Motion assist device and motion assist method, computer program, and program recording medium

The invention claimed is: 1. A device comprising: a link structure formed with a plurality of joints and a plurality of links connecting the joints; an actuator that actuates the joints through torque control; a joint value measuring device configured to measure a joint value of the joints; a torque measuring device configured to measure an external torque acting on the joints; and circuitry configured to determine an actuator torque for the actuator based on the joint value measured by the joint value measuring device, and perform torque control on the actuator based on the actuator torque, the joint value measured by the joint value measuring device, and the external torque measured by the torque measuring device, wherein the circuitry is configured to determine a command torque for the actuator by correcting a torque target value with a disturbance torque when the actuator is actuated with the actuator torque, the torque target value being derived from a joint value acceleration target value that is based on the actuator torque, the joint value, and the external torque. 2. The device according to claim 1 , wherein the circuitry is further configured to determine the actuator torque that reduces load on joints of a human body having the link structure attached thereto. 3. The device according to claim 1 , wherein the circuitry is further configured to determine the actuator torque that makes acceleration of the joints zero. 4. The device according to claim 1 , further comprising a posture measuring device configured to measure a tilt of part of the link structure, wherein the circuitry is further configured to determine the actuator torque by using a dynamics model of the link structure and a human body having the link structure attached thereto, the dynamics model reflecting the tilt measured by the posture measuring device and the joint value measured by the joint value measuring device. 5. The device according to claim 4 , wherein the circuitry is further configured to determine the actuator torque that cancels or reduces load on joints of the human body having the link structure attached thereto. 6. The device according to claim 5 , further comprising a contact measuring device configured to measure a contact state at a contact site where the link structure is assumed to be in contact with an outside surface, wherein the circuitry is further configured to determine the actuator torque based on the contact state at the contact site measured by the contact measuring device. 7. The device according to claim 6 , wherein the circuitry is further configured to determine the actuator torque by using quadratic programming, the actuator torque satisfying a purpose of motion of the link structure and a constraint condition imposed on the link structure. 8. The device according to claim 1 , wherein the circuitry is further configured to perform the torque control on the actuator, to cause the joints to make an ideal quadratic response to the actuator torque and the external torque measured by the torque measuring device. 9. The device according to claim 1 , wherein the circuitry is further configured to calculate the disturbance torque τ d when the actuator is actuated with the actuator torque τ A , and corrects the torque target value τ ref with the disturbance torque τ d obtained by a disturbance observer in a previous control cycle to determine the command torque τ e for the actuator in a current control cycle, the torque target value τ ref being obtained by multiplying the joint value acceleration target value by a nominal value J n of inertia in the joints, the joint value acceleration target value being obtained from a theoretical response model that is output by determining the joint value acceleration target value to be achieved when the actuator responds based on the torque τ A , the external torque τ e , and a joint value velocity obtained by temporally differentiating the joint value q. 10. A method comprising: measuring a joint value of joints in a link structure formed with a plurality of joints and a plurality of links connecting the joints; measuring an external torque acting on the joints; determining an actuator torque for an actuator based on the measured joint value; performing torque control on the actuator based on the actuator torque, the measured joint value, and the measured external torque; and determining a command torque for the actuator by correcting a torque target value with a disturbance torque when the actuator is actuated with the actuator torque, the torque target value being derived from a joint value acceleration target value that is based on the actuator torque, the joint value, and the external torque. 11. A non-transitory computer readable medium having stored thereon a program written in a computer-readable format that when executed by a computer causes the computer to carry out a method comprising: acquiring a joint value of joints in a link structure formed with a plurality of joints and a plurality of links connecting the joints; acquiring an external torque acting on the joints; determining an actuator torque for an actuator based on the measured joint value; performing torque control on the actuator based on the actuator torque, the acquired joint value, and the acquired external torque; and determining a command torque for the actuator by correcting a torque target value with a disturbance torque when the actuator is actuated with the actuator torque, the torque target value being derived from a joint value acceleration target value that is based on the actuator torque, the joint value, and the external torque. 12. A non-transitory computer readable medium having stored thereon a program written in a computer-readable format that when executed by a computer causes the computer to carry out a method comprising: measuring a joint value of joints in a link structure formed with a plurality of joints and a plurality of links connecting the joints; measuring an external torque acting on the joints; determining an actuator torque for an actuator based on the measured joint value; performing torque control on the actuator based on the actuator torque, the measured joint value, and the measured external torque; and determining a command torque for the actuator by correcting a torque target value with a disturbance torque when the actuator is actuated with the actuator torque, the torque target value being derived from a joint value acceleration target value that is based on the actuator torque, the joint value, and the external torque.