Standing-up assistance apparatus, standing-up assistance method, and non-transitory computer-readable recording medium

What is claimed is: 1. A standing-up assistance apparatus, comprising: a first sensor that measures a muscle potential of a lower leg of a user; a second sensor that measures a knee angle of the user; a processor that determines whether starting to assist the user in a standing-up motion from a seated state is seated possible based on the measured muscle potential and the measured knee angle; and an assistance mechanism, wherein the processor outputs an instruction signal if the processor determines that starting to assist the user in the standing-up motion is possible, wherein the first sensor continues to measure the muscle potential of the lower leg of the user and the second sensor continues to measure the knee angle of the user if the processor determines that starting to assist the user in the standing-up motion is not possible, and wherein the assistance mechanism starts to assist the user in the standing-up motion when the assistance mechanism receives the instruction signal from the processor. 2. The standing-up assistance apparatus according to claim 1 , wherein the first sensor measures a muscle potential of an anterior tibial muscle of the user as the muscle potential of the lower leg of the user. 3. The standing-up assistance apparatus according to claim 1 , wherein the assistance mechanism assists the user in the standing-up motion by assisting the user to extend the user's knees. 4. The standing-up assistance apparatus according to claim 1 , wherein the processor determines that starting to assist the user in the standing-up motion is possible if a first condition that the measured muscle potential is equal to or higher than a first threshold value and a second condition that the measured knee angle is equal to or smaller than a second threshold value are concurrently satisfied. 5. The standing-up assistance apparatus according to claim 4 , wherein the second threshold value is 60° or higher and 100° or lower. 6. The standing-up assistance apparatus according to claim 1 , wherein the knee angle of the user measured by the second sensor is the knee angle of the user's left knee or the knee angle of the user's right knee, whichever is smaller. 7. The standing-up assistance apparatus according to claim 1 , wherein the processor determines whether starting to assist the user in the standing-up motion from the seated state is possible, without using output data of a sensor disposed at a hip part of the user. 8. A standing-up assistance apparatus, comprising: a first sensor that measures a muscle potential of a lower leg of a user; a second sensor that measures a knee angle of the user; a third sensor that measures a trunk forward tilting angle of the user; a processor that determines whether starting to assist the user in a standing-up motion from a seated state is seated possible based on the measured muscle potential, the measured knee angle, and the measured trunk forward tilting angle; and an assistance mechanism; wherein the processor outputs an instruction signal if the processor determines that starting to assist the user in the standing-up motion is possible, wherein the first sensor continues to measure the muscle potential of the lower leg of the user and the second sensor continues to measure the knee angle of the user if the processor determines that starting to assist the user in the standing-up motion is not possible, and wherein the assistance mechanism starts assisting the user in the standing-up motion when the instruction signal is output from the processor. 9. The standing-up assistance apparatus according to claim 8 , wherein the trunk forward tilting angle is an angle made between a vertical direction and the trunk of the user, and increases as the user's trunk tilts more forward. 10. The standing-up assistance apparatus according to claim 9 , wherein the processor determines that starting to assist the user in the standing-up motion is possible if a first condition that the measured muscle potential is equal to or higher than a first threshold value, a second condition that the measured knee angle is equal to or smaller than a second threshold value, and a third condition that the measured trunk forward tilting angle is equal to or larger than a third threshold value are concurrently satisfied. 11. The standing-up assistance apparatus according to claim 10 , wherein the assistance mechanism comprises a fourth sensor that measures a trunk to thigh angle that is made between the user's trunk and thigh, and wherein the processor modifies the first threshold value in response to a change in each of the knee angle and the trunk to thigh angle measured during the standing-up motion. 12. The standing-up assistance apparatus according to claim 11 , wherein the processor increases the first threshold value to a larger value if a rate of change in the trunk to thigh angle measured during the standing-up motion is higher than a rate of change in the knee angle measured during the standing-up motion. 13. The standing-up assistance apparatus according to claim 9 , wherein the processor sets the first threshold value to be lower as the measured knee angle becomes smaller, and determines that starting to assist the user in the standing-up motion is possible if a first condition that the measured muscle potential is equal to or higher than a first threshold value, and a third condition that the measured trunk forward tilting angle is equal to or larger than a third threshold value are concurrently satisfied. 14. The standing-up assistance apparatus according to claim 13 , wherein the processor outputs a notification signal to prompt the user to bend the user's knees if each of the measured muscle potential and the measured trunk forward tilting angle changes periodically. 15. The standing-up assistance apparatus according to claim 8 , wherein the processor determines whether starting to assist the user in the standing-up motion from the seated state is possible, without using output data of a sensor disposed at a hip part of the user. 16. A standing-up assistance apparatus, comprising: a first sensor that measures a muscle potential of a lower leg of a user; a second sensor that measures a knee angle of the user; and a processor that determines whether starting to assist the user in a standing-up motion from a seated state is seated possible based on the measured muscle potential and the measured knee angle, wherein the processor outputs an instruction signal if the processor determines that starting to assist the user in the standing-up motion is possible, and wherein the first sensor continues to measure the muscle potential of the lower leg of the user and the second sensor continues to measure the knee angle of the user if the processor determines that starting to assist the user in the standing-up motion is not possible. 17. The standing-up assistance apparatus according to claim 16 , wherein the processor determines that starting to assist the user in the standing-up motion is possible if a first condition that the measured muscle potential is equal to or higher than a first threshold value and a second condition that the measured knee angle is equal to or smaller than a second threshold value are concurrently satisfied. 18. The standing-up assistance apparatus according to claim 16 , wherein the processor determines whether starting to assist the user in the standing-up motion from the seated state is possible, without using output data of a sensor disposed at a hip part of the user. 19. A standing-up