Dimensions: 8" x 4" x 3" (Case to hold SEMG Module and Arduino Nano)
SEMG Module (Signal capture values vary with module)
SEMG Pads: Commercially available adhesive pads (with goal of moving to sleeve eventually)
SEMG Power input
Processor: Arduino, Raspberry Pi, TI, etc. (Does not need memory, as we will be streaming)
Programming Language: Stream from processor to computer language that has capability to build game (no storage needed)
Connectivity: The entire system will likely be wired
Patient Interface: The patients will be comfortable with electrode pads or a sleeve on their residual limbs while watching the screen of the game they are controlling
Safety: The circuit, if kept dry and cool, will be completely safe, with no chance of electrical feedback to cutaneous electrodes
- Box with processor located near computer, with wires connecting the computer and the box as well as the box and the patient
SEMG Module (Signal capture values vary with module)
SEMG Pads: Commercially available adhesive pads (with goal of moving to sleeve eventually)
SEMG Power input
Processor: Arduino, Raspberry Pi, TI, etc. (Does not need memory, as we will be streaming)
- 9600 baud rate
- input Analog, output Digital
- resolution down to 1/10000 initial signal ----> depends on sensitivity and consistency of module
Programming Language: Stream from processor to computer language that has capability to build game (no storage needed)
Connectivity: The entire system will likely be wired
Patient Interface: The patients will be comfortable with electrode pads or a sleeve on their residual limbs while watching the screen of the game they are controlling
Safety: The circuit, if kept dry and cool, will be completely safe, with no chance of electrical feedback to cutaneous electrodes