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Abstract
This paper presents a stand-alone ubiquitous evolvable hardware (u-EHW) system that is effective for automated heart disease diagnosis applications. The proposed u-EHW system consists of a novel reconfigurable evolvable hardware (rEHW) chip, an evolvable embedded processor, and a hand-held terminal. Through adaptable reconfiguration of the filter components, the proposed u-EHW system can effectively remove various types of noise from ECG signals. Filtered signals are sent to a PDA for automated heart disease diagnosis, and diagnosis results with filtered signals are sent to the medical doctor's computer for final decision. The rEHW chip features FIR filter evolution capability, which is realised using a genetic algorithm. A parallel genetic algorithm evolves FIR filters to find the optimal filter combination configuration, associated parameters, and the structure of the feature space adaptively to noisy environments for adaptive signal processing. The embedded processor implements feature extraction and a classifier for each group of signal types. The proposed u-EHW system is a promising solution for various applications such as DSPs, communications, and ubiquitous healthcare systems.
Acknowledgements
This work was supported partly by the Ministry of Commerce, Industry and Energy, and partly by the MIC (Ministry of Information and Communication), Korea, under the ITRC support program supervised by the IITA (IITA-2006-C1090-0603-0019).