Jewajinda, Y. and Chongstitvatana, P., "A Parallel Genetic Algorithm
for Adaptive Hardware and Its application to ECG Signal
Classification," to be published in Neural Computing and
Applications (ISSN: 0941-0643), 2012.
Abstract
This paper presents a parallel genetic algorithm and its
implementation for adaptive hardware. An adaptive hardware based-on
the parallel genetic algorithm is proposed to automate the real-time
classification of ECG signals. The parallel genetic algorithm not
only provides a strong search capability while maintaining genetic
diversity using multiple genetic algorithms, but also has a
cellular-like structure and is a straight forward algorithm suitable
for hardware implementation. The hardware engine of the parallel
genetic algorithm and an adaptive digital filter structure also
perform an adaptive feature selection in real-time. In addition, the
parallel genetic algorithm is applied to a block-based neural
network for online learning in the hardware. Using an adaptive
hardware approach based on the parallel genetic algorithm, an
adaptive hardware for classifying ECG signal is feasible. The
proposed adaptive hardware can be implemented in an FPGA or a small
scale embedded system for portable medical devices applied to
personalised ECG signal classifications for long- term patient
monitoring.