Assist device, assist method, and recording medium

What is claimed is: 1. An assist device comprising: an upper-body belt to be attached to an upper body of a user; a first belt to be attached to a right knee of the user; a second belt to be attached to a left knee of the user; a first wire that couples the upper-body belt to the first belt; a second wire that couples the upper-body belt to the first belt, the second wire crossing the first wire; a third wire that couples the upper-body belt to the second belt; a fourth wire that couples the upper-body belt to the second belt, the fourth wire crossing the third wire; a motor coupled to a first end of the first wire, a terminal end of the second wire, a terminal end of the third wire, and a terminal end of the fourth wire; a sensor; and a drive controller that (i) causes the motor to apply a first tension greater than or equal to a first threshold value to one of the first wire and the second wire at a first time and a second tension greater than or equal to the first threshold value to one of the third wire and the fourth wire at a second time different from the first time when the assist device assists the user with walking and (ii) causes the motor to apply a third tension greater than or equal to the first threshold value to one of the first wire and the second wire at a third time and a fourth tension greater than or equal to the first threshold value to one of the third wire and the fourth wire at the third time when the assist device detects slacking of the upper-body belt using the sensor. 2. The assist device according to claim 1 , further comprising: a second controller, wherein the sensor is a gyro sensor disposed at the upper-body belt, the gyro sensor configured to measure an angular velocity about a vertical axis of the user, wherein the gyro sensor measures the angular velocity when a tension greater than or equal to the first threshold value is applied to one of the first wire and the second wire at a fourth time and one of the third wire and the fourth wire at the fourth time, and wherein the second controller outputs information indicating that the upper-body belt is slack if the angular velocity is greater than or equal to a second threshold value. 3. The assist device according to claim 1 , wherein the first wire is parallel to the third wire, and the second wire is parallel to the fourth wire, and wherein when the assist device detects the slacking, the drive controller causes the motor to apply the third tension to the first wire at the third time and the fourth tension to the third wire at the third time or applies the third tension to the second wire at the third time and the fourth tension to the fourth wire at the third time. 4. The assist device according to claim 1 , further comprising: a fifth wire that couples the upper-body belt to the first belt; a sixth wire that couples the upper-body belt to the first belt, the sixth wire crossing the first wire; a seventh wire that couples the upper-body belt to the second belt; and an eighth wire that couples the upper-body belt to the second belt, the eighth wire crossing the seventh wire, wherein the first wire, the second wire, the third wire, and the fourth wire are configured to be located on a front side of the user, and the fifth wire, the sixth wire, the seventh wire, and the eighth wire are configured to be located on a rear side of the user, wherein the first wire is parallel to each of the third wire, the fifth wire, and the seventh wire, and the second wire is parallel to each of the fourth wire, the sixth wire, and the eighth wire, and wherein the assist device is configured to assist the user with one of adduction and abduction of a leg of the user by performing any one of the following operations: (a1) the drive controller causes the motor to apply a tension greater than or equal to the first threshold value to each of the first wire and the fifth wire; (a2) the drive controller causes the motor to apply a tension greater than or equal to the first threshold value to each of the second wire and the sixth wire; (a3) the drive controller causes the motor to apply a tension greater than or equal to the first threshold value to each of the third wire and the seventh wire; and (a4) the drive controller causes the motor to apply a tension greater than or equal to the first threshold value to each of the fourth wire and the eighth wire. 5. The assist device according to claim 4 , wherein the assist device is configured to assist the user with one of internal rotation and external rotation of the leg by performing any one of the following operations: (b1) the drive controller causes the motor to apply a tension greater than or equal to the first threshold value to each of the first wire and the sixth wire; (b2) the drive controller causes the motor to apply a tension greater than or equal to the first threshold value to each of the second wire and the fifth wire; (b3) the drive controller causes the motor to apply a tension greater than or equal to the first threshold value to each of the third wire and the eighth wire; and (b4) the drive controller causes the motor to apply a tension greater than or equal to the first threshold value to each of the fourth wire and the seventh wire. 6. The assist device according to claim 1 , wherein the first wire has the first end and a second end, wherein the motor is disposed at the upper-body belt, wherein the second end is fixed to the first belt, wherein the upper-body belt includes a supporter that slidably supports the first wire, and a first portion of the first wire located between the first end of the first wire and the supporter extends in a longitudinal direction of the upper-body belt, and wherein when the slacking of the upper-body belt is detected, the motor applies a force to the first portion of the first wire. 7. An assist method for use of an assist device, the assist device including an upper-body belt to be attached to an upper body of a user, a first belt to be attached to a right knee of the user, a second belt to be attached to a left knee of the user, a first wire that couples the upper-body belt to the first belt, a second wire that couples the upper-body belt to the first belt and that crosses the first wire, a third wire that couples the upper-body belt to the second belt, a fourth wire that couples the upper-body belt to the second belt and that crosses the third wire, a sensor, and a motor coupled to the first wire, the second wire, the third wire, and the fourth wire, the method comprising: (a) causing the motor to apply a first tension greater than or equal to a first threshold value to one of the first wire and the second wire at a first time and a second tension greater than or equal to the first threshold value to one of the third wire and the fourth wire at a second time different from the first time when the assist device assists the user with walking; and (b) causing the motor to apply a third tension greater than or equal to the first threshold value to one of the first wire and the second wire at a third time and a fourth tension greater than or equal to the first threshold value to one of the third wire and the fourth wire at the third time when the assist device detects slacking of the upper-body belt using the sensor. 8. The assist method according to claim 7 , wherein the sensor is a gyro sensor. 9. A non-transitory computer-readable recording medium storing a control program that causes a device including a processor to perform a process, the control program being used in an assist device including an upper-body belt to be attached to an upper body of a user, a first belt to be attached to a right knee of the user, a second belt to be a