FPGA-oriented HW/SW implementation of ECG beat detection and classification algorithm

Abstract

The aim of this paper is to present an FPGA-oriented system design for ECG signal processing. The system performs QRS complex detection and beat classification into either normal or premature ventricular contractions. QRS complex detection is made with an algorithm based on a phase-space portrait of an ECG signal, while for beat classification a part of the Open Source ECG Analysis Software is used. The former is performed in HW and the latter in SW on an integrated PowerPC 405 core. The algorithm was developed on the MIT-BIH Arrhythmia Database where a QRS complex sensitivity of 99.82% and positive predictivity of 99.83% and a PVC sensitivity of 92.36% and specificity of 95.54% were achieved. The processing speed is measured and the results show that the HW/SW implementation of the algorithm processes the ECG data up to 15 times faster than the SW implementation, meaning that real-time ECG signal analysis is possible at much lower frequencies than in analysis performed in SW. We show that the HW/SW implementation makes it possible to use low-cost FPGA devices with soft-core microprocessors in systems where a high processing speed is required.