Walking assistance device and control method of walking assistance device

What is claimed is: 1. A control method of a wearable walking assistance apparatus, the method comprising: determining an operable time of the wearable walking assistance apparatus based on an amount of remaining power and a power consumption of the walking assistance apparatus; and controlling a torque output of the walking assistance apparatus so that a power consumption of the walking assistance apparatus is reduced, in response to the operable time satisfying a set criterion, wherein the controlling of the torque output comprises reducing a maximum intensity of the torque output, in response to the operable time of the walking assistance apparatus being reduced. 2. The control method of claim 1 , wherein the controlling of the torque output comprises: setting a torque profile such that the maximum intensity of the torque output in a power saving mode is less than a maximum intensity of a torque output in a normal mode. 3. The control method of claim 1 , wherein the controlling of the torque output comprises: controlling the torque output based on a set torque profile associated with a power saving mode. 4. The control method of claim 1 , wherein the controlling of the torque output comprises: controlling, in a power saving mode, the torque output of the walking assistance apparatus such that a maximum intensity of a torque output for assisting a leg lifting motion of a user wearing the walking assistance apparatus is greater than a maximum intensity of a torque output for assisting a leg lowering motion of the user. 5. The control method of claim 1 , further comprises: determining a current gait motion of a user wearing the walking assistance apparatus; determining a state variable based on the current gait motion; generating, based on the state variable, a torque profile for a descending state of a swing phase of one or more of a left leg or right leg of the user; and controlling the torque output based on the generated torque profile. 6. The control method of claim 5 , wherein the generating of the torque profile comprises: generating the torque profile so that the torque profile compensates for a frictional force of the left leg and/or the right leg of the descending state of the swing phase based on gravity. 7. The control method of claim 1 , further comprising: informing a user wearing the walking assistance apparatus of a change to a power saving mode in response to the set criterion being satisfied. 8. The control method of claim 7 , wherein the informing comprises: informing the user of the change to the power saving mode through a display or a speaker. 9. A non-transitory computer-readable medium comprising computer readable instructions that, when executed, cause a computer to perform the control method of claim 1 . 10. A wearable walking assistance apparatus comprising: a sensor configured to measure a gait motion of a user of the wearable walking assistance apparatus; and a controller, comprising processing circuitry, configured to: determine an operable time of the walking assistance apparatus based on an amount of remaining power and power consumption of the walking assistance apparatus, control a torque output of the walking assistance apparatus so that a power consumption of the walking assistance apparatus is reduced, in response to the operable time satisfying a set criterion, and reduce an intensity of the torque output, in response to the operable time of the walking assistance apparatus being reduced. 11. The walking assistance apparatus of claim 10 , wherein the controller is further configured to set a torque profile such that a maximum intensity of the torque output in a power saving mode is less than a maximum intensity of a torque output in a normal mode. 12. The walking assistance apparatus of claim 10 , wherein the controller is further configured to control the torque output based on a set torque profile associated with a power saving mode. 13. The walking assistance apparatus of claim 10 , wherein the controller is further configured to control, in a power saving mode, the torque output of the walking assistance apparatus such that a maximum intensity of a torque output for assisting a leg lifting motion of the user is greater than a maximum intensity of a torque output for assisting a leg lowering motion of the user. 14. The walking assistance apparatus of claim 10 , further comprising: at least one of a display and a speaker configured to inform the user of a change to a power saving mode when the operable time satisfies the set criterion. 15. The walking assistance apparatus of claim 10 , further comprising: a driver configured to generate a force to assist walking of a user wearing the walking assistance apparatus under a control of the controller. 16. A walking assistance apparatus comprising: a driver, comprising a motor, configured to generate torque to provide walking assistance; a controller, comprising processing circuitry, configured to: determine an operable time of the walking assistance apparatus based on an amount of remaining power and power consumption of the walking assistance apparatus, control a torque output of the walking assistance apparatus so that a power consumption of the walking assistance apparatus is reduced, in response to the operable time satisfying a set criterion, and control the torque output based on a set torque profile associated with a power saving mode.