Haptic gloves and surgical robot systems

What is claimed is: 1. A haptic glove configured to transmit haptic feedback to an operator of a surgical robot system, the haptic glove comprising: a plurality of vibrators on a first surface of the haptic glove, the plurality of vibrators configured to apply vibrations; at least one pressure sensor at a finger part of a second surface of the haptic glove opposite to the first surface, the at least one pressure sensor configured to sense grip force acting between fingers in the finger part; at least one sensation applier on the second surface, the at least one sensation applier configured to apply sensations including vibration or force to the finger part; and a controller configured to output the grip force sensed by the at least one pressure sensor, and configured to control the vibrations applied by the plurality of vibrators and the sensations applied by the at least one sensation applier, wherein the controller is configured to determine at least two of the plurality of vibrators of the haptic glove that are arranged on a finger along a direction corresponding to a direction of a force applied to a surgical robot of the surgical robot system during surgery among the plurality of vibrators, and is configured to control an intensity of a vibration of the determined vibrators such that the vibration generated by the determined vibrators corresponds to a magnitude of the applied force, and is configured to control an operating period of the vibration generated by the determined vibrators such that the determined vibrators sequentially operate along a direction of the finger corresponding to the direction of the applied force. 2. The haptic glove of claim 1 , wherein the plurality of vibrators are aligned in a longitudinal direction of the finger part, from a fingertip portion to a wrist portion, while being spaced apart from one another at desired intervals. 3. The haptic glove of claim 1 , wherein the at least one pressure sensor is at a fingertip portion of the finger part. 4. The haptic glove of claim 1 , wherein the controller outputs the grip force sensed by the at least one pressure sensor to the surgical robot of the surgical robot system in real time such that the surgical robot grips a surgical tool with a force corresponding to the grip force. 5. The haptic glove of claim 1 , wherein the at least one sensation applier is at a fingertip portion of the finger part. 6. The haptic glove of claim 1 , wherein the at least one pressure sensor and the at least one sensation applier are at fingertip portions of the finger part corresponding to a thumb and an index finger of the finger part. 7. The haptic glove of claim 1 , wherein the controller is configured to control operation of the at least one sensation applier to generate the sensations including the vibration or the force corresponding to the grip force sensed by a surgical tool of the surgical robot system. 8. The haptic glove of claim 1 , further comprising: a rechargeable battery configured to supply power for operating the haptic glove. 9. A surgical robot system, comprising: a slave system configured to perform a surgical operation on a patient; and a master system configured to control the slave system, the master system including a haptic glove configured to be worn by an operator to control the surgical operation of the slave system; wherein the haptic glove includes, a plurality of vibrators on a first surface of the haptic glove, the plurality of vibrators configured to apply vibrations; at least one pressure sensor at a finger part of a second surface of the haptic glove opposite to the first surface, the at least one pressure sensor configured to sense grip force acting between fingers in the finger part; at least one sensation applier on the second surface, the at least one sensation applier configured to apply sensations including vibration or force to the finger part; and a controller configured to output the grip force sensed by the at least one pressure sensor to the master system, and further configured to control the vibrations applied by the plurality of vibrators and the sensations applied by the at least one sensation applier according to a control signal of the at least one sensation applier, wherein the master system is configured to receive the signal sensed by a sensor of the slave system to determine at least two of the plurality of vibrators of the haptic glove that are arranged on a finger along a direction corresponding to a direction of a force applied to a surgical tool among the plurality of vibrators, to output a first control signal to control an intensity of a vibration of the determined vibrators such that the vibration generated by the determined vibrators corresponds to a magnitude of the applied force and to control an operating period of the vibration generated by the determined vibrators such that the determined vibrators sequentially operate along a direction of the finger corresponding to the direction of the applied force. 10. The surgical robot system of claim 9 , wherein the slave system comprises: the surgical tool configured to perform the surgical operation on the patient; the sensor on the surgical tool configured to measure force or torque applied to the surgical tool; an endoscope configured to provide an image of a surgery area inside a body of the patient; and a slave controller configured to output a first signal related to the force or torque sensed by the sensor to the master system, and configured to receive a second signal related to the grip force sensed by the at least one pressure sensor of the haptic glove. 11. The surgical robot system of claim 9 , wherein the master system comprises: a depth sensor configured to sense position, shape, posture, gesture, or motion of the haptic glove; a display configured to display an image provided by an endoscope of the slave system or a composite image having the image provided by the endoscope overlaid with an image of the haptic glove that is sensed by the depth sensor; and a master controller configured to receive a signal sensed by a sensor of the slave system and to control operations of the plurality of vibrators and the at least one sensation applier. 12. The surgical robot system of claim 11 , wherein the master system further comprises an input configured to turn on/off or temporarily stop the master system controlling the slave system. 13. The surgical robot system of claim 12 , wherein the input is embodied in a pedal configured to be manipulated by a foot of the operator. 14. The surgical robot system of claim 9 , wherein the master system is configured to output a second control signal to control operation of the at least one sensation applier so as to create the sensations including vibration or force corresponding to the grip force sensed by the surgical tool. 15. A haptic glove configured to transmit haptic feedback to an operator of a surgical robot system, the haptic glove comprising: a plurality of vibrators configured to apply vibrations; at least one pressure sensor at a finger part of the haptic glove configured to sense grip force acting between fingers in the finger part; at least one sensation applier configured to apply sensations including vibration or force to the finger part; and a controller configured to output the grip force sensed by the at least one pressure sensor, configured to control the vibrations applied by the plurality of vibrators, and configured to control the sensations applied by the at least one sensation applier, wherein the controller is configured to determine at least two of the pl