Title :
Low-power polling mode of the next-generation IMES2 Implantable wireless EMG sensor
Author :
DeMichele, Glenn A. ; Zhe Hu ; Troyk, Philip R. ; Hongnan Chen ; Weir, Richard F. Ff
Author_Institution :
Sigenics Inc., Chicago, IL, USA
Abstract :
The IMES1 Implantable MyoElectric Sensor device is currently in human clinical trials led by the Alfred Mann Foundation. The IMES is implanted in a residual limb and is powered wirelessly using a magnetic field. EMG signals resulting from the amputee´s voluntary movement are amplified and transmitted wirelessly by the IMES to an external controller which controls movement of an external motorized prosthesis. Development of the IMES technology is on-going, producing the next-generation IMES2. Among various improvements, a new feature of the IMES2 is a low-power polling mode. In this low-power mode, the IMES2 power consumption can be dramatically reduced when the limb is inactive through the use of a polled sampling. With the onset of EMG activity, the IMES2 system can switch to the normal higher sample rate to allow the acquisition of high-fidelity EMG data for prosthesis control.
Keywords :
artificial limbs; electromyography; magnetic fields; medical control systems; EMG activity; EMG signal; IMES technology; IMES2 power consumption; amputee voluntary movement; external motorized prosthesis; human clinical trial; implantable myoelectric sensor device; implantable wireless EMG sensor; low-power polling mode; magnetic field; next-generation IMES2; prosthesis control; residual limb; Coils; Electromyography; Magnetic fields; Prosthetics; Switches; Telemetry;
Conference_Titel :
Engineering in Medicine and Biology Society (EMBC), 2014 36th Annual International Conference of the IEEE
Conference_Location :
Chicago, IL
DOI :
10.1109/EMBC.2014.6944274
