Title :
A single chip solution for pulse transmit time measurement
Author :
Knezevic, Sasa ; Stojanovic, Radovan ; Asanin, Bogdan ; Karadaglic, Dejan
Abstract :
This paper proposes a methodology for Pulse Transmit Time measurement for purposes of cuff-less monitoring of Blood Pressure. The ECG and PPG signals are simultaneously acquired and Pulse Transmit Time is determined as a time between R peak in ECG and maximal slope in PPG. To distinguish characteristic points Discrete Wavelet Transform, Derivative Filtering, Modulus Maxima and additional functions are employed and translated in VHDL code and then embedded in a single chip from FPGA technology. The system works on-line, achieving accuracy of 97.53% and 97.09% for R peak and slope detection respectively. The emphasis is given to the description of signal processing approach, system architecture and working principles of fundamental components. Also, the preliminary testing results are presented.
Keywords :
blood pressure measurement; discrete wavelet transforms; electrocardiography; embedded systems; field programmable gate arrays; filtering theory; hardware description languages; medical signal processing; patient monitoring; photoplethysmography; ECG signals; FPGA technology; PPG signals; R peak; VHDL code; blood pressure monitoring; cuff-less monitoring; derivative filtering; discrete wavelet transform; electrocardiograph; embedded system; modulus maxima; photoplethysmograph; pulse transmit time measurement; signal acquisition; signal processing; single chip solution; single chip system; slope detection; system architecture; Accuracy; Approximation methods; Clocks; Detectors; Discrete wavelet transforms; Electrocardiography; Field programmable gate arrays;
Conference_Titel :
Bioinformatics and Bioengineering (BIBE), 2013 IEEE 13th International Conference on
Conference_Location :
Chania
DOI :
10.1109/BIBE.2013.6701625
