Optimum elastic strength calculation device, optimum elastic strength calculation system, motion assistance system, optimum elastic strength calculation method, and optimum elastic strength calculation program recording medium

1 . An optimum elastic strength calculation device comprising: a storage unit configured to preliminarily store an elastic strength and kinematic property obtained through experiments in a state where an elastic orthotic device for assisting an action of an orthotics user is worn on bodies of a plurality of people; and an optimization problem processing unit configured to calculate an optimum elastic strength of the elastic orthotic device based on a predetermined evaluation index using a kinematic constraint condition of the orthotics user and the elastic strength and kinematic property. 2 . The optimum elastic strength calculation device as claimed in claim 1 , wherein the elastic strength and kinematic property comprises a predictive value of a walking speed, a predictive value of a maximum bending angle of a joint, a predictive value of a maximum extension angle of the joint, a predictive value of a maximum joint moment of the joint, and a predictive value of a maximum muscle activity amount of a muscle which are obtained through the experiments in the state where the elastic orthotic device is worn on the bodies of the plurality of people. 3 . The optimum elastic strength calculation device as claimed in claim 1 , wherein the kinematic constraint condition comprises a kinematic condition to be satisfied by a pedestrian as the orthotics user during the action. 4 . The optimum elastic strength calculation device as claimed in claim 1 , wherein the predetermined evaluation index comprises one selected from the group consisting of a first index for maximizing the walking speed of the orthotics user, a second index for maximizing a range of joint motion, a third index for minimizing the maximum joint moment, and a fourth index obtained as a weighted average of the first through the third indexes. 5 . An optimum elastic strength calculation system comprising: an input device configured to input a kinematic constraint condition of an orthotics user; the optimum elastic strength calculation device claimed in claim 1 ; and a display device configured to output the optimum elastic strength. 6 . A motion assistance system comprising: an elastic orthotics device which is configured to be worn on a body of an orthotics user to assist an action of the orthotics user; an input device configured to input a kinematic constraint condition of the orthotics user; the optimum elastic strength calculation device claimed in claim 1 ; and an adjustment device configured to adjust, in response to the optimum elastic strength, an elastic strength of the elastic orthotic device. 7 . An optimum elastic strength calculating method comprising: preliminarily storing an elastic strength and kinematic property which is obtained through experiments in a state where an elastic orthotic device for assisting an action of an orthotics user is worn on bodies of a plurality of people; and calculating an optimum elastic strength of the elastic orthotic device based on a predetermined evaluation index using a kinematic constraint condition of the orthotics user and the elastic strength and kinematic property. 8 . The optimum elastic strength calculation method as claimed in claim 7 , wherein the elastic strength and kinematic property comprises a predictive value of a walking speed, a predictive value of a maximum bending angle of a joint, a predictive value of a maximum extension angle of the joint, a predictive value of a maximum joint moment of the joint, and a predictive value of a maximum muscle activity amount of a muscle which are obtained through the experiments in the state where the elastic orthotic device is worn on the bodies of the plurality of people. 9 . The optimum elastic strength calculation method as claimed in claim 7 , wherein the kinematic constraint condition comprises a kinematic condition to be satisfied by a pedestrian as the orthotics user during the action. 10 . The optimum elastic strength calculation method as claimed in claim 7 , wherein the predetermined evaluation index comprises one selected from the group consisting of a first index for maximizing the walking speed of the orthotics user, a second index for maximizing a range of joint motion, a third index for minimizing the maximum joint moment, and a fourth index obtained as a weighted average of the first through the third indexes. 11 . A non-transitory optimum elastic strength calculation program recording medium for recording an optimum elastic strength calculation program to cause a computer to calculate an optimum elastic strength of an elastic orthotic device which is worn on a body of an orthotics user to assist an action of the orthotics user, wherein the optimum elastic strength calculation program causes the computer to execute: a step of preliminarily storing, in a storage unit, an elastic strength and kinematic property which is obtained through experiments in a state where the elastic orthotic device for assisting the action of the orthotics user is worn on bodies of a plurality of people; and an optimization problem processing step of calculating the optimum elastic strength of the elastic orthotic device based on a predetermined evaluation index using a kinematic constraint condition of the orthotics user and the elastic strength and kinematic property. 12 . The non-transitory optimum elastic strength calculation program recording medium as claimed in claim 11 , wherein the elastic strength and kinematic property comprises a predictive value of a walking speed, a predictive value of a maximum bending angle of a joint, a predictive value of a maximum extension angle of the joint, a predictive value of a maximum joint moment of the joint, and a predictive value of a maximum muscle activity amount of a muscle which are obtained through the experiments in the state where the elastic orthotic device is worn on the bodies of the plurality of people. 13 . The non-transitory optimum elastic strength calculation program recording medium as claimed in claim 11 , wherein the kinematic constraint condition comprises a kinematic condition to be satisfied by a pedestrian as the orthotics user during the action. 14 . The non-transitory optimum elastic strength calculation program recording medium as claimed in claim 11 , wherein the predetermined evaluation index comprises one selected from the group consisting of a first index for maximizing the walking speed of the orthotics user, a second index for maximizing a range of joint motion, a third index for minimizing the maximum joint moment, and a fourth index obtained as a weighted average of the first through the third indexes. 15 .- 31 . (canceled)