Wearable robot and control method thereof

What is claimed is: 1. A control method of a wearable robot, the wearable robot including a plurality of joints, the control method comprising: generating a reference trajectory in a two-dimensional state space, the reference trajectory being a trajectory which the plurality of joints are required to follow when the wearable robot assists a wearer with walking; sensing motion of the wearer by sensing at least whether one or more of a toe and a heel portion of one or more foot rests associated with the wearable robot is in contact with a ground using a pair of pressure sensors; estimating a gait phase of the wearer of the wearable robot in the two-dimensional state space based on at least results of the sensing by the pair of pressure sensors; determining a distance between each of the multiple data points in the reference trajectory and the estimated gait phase in the two-dimensional state space; detecting a gait phase as one of the multiple data points within the reference trajectory such that the detected gait phase has a minimum distance from the estimated gait phase in the two-dimensional state space; and synchronizing motion of the wearable robot with the results of sensing motion of the wearer by the pair of pressure sensors by, generating a control signal associated with a driving velocity of a driver of the wearable robot based on the detected gait phase within the reference trajectory such that the estimated gait phase gradually converges to the detected gait phase, and driving the driver according to the control signal. 2. The control method according to claim 1 , wherein the sensing further comprises: sensing, via a position sensor, a position of each of the plurality of joints, and sensing, via a velocity sensor, a velocity of each of the plurality of joints. 3. A control method of a wearable robot, the wearable robot including a plurality of joints, the control method comprising: sensing motion of a wearer by sensing at least whether one or more of a toe and a heel portion of one or more foot rests associated with the wearable robot is in contact with a ground using a pair of pressure sensors; estimating a gait phase of Ran the wearer of the wearable robot in a two-dimensional state space based on at least results of the sensing by the pair of pressure sensors; determining a distance between each of multiple data points in a reference trajectory and the estimated gait phase in the two-dimensional state space, the reference trajectory being a trajectory which the plurality of joints are required to follow when the wearable robot assists the wearer with walking; detecting a gait phase as one of the multiple data points within the reference trajectory such that the detected gait phase has a minimum distance from the estimated gait phase in the two-dimensional state space; and synchronizing motion of the wearable robot with the results of sensing motion of the wearer by the pair of pressure sensors by, generating a control signal associated with a driving velocity of a driver of the wearable robot based on the detected gait phase within the reference trajectory such that the estimated gait phase gradually converges to the detected gait phase, and driving the driver according to the control signal. 4. The control method according to claim 3 , wherein the sensing further comprises: sensing, via a position sensor, a position of each of the plurality of joints, and sensing, via a velocity sensor, a velocity of each of the plurality of joints. 5. The control method according to claim 3 , wherein the wearable robot is pre-programmed with the reference trajectory. 6. A wearable robot comprising: a memory configured to store reference trajectory therein; a walking assistance device having an exoskeleton shape such that the walking assistance device is configured to be worn on one or more legs of a wearer of the wearable robot, the walking assistance device including a plurality of joints and a plurality of sensors; and a controller configured to, sense motion of the wearer by sensing at least whether one or more of a toe and a heel portion of one or more foot rests associated with the wearable robot is in contact with a ground using a pair of pressure sensors included in the plurality of sensors, estimate a gait phase of the wearer in a two-dimensional state space based on at least results of sensing by the pair of pressure sensors, determine a distance between each of multiple data points in the reference trajectory and the estimated gait phase in the two-dimensional state space, the reference trajectory being a trajectory which the plurality of joints are required to follow when the walking assistance device assists the wearer with walking, detect a gait phase as one of the multiple data points within the reference trajectory such that the detected gait phase has a minimum distance from the estimated gait phase in the two-dimensional state space, and synchronize motion of the wearable robot with the results of sensing motion of the wearer by the pair of pressure sensors by, generating a control signal to adjust a driving velocity of a driver based on the detected gait phase within the reference trajectory such that the estimated gait phase gradually converges to the detected gait phase, and driving the driver according to the control signal. 7. The wearable robot according to claim 6 , wherein the plurality of sensors comprise: a position sensor configured to sense a position of each of the plurality of joints, a velocity sensor configured to sense a velocity of each of the plurality of joints, and the pair of pressure sensors configured to determine whether one or more foot rests associated with the walking assistance device is in contact with the ground.