Design and Implementation of the Pulse Wave Generator with Field Programmable Gate Array Based on Windkessel Model_Journal of Biomedical Engineering

Authors：

WANGHao ¹ , FUQuanhai ¹ ,  XULisheng ^1,2 , LIUJia ¹ , HEDianning ¹ , LIQingchun ³

1. Sino-Dutch Biomedical and Information Engineering School, Northeastern University, Shenyang 110004, China;
2. Key Laboratory of Medical Image Computing, Ministry of Education, Shenyang 110819, China;
3. Power Dispatching Control Center of Liaoning Electric Power Company Limited, Shenyang 110006, China;

Corresponding author：

XULisheng, Email: xuls@bmie.neu.edu.cn

Keywords：

pulse wave; cardiovascular simulation; windkessel model; field programmable gate array; system on a programmable chip

DOI：

10.7507/1001-5515.20140186

Video：

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Pulse waves contain rich physiological and pathological information of the human vascular system. The pulse wave diagnosis systems are very helpful for the clinical diagnosis and treatment of cardiovascular diseases. Accurate pulse waveform is necessary to evaluate the performances of the pulse wave equipment. However, it is difficult to obtain accurate pulse waveform due to several kinds of physiological and pathological conditions for testing and maintaining the pulse wave acquisition devices. A pulse wave generator was designed and implemented in the present study for this application. The blood flow in the vessel was simulated by modeling the cardiovascular system with windkessel model. Pulse waves can be generated based on the vascular systems with four kinds of resistance. Some functional models such as setting up noise types and signal noise ratio (SNR) values were also added in the designed generator. With the need of portability, high speed dynamic response, scalability and low power consumption for the system, field programmable gate array (FPGA) was chosen as hardware platform, and almost all the works, such as developing an algorithm for pulse waveform and interfacing with memory and liquid crystal display (LCD), were implemented under the flow of system on a programmable chip (SOPC) development. When users input in the key parameters through LCD and touch screen, the corresponding pulse wave will be displayed on the LCD and the desired pulse waveform can be accessed from the analog output channel as well. The structure of the designed pulse wave generator is simple and it can provide accurate solutions for studying and teaching pulse waves and the detection of the equipments for acquisition and diagnosis of pulse wave.

Citation： WANGHao, FUQuanhai, XULisheng, LIUJia, HEDianning, LIQingchun. Design and Implementation of the Pulse Wave Generator with Field Programmable Gate Array Based on Windkessel Model. Journal of Biomedical Engineering, 2014, 31(5): 989-993. doi: 10.7507/1001-5515.20140186 Copy

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1. 白净,吴冬生,张菊鹏,等.脉搏波与生理病理变化关系的仿真研究[J].航天医学与医学工程,1996,9(1):32-36.
2. XU L S, MENG M Q H, QI X H, et al. Morphology variability analysis of wrist pulse waveform for assessment of arteriosclerosis status[J]. J Med Syst, 2010, 34(3): 331-339.
3. 罗志昌,张松,杨益民.脉搏波的工程分析与临床应用[M].北京:科学出版社,2006:55-60.
4. GOLDWYN R M, WATT T B. Arterial pressure pulse contour analysis via a mathematical model for the clinical quantification of human vascular properties[J]. IEEE Trans Biomed Eng, 1967, 14(1): 11-17.
5. 孙磊.心血管系统仿真建模与脉搏波分析研究[D].杭州:浙江大学,2008.
6. XU L S, SONG D, CHEN J L, et al. The implementation of pulse wave signal generator based on piecewise Gaussian-cosine fitting[C]//Proceedings of 2012 IEEE International Conference on Information and Automation. Shenyang: 2012: 674-679.
7. 白英良,雷飞,徐萍萍.基于FPGA的SOPC嵌入式系统设计[J].北华航天工业学院学报,2010, 20(B07):1-3.

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