Standing motion assist device, standing motion assist method, and recording medium

What is claimed is: 1. A standing motion assist device comprising: a support mechanism attached to a leg of a user, the support mechanism supporting the user with motion; a sensor including at least one of a first sensor and a second sensor, the first sensor measuring posture information in accordance with postures of the user and outputting the posture information, the second sensor measuring myoelectric potential information including myoelectric potentials of the user and outputting the myoelectric potential information, the sensor outputting measurement data including at least one of the posture information and the myoelectric potential information; a memory that stores the measurement data; and a processor that controls the support mechanism by using the measurement data stored in the memory, wherein the processor detects a sitting motion of the user sitting in a chair on the basis of the measurement data, wherein the detection of the sitting motion includes a detection of a start of the sitting motion and a detection of an end of the sitting motion, wherein the processor identifies a type of the chair on the basis a first measurement data included in the measurement data and measured after the start of the sitting motion, wherein the processor detects a start of a standing motion of the user standing from the chair on the basis of second measurement data included in the measurement data and measured after the end of the sitting motion, and wherein the processor outputs assist information used to cause the support mechanism to assist the user with the standing motion in accordance with the identified type of the chair. 2. The standing motion assist device according to claim 1 , wherein the myoelectric potential information includes first myoelectric potentials of a muscle included in muscles in the leg of the user. 3. The standing motion assist device according to claim 2 , wherein the measurement data includes the first myoelectric potentials, and wherein the processor detects the start of the sitting motion if a myoelectric potential, included in the first myoelectric potentials, is greater than or equal to a threshold value corresponding to the muscle. 4. The standing motion assist device according to claim 1 , wherein the posture information is at least one of accelerations, angular velocities, and geomagnetisms of an upper body of the user. 5. The standing motion assist device according to claim 4 , wherein the measurement data includes the accelerations, wherein the processor calculates movement distances by which the upper body of the user moves in a vertical direction on the basis of the accelerations, and wherein if a movement distance, included in the movement distances, is greater than or equal to a threshold value, the processor detects the sitting motion. 6. The standing motion assist device according to claim 4 , wherein the measurement data includes the accelerations, wherein the measurement data includes third measurement data and fourth measurement data measured later than the third measurement data, the third measurement data includes first accelerations, the fourth measurement data includes second accelerations, and the accelerations includes the first accelerations and the second accelerations, and wherein if a magnitude of a vertically downward component of an acceleration, included in the first accelerations, is greater than or equal to a first threshold value and a magnitude of a vertically upward component of an acceleration, included in the second acceleration, is greater than or equal o a second threshold value, the processor detects the sitting motion. 7. The standing motion assist device according to claim 1 , wherein the posture information is angular velocities of an upper body of the user, wherein the measurement data includes the angular velocities, wherein the processor calculates trunk forward inclination angles of the user on the basis of the angular velocities, and wherein if myoelectric potentials, included in the myoelectric potentials, increases as time passes within a predetermined time period after a trunk forward inclination angle, included in the trunk forward inclination angles, reaches a value less than a threshold value, the processor detects the start of the sitting motion. 8. The standing motion assist device according to claim 1 , wherein the processor identifies the type of the chair by using at least one of (i) data included in the measurement data and measured for a first duration during which the sitting motion is being performed and (ii) data included in the measurement data and measured for a second duration during which the user remains sitting. 9. The standing motion assist device according to claim 1 , wherein the myoelectric potentials is myoelectric potentials of a muscle in a leg of the user, wherein the measurement data includes the myoelectric potentials of the muscle in the leg of the user, and wherein the processor identifies the type of the chair by determining whether the myoelectric potentials meet a condition which is defined for each of a plurality of types of chairs. 10. The standing motion assist device according to claim 1 , wherein the posture information is accelerations of an upper body of the user, wherein the measurement data includes the accelerations, and wherein after the sitting motion starts, the processor calculates a movement distance by which the upper body of the user moves in a vertical direction on the basis of magnitudes of vertically upward components of the accelerations and identifies the type of the chair in accordance with the movement distance. 11. The standing motion assist device according to claim 1 , wherein the posture information is accelerations of an upper body of the user, wherein the measurement data includes the accelerations, and wherein the processor calculates a maximum rate of change of accelerations in a vertical direction based on accelerations, included in the accelerations, during a predetermined time period from the start of the sitting motion and identifies the type of the chair in accordance with the maximum rate of change. 12. The standing motion assist device according to claim 1 , wherein the posture information is angular velocities of an upper body of the user, wherein the measurement data includes the angular velocities, and wherein the processor calculates trunk forward inclination angles of the user by using first angular velocities, included in the angular velocities, for a duration during which the user is sitting after the sitting motion ends and identifies the type of the chair in accordance with the trunk forward inclination angles. 13. The standing motion assist device according to claim 1 , wherein the second sensor includes two or more myoelectric potential measurement sensors, the two or more myoelectric potential measurement sensors measuring the myoelectric potentials of muscles in the leg of the user, wherein the measurement data includes the myoelectric potentials, and wherein the processor identifies an order in which the muscles start activities thereof on the basis of the myoelectric potentials and detects the start of the sitting motion if the identified order is the same as a predetermined order. 14. The standing motion assist device according to claim 13 , wherein the posture information is angular velocities of the upper body of the user, wherein the measurement data includes the angular velocities of the upper body of the user, and wherein the processor calculates trunk forward inclination angles of the user based on the angular velocities and identi