High-definition electrical stimulation for enhanced spatial awareness and target alignment in weapon aiming applications

The invention claimed is: 1. An aiming assistance device for assisting a user in aiming a ranged weapon at a target, the aiming assistance device comprising: a garment comprising a sleeve or armband or wristband configured to be disposed on an arm or wrist, the garment including haptic devices arranged to apply haptic sensation to skin of the arm or wrist when the garment is worn on the arm or wrist; and an electronic processor programmed to: receive telemetry information from one or more sensors, determine an aim error including a direction of the aim error based on the telemetry information wherein the aim error indicates of an error between a trajectory of the ranged weapon and an on-target trajectory from the ranged weapon to the target, and operate the haptic devices to provide a somatosensation indicative of the aim error including operating the haptic devices to provide the somatosensation indicative of the aim error at an angular position on the arm or wrist determined based on the direction of the aim error. 2. The aiming assistance device of claim 1 wherein the haptic devices comprise: electrodes arranged to apply haptic sensation comprising transcutaneous electrical neurostimulation (TENS) to the skin of the arm or wrist when the garment is worn on the arm or wrist; and an electrical stimulation transmitter operatively coupled with the array of electrodes. 3. The aiming assistance device of claim 1 wherein the haptic devices comprise vibrators pressed against the skin of the arm or wrist when the garment is worn on the arm or wrist. 4. The aiming assistance device of claim 1 wherein the garment comprises a compression garment comprising a stretchable fabric. 5. The aiming assistance device of claim 1 wherein the electronic processor is programmed to determine the aim error based on the telemetry information comprising position and orientation of the ranged weapon and position of the target. 6. The aiming assistance device of claim 1 wherein the electronic processor is programmed to determine the aim error based on the telemetry information comprising a video frame acquired by a video camera mounted on a barrel of the ranged weapon. 7. The aiming assistance device of claim 1 wherein the direction of the aim error is defined as an angle ϕ of the aim error, and the electronic processor is programmed to operate the haptic devices to provide the somatosensation indicative of the aim error at an angle around the arm or wrist that is 180° opposite from the angle ϕ of the aim error. 8. The aiming assistance device of claim 1 wherein the electronic processor is programmed to: determine the aim error further including a magnitude of the aim error, and operate the haptic devices to provide the somatosensation indicative of the aim error at an intensity determined based on the magnitude of the aim error. 9. A weapon system comprising: a ranged weapon; and an aiming assistance device for assisting a user in aiming the ranged weapon at a target, the aiming assistance device including a garment comprising a sleeve or armband or wristband configured to be disposed on an arm or wrist, the garment including electrodes arranged to apply transcutaneous electrical neurostimulation (TENS) to skin of the arm or wrist when the garment is worn on the arm or wrist, and an electronic processor programmed to: receive telemetry information from one or more sensors, determine an aim error based on the telemetry information wherein the aim error indicates of an error between a trajectory of the ranged weapon and an on-target trajectory from the ranged weapon to the target, and operate the electrodes to provide a somatosensation comprising TENS indicative of the aim error. 10. The weapon system of claim 9 wherein the ranged weapon is a gaming accessory for a virtual reality (VR) game or VR training system and the target is a VR object in a VR environment of the VR game or VR training system. 11. The weapon system of claim 9 wherein the ranged weapon is a sniper rifle. 12. The weapon system of claim 9 wherein the ranged weapon is a jamming device for drone defense having a rifle form factor. 13. An aiming assistance method for assisting a user in aiming a ranged weapon at a target, the aiming assistance method comprising: receiving telemetry information from one or more sensors; determining an aim error based on the telemetry information wherein the aim error indicates of an error between a trajectory of the ranged weapon and an on-target trajectory from the ranged weapon to the target; and providing a somatosensation indicative of the aim error to the user by operating haptic devices of a garment worn on an arm or wrist of the user to apply haptic sensation to skin of the arm or wrist; wherein at least one of: the determined aim error includes a direction of the aim error, and the haptic sensation is applied to the skin of the arm or wrist an angular position on the arm or wrist determined based on the direction of the aim error; and/or the determined aim error includes a magnitude of the aim error, and the haptic devices are operated to provide the somatosensation indicative of the aim error at an intensity determined based on the magnitude of the aim error. 14. The aiming assistance method of claim 13 wherein the haptic devices comprise electrodes and the applied haptic sensation comprises transcutaneous electrical neurostimulation (TENS). 15. The aiming assistance method of claim 13 wherein the haptic devices comprise vibrators pressed against the skin of the arm or wrist by the garment and the applied haptic sensation comprises vibrations applied by the vibrators. 16. The aiming assistance method of claim 13 wherein the aim error is determined based on the telemetry information comprising position and orientation of the ranged weapon and position of the target. 17. The aiming assistance method of claim 13 wherein the aim error is determined based on the telemetry information comprising a video frame acquired by a video camera mounted on a barrel of the ranged weapon. 18. The aiming assistance method of claim 13 wherein the determined aim error includes a direction of the aim error, and the haptic sensation is applied to the skin of the arm or wrist an angular position on the arm or wrist determined based on the direction of the aim error. 19. The aiming assistance method of claim 13 wherein the determined aim error includes a magnitude of the aim error, and the haptic devices are operated to provide the somatosensation indicative of the aim error at an intensity determined based on the magnitude of the aim error.