Soft portable wearable pneumatic interactive suit

The invention claimed is: 1. A soft pneumatic actuator wearable device configured to be worn by a wearer, comprising: a bidirectional wearable skin including distributed actuator and sensing elements configured to interact with a skin of a body part of the wearer, and a body postural actuation device configured to impart a motion to the body part of the wearer, the distributed actuator and sensing elements including a multimodal actuation layer and a sensing layer, the bidirectional wearable skin being flexible and stretchable; and a portable power and control device for controlling the distributed actuator and sensing elements of the bidirectional wearable skin and the body postural actuation device, the portable power and control device including a controller for controlling the distributed actuator and sensing elements and the body postural actuation device, the controller configured to read signals from the sensing layer, and perform independent actuation with (i) the multimodal actuation layer for a micro- stimulation of the skin of the body part and actuation with (ii) the body postural actuation device for macro-stimulation of the body part, to thereby emulate a direct physical interaction of the body part with an object. 2. The soft pneumatic actuator wearable device according to claim 1 , wherein the sensing layer comprises: a plurality of low profile discrete sensor elements distributed across the bidirectional wearable skin in an array. 3. The soft pneumatic actuator wearable device according to claim 2 , wherein the discrete sensor elements are configured to measure at least one of touch, texture, proximity, temperature, and pressure from the multimodal actuation layer and from an external environment with which the soft pneumatic actuator wearable device is in contact with. 4. The soft pneumatic actuator wearable device according to claim 1 , wherein the multimodal actuation layer comprises: distributed soft pneumatic actuators arranged in an array, each actuator including two silicone layers and a masking layer to define an actuation area of pneumatic channels. 5. The soft pneumatic actuator wearable device according to claim 4 , wherein the multimodal actuation layer further comprises: a tunable stiffness silicone layer reinforced with fibers for a non-isometric, directionally controllable stiffness, arranged as a physical separator between the actuation area from the pneumatic channels to isolate vibrations generated due to the pneumatic channels. 6. The soft pneumatic actuator wearable device according to claim 1 , wherein the body postural actuation device includes a soft exovest. 7. The soft pneumatic actuator wearable device according to claim 1 , further comprising: a waist belt, wherein the body postural actuation device includes soft pneumatic actuators arranged around a perimeter of the waist belt to apply forces to the body part. 8. The soft pneumatic actuator wearable device according to claim 7 , wherein the soft pneumatic actuators are arranged to provide for Anterior-Posterior (AP) and Medial-Lateral (ML) deflection of the body part of the wearer. 9. The soft pneumatic actuator wearable device according to claim 1 , wherein the portable power and control device comprises: a power generation system for producing at least one of a pressurized fluid or a vacuum; a pneumatic reservoir for storing at least one of the pressurized fluid or the vacuum generated by the power generating system; output channels operatively attached to the pneumatic reservoir for providing at least one of the pressurized fluid or the vacuum to the bidirectional wearable skin; and an electro-pneumatic system in operative connection with the output channels, including a valve and a pressure sensor for each output channel, the electro-pneumatic system configured to control at least one of the pressurized fluid or the vacuum through the output channels. 10. The soft pneumatic actuator wearable device according to claim 9 , further comprising: a portable power unit holding the power generation system, the pneumatic reservoir, the output channels, and the electro-pneumatic system, and the controller. 11. The soft pneumatic actuator wearable device according to claim 10 , further comprising: a waist belt. 12. The soft pneumatic actuator wearable device according to claim 11 , further comprising: a wearable support unit configured to transfer a weight of the portable power unit to the waist belt and configured to support a motion of the wearer. 13. The soft pneumatic actuator wearable device according to claim 12 , wherein the wearable support unit includes at least one of a plurality of stacked vertebrae-like elements forming an exo-spine or a soft torso exosuit. 14. The soft pneumatic actuator wearable device according to claim 10 , wherein the bidirectional wearable skin includes a plurality of stacked vertebrae-like elements forming an exo-spine or a soft torso exosuit. 15. The soft pneumatic actuator wearable device according to claim 11 , wherein the body postural actuation device includes soft pneumatic actuators arranged in parallel packs arranged around a perimeter of the waist belt to apply forces. 16. The soft pneumatic actuator wearable device according to claim 9 , wherein at least some of the output channels provide the pressurized fluid to a respective soft pneumatic actuator of the multimodal actuation layer that is arranged in operative connection with the wearer, each soft pneumatic actuator configured to provide a combination of force and vibration to the body and skin of the wearer. 17. The soft pneumatic actuator wearable device according to claim 1 , wherein the sensing layer includes a force or strain sensor configured to measure a force applied to the body part of the wearer. 18. The soft pneumatic actuator wearable device according to claim 2 , wherein each at least one of the plurality of low profile discrete sensor elements include a force or strain sensor configured to measure a force applied to the body part of the wearer. 19. The soft pneumatic actuator wearable device according to claim 17 , wherein the controller is configured to perform a closed-loop force control based on a signal of the force or strain sensor, to provide for a feedback force to the body part of the wearer. 20. The soft pneumatic actuator wearable device according to claim 1 , wherein the bidirectional wearable skin forms a sensor-actuator system including a plurality of soft actuators as the body postural actuation device, and a skin layer of the sensor-actuator system forms the distributed actuator and sensing elements. 21. The soft pneumatic actuator wearable device according to claim 16 , wherein the bidirectional wearable skin forms a sensor-actuator system including soft actuators as the body postural actuation device, and a skin layer of the sensor-actuator system forms the distributed actuator and sensing elements, the body postural actuation device forms as a waist belt of the soft exovest. 22. A soft pneumatic actuator wearable device comprising: a bidirectional wearable skin including distributed actuator and sensing elements configured to interact with a skin of a body part of the wearer, and a body postural actuation device, the distributed actuator and sensing elements including a multimodal actuation layer and a sensing layer, the bidirectional wearable skin being flexible and stretchable; a portable power and control device for controlling the distributed actuator an