Analysis and Design of On-sensor ECG Processors for Realtime Detection of Cardiac Anomalies Including VF, VT, and PVC

Analysis and Design of On-sensor ECG Processors for Realtime Detection of Cardiac Anomalies Including VF, VT, and PVC

Cardiovascular disease remains the main cause of death, and great efforts are spent on the design of ECG (electrocardiogram) body sensors these years. Essential components such as analog frontend and wireless transceivers have been integrated on a compact IC with micro-Watt power consumption. To pro...

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Veröffentlicht in:Journal of signal processing systems 2011-11, Vol.65 (2), p.275-285
Hauptverfasser: Chen, Hong-Hui, Chiang, Cheng-Yi, Chen, Tung-Chien, Liu, Chien-Sheng, Huang, Yu-Jie, Lu, Shey-Shi, Lin, Chii-Wann, Chen, Liang-Gee
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Circuits and Systems
Computer Imaging
Design engineering
Electrical Engineering
Engineering
Image Processing and Computer Vision
Integrated circuits
Pattern Recognition
Pattern Recognition and Graphics
Polyvinyl chlorides
Processors
Real time
Signal processing
Signal,Image and Speech Processing
Vision
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Zusammenfassung:Cardiovascular disease remains the main cause of death, and great efforts are spent on the design of ECG (electrocardiogram) body sensors these years. Essential components such as analog frontend and wireless transceivers have been integrated on a compact IC with micro-Watt power consumption. To provide timely warning against the fatal vascular signs, based on the Chaotic Phase Space Differential (CPSD) algorithm, heterogeneous VLSI processors are implemented and integrated to extract the abnormal ECG characteristics for VF (Ventricular Fibrillation), VT (Ventricular Tachycardia) and PVC (Premature Ventricular Contraction). The on-sensor processing reduces 98.0% power of wireless data transmission for raw ECG signals. The application specific processor is designed to accelerate CPSD algorithm with 1.7μW power while the OpenRISC is integrated to provide the system flexibility. The architecture is realized on the FPGA platform to demonstrate the detection of the abnormal ECG signals in realtime.
ISSN:1939-8018
1939-8115
DOI:10.1007/s11265-011-0615-9