating a first surgical path that has been preset with respect to a surgical site of a person to be operated on; (b) the surgical robot's confirming whether or not a surgical path reset command, transmitted from a surgical path setting device, has been received; (c) the surgical robot's stopping if the surgical path reset command has been received; (d) the surgical path setting device's receiving an input of surgical path form information; (e) the surgical path setting device's determining a second surgical path, which is a new surgical path, on the basis of the surgical path form information and then transmitting same to the surgical robot; and (f) the surgical robot's operating along the second surgical path.

Abstract: The aid robot for transporting according to the present invention comprises a driving portion driven electrically by operating a switch; an elevating portion which is coupled to the driving portion and of which a height is adjustable; and a weight support portion which is coupled to the elevating portion so that a tilt of the weight support portion is adjustable, and formed so that its width become narrower and then wider reversely towards the bottom to piggyback the user, wherein the weight support portion comprises a support part at the bottom where the user's bottom is seated, and a wing part at the top for supporting the user's armpits. According to the aid robot for transporting, the weight support portion has a structure that the user can be easily piggybacked thereby reducing time to seat on.

Abstract: Disclosed is a medical intervention apparatus. The medical intervention apparatus includes a needle rotation unit configured to include a first needle rotation member, a second needle rotation member that is disposed to be separated from the first needle rotation member, and a first driver that drives the first and second needle rotation members to rectilinearly move in opposite directions and a needle insertion unit configured to insert a needle, which is inserted between the first needle rotation member and the second needle rotation member, into a target.

Abstract: The gait rehabilitation control system according to the present invention comprises an operation device unit for setting gait training mode of a patient and displaying gait state information of the patient; a gait device unit worn on the patient's feet so as to move along with the gait motion of the patient; and a control unit for driving the gait device unit according to the gait training mode set by the operation device unit, wherein the control unit comprises a gait pattern analysis unit for measuring reaction force between the patient's feet and the gait device unit, and analyzing the gait pattern of the patient with the data of the reaction force.

Abstract: Disclosed is a method for detecting positions of body tissues and an apparatus using the method. The apparatus according to the present invention comprises a surgery information storage unit storing an examined first image associated with a target bone of surgery, a position measuring unit measuring position values of multiple points on a surface of the target bone of surgery before and after cutting, and a registration control unit for acquiring a second image regarding the remained bone after cutting by applying the shape of the bone changed according to the progression of bone cutting to the first image, and for performing position registration with respect to the second image by using the position values of multiple points on surface of the target bone of surgery after cutting, which is measured by the position measuring unit.

Abstract: The present invention aims to provide a cutting apparatus of a cutting system using a robot for reducing the damage and interference of a bone, a muscle and a surrounding soft tissue on operating and improving durability by minimizing the diameter of the sleeve while improving the rigidity against the bending and not generating the chattering of the shaft.

Abstract: A cutting apparatus for joint cutting system using robot includes a shaft combined with a motor in a part of a robot arm, a cutter having a cutting head at the end of the shaft, a sleeve in which the shaft is inserted, and a cutter support member having a sleeve base where the sleeve is fixed, characterized in that the sleeve is a standalone member of a hollow bar with a center hole and is separable from and combinable with the sleeve base. The sleeve and the sleeve base are so separable that it is possible to reinforce the strength of the sleeve, which retrains the bending force to the sleeve, though the diameter of the sleeve is minimized.