Method and device for assisting walking

What is claimed is: 1. A walking assistance method performed by a walking assistance device, the method comprising: receiving, from at least one pressure sensor, a pressure value indicating an amount of pressure applied to a sole of a user; receiving, from an acceleration sensor, acceleration information associated with a movement of the user; determining whether the user is in a walking state in response to the acceleration information indicating that a magnitude of acceleration is greater than an acceleration threshold; determining a gait phase of the user based on the pressure value only in response to determining that the user is in the walking state based on the magnitude of acceleration being greater than the acceleration threshold; determining an assist torque corresponding to the gait phase; and controlling a driver to output the assist torque, wherein the determining the gait phase comprises: determining whether a change of a contact state occurs within a pre-set time period, the pre-set time period being a duration of time in the past relative to a present time; maintaining a current contact state in response to the change of the contact state occurring within the pre-set time period; determining whether a foot of the user is in contact with a ground based on the pressure value, in response to the change of the contact state not occurring within the pre-set time period; and determining the gait phase based on whether the foot of the user is in contact with the ground. 2. The method of claim 1 , wherein the determining whether the foot of the user is in contact with the ground comprises: receiving, from the at least one pressure sensor, a first pressure value indicating the amount of pressure applied to the sole of the user at a first time; receiving, from the at least one pressure sensor, a second pressure value indicating the amount of pressure applied to the sole of the user at a second time, the second time being different from the first time; and determining whether the foot of the user is in contact with the ground based on the first pressure value and the second pressure value. 3. The method of claim 2 , wherein the determining whether the foot of the user is in contact with the ground further comprises: receiving, from a first pressure sensor of the at least one pressure sensor, the first pressure value; receiving, from a second pressure sensor of the at least one pressure sensor, the second pressure value, the first pressure sensor and the second pressure sensor being provided at different locations of the foot of the user; and determining whether the foot of the user is in contact with the ground based on the first pressure value and the second pressure value. 4. The method of claim 1 , wherein the determining whether the user is in the walking state comprises: calculating the magnitude of acceleration of the user based on the acceleration information; determining that the user is in the walking state in response to the magnitude of acceleration being greater than the acceleration threshold; and determining that the user is in a stand state in response to the magnitude of acceleration being less than or equal to the acceleration threshold. 5. The method of claim 1 , wherein the determining of the gait phase comprises: determining a target gait phase corresponding to gait information among preset gait phases. 6. The method of claim 1 , wherein the driver is configured to provide the assist torque to an ankle of the user. 7. The method of claim 1 , wherein the controlling of the driver comprises: calculating a desired length of a support frame corresponding to the assist torque; and controlling the driver to adjust an actual length of the support frame to the desired length. 8. A non-transitory computer-readable recording medium storing instructions that, when executed by a processor, cause the processor to perform the method of claim 1 . 9. A walking assistance device comprising: a memory configured to store a program to assist a user with walking; and a processor configured to execute the program to, receive, from at least one pressure sensor, a pressure value indicating an amount of pressure applied to a sole of the user, receive, from an acceleration sensor, acceleration information associated with a movement of the user, determine whether the user is in a walking state in response to the acceleration information indicating that a magnitude of acceleration is greater than an acceleration threshold, determine a gait phase of the user based on the pressure value only in response to determining that the user is in the walking state based on the magnitude of acceleration being greater than the acceleration threshold, determine an assist torque corresponding to the gait phase, and control a driver to output the assist torque, wherein the processor is configured to determine the gait phase by, determining whether a change of a contact state occurs within a pre-set time period, the pre-set time period being a duration of time in the past relative to a present time, maintaining a current contact state in response to the change of the contact state occurring within the pre-set time period, determining whether the foot of the user is in contact with a ground based on the pressure value in response to the change of the contact state not occurring within the pre-set time period, and determining the gait phase based on whether a foot of the user is in contact with the ground. 10. The walking assistance device of claim 9 , wherein the processor is configured to determine whether the foot of the user is in contact with the ground by, receiving, from the at least one pressure sensor, a first pressure value indicating the amount of pressure applied to the sole of the user at a first time, receiving, from the at least one pressure sensor, a second pressure value indicating the amount of pressure applied to the sole of the user at a second time, the second time being different from the first time, and determining whether the foot of the user is in contact with the ground based on the first pressure value and the second pressure value. 11. The walking assistance device of claim 9 , wherein the processor is configured to determine whether the user is in the walking state by, calculating the magnitude of acceleration of the user based on the acceleration information, determining that the user is in the walking state in response to the magnitude of acceleration being greater than the acceleration threshold, and determining that the user is in a stand state in response to the magnitude of acceleration being less than or equal to the acceleration threshold.