Human-machine interaction device

The invention claimed is: 1 . A human-machine interaction device for controlling movement of an external movable device, comprising: a flexible substrate configured to be mounted to a joint of a user; a sensing module comprising two or more strain sensors, each arranged to detect strain or change in strain along a respective principal strain axis of the joint when the flexible substrate is mounted to the joint of the user, wherein the sensing module is further configured to generate a sensed signal indicative of the user's movement in response to a voluntary movement associated with the joint of the user; a controller operably connected with the sensing module and arranged to process the sensed signal to obtain a processed signal; and a communication module operably connected to at least one of the sensing module and the controller, arranged to communicate the sensed signal or the processed signal to the external movable device for controlling movement of the external movable device in accordance with the voluntary movement of the joint of the user; wherein the sensing module, the controller, and the communication module are arranged in or on the flexible substrate; wherein the external movable device comprises any one of a robot, a teleoperated vehicle, a vehicle, an aircraft, and a surgical device. 2 . The human-machine interaction device of claim 1 , wherein the sensing module further comprises one or more stress sensors or pressure sensors arranged to detect change in at least one of, stress and pressure applied to the flexible substrate. 3 . The human-machine interaction device of claim 1 , wherein the sensing module comprises a plurality of sensing channels each comprising a piezoresistive sensor. 4 . The human-machine interaction device of claim 1 , wherein the flexible substrate is made of at least one of polydimethylsiloxane (PDMS) and polyimide (PI). 5 . The human-machine interaction device of claim 1 , wherein the controller is arranged to determine, based on the sensed signal, a control command for controlling the external movable device, and wherein the control command is included in the processed signal. 6 . The human-machine interaction device of claim 1 , wherein the communication module is further arranged to receive feedback signals from the external movable device; and wherein the human-machine interaction device further comprises a feedback module operably connected with the controller and arranged to provide feedback to the user based on the received feedback signals when the flexible substrate is mounted to the user; wherein the feedback module is arranged in or on the flexible substrate. 7 . The human-machine interaction device of claim 6 , wherein the sensing module and the controller are in direct, wired connection; and wherein the feedback module and the controller are in direct, wired connection. 8 . The human-machine interaction device of claim 6 , wherein the feedback module comprises one or more feedback devices arranged to provide haptic feedback to the user. 9 . The human-machine interaction device of claim 6 , wherein the feedback module comprises a plurality of feedback channels each comprising a vibratory actuator. 10 . The human-machine interaction device of claim 9 , wherein the feedback signals received from the external movable device includes pressure information; and wherein the vibratory actuators are arranged to provide haptic feedback with at least one of vibration intensity, duration and pattern corresponding to the pressure information included in the feedback signals. 11 . The human-machine interaction device of claim 1 , wherein the communication module comprises a wireless communication module. 12 . The human-machine interaction device of claim 1 , further comprising a power source arranged in or on the flexible substrate for powering operation of the human-machine interaction device. 13 . The human-machine interaction device of claim 12 , wherein the power source is a rechargeable power source; and wherein the human-machine interaction device further comprises a charging device arranged in or on the flexible substrate for charging the rechargeable power source. 14 . The human-machine interaction device of claim 13 , wherein the charging device comprises a charging coil. 15 . The human-machine interaction device of claim 14 , wherein, in a plan view, the charging coil is arranged around the sensing module, the controller, and the communication module. 16 . The human-machine interaction device of claim 1 , further comprising an adhesive layer arranged on the flexible substrate to facilitating mounting of the flexible substrate to the user. 17 . The human-machine interaction device of claim 1 , wherein the human-machine interaction device is in the form of a patch arranged to be worn by the user. 18 . A human-machine interaction device for controlling movement of an external movable device, comprising: a flexible substrate configured to be mounted to a joint of a user; a sensing module comprising two or more strain sensors, each arranged to detect strain or change in strain along a respective principal strain axis of the joint when the flexible substrate is mounted to the joint of the user, wherein the sensing module is further configured to generate a sensed signal indicative of the user's movement in response to a voluntary movement associated with the joint of the user; a controller operably connected with the sensing module and arranged to process the sensed signal to obtain a processed signal; a communication module operably connected to at least one of the sensing module and the controller, arranged to communicate the sensed signal or the processed signal to the external movable device for controlling movement of the external movable device in accordance with the voluntary movement of the joint of the user; and a feedback module operably connected with the controller and arranged to provide haptic feedback to the user based on the received feedback signals when the flexible substrate is mounted to the user; wherein the sensing module, the controller, the communication module, and the feedback module are arranged in or on the flexible substrate; wherein the external movable device comprises any one of a robot, a teleoperated vehicle, a vehicle, an aircraft, and a surgical device. 19 . The human-machine interaction device of claim 2 , wherein each of the one or more sensors are mounted on different joints of the user, arranged for generating a sensed signal indicative of a full body movement of the user.