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An Ultra-Wearable, Wireless, Low Power ECG Monitoring System Chulsung Park and Pai H. Chou University of California, Irvine, CA 92697-2625 USA Ying Bai,

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Presentation on theme: "An Ultra-Wearable, Wireless, Low Power ECG Monitoring System Chulsung Park and Pai H. Chou University of California, Irvine, CA 92697-2625 USA Ying Bai,"— Presentation transcript:

1 An Ultra-Wearable, Wireless, Low Power ECG Monitoring System Chulsung Park and Pai H. Chou University of California, Irvine, CA 92697-2625 USA Ying Bai, Robert Matthews, and Andrew Hibbs Quantum Applied Science & Research (QUASAR), Inc. 5764 Pacific Center Blvd., Suite 107 San Diego, CA 92121, USA Presenter: Shang-Hao Liu Adviser: Dr. Hung-Chi Yang

2 Materials & Methods Eco PCB :

3 Results Compared to the standard wet / resistance ECG sensor, Quasar sensors are usually at least very excellent signal quality. Conventional electrode QUASAR sensor

4 Conclusion To developing a truly wearable, wireless ECG monitoring system. These IBEs enable through-clothing measurements.

5 Future work Wearable measurement method will be displayed on the mobile phone.

6 Reference [1] C. Otto, A. Milenkovic, C. Sanders, and E. Jovanov. Final results from a pilot study with an implantable loop recorder to determine the etiology of syncope in patients with negative noninvasive and invasive testing. The American Journal of Cardiology, 82:117–119, 1998. [2] Victor Shnayder, Bor-rong Chen, Konrad Lorincz, Thaddeus R.F. Fulford-Jones, and Matt Welsh. Sensor networks for medical care. Technical report, Harvard University, 2005. [3] B. Lo, S. Thiemjarus, R. King, and G.Z. Yang. Body sensor network - a wireless sensor platform for pervasive healthcare monitoring. In Adjunct Proceedings of the 3rd International Conference on Pervasive Computing, May 2005. [4] Joshua Proulx, Ryan Clifford, Sarah Sorensen, Dah-Jye Lee, and James Archibald. Development and evaluation of a Bluetooth EKG monitoring sensor. In Proceedings of the IEEE International Symposium on Computer-Based Medical Systems (CBMS), 2006. [5] Rune Fensli, Einar Gunnarson, and Torstein Gundersen. A wearable ECG-recording system for continuous arrhythmia monitoring in a wire- less tele-home-care situation. In Proceedings of the IEEE International Symposium on Computer-Based Medical Systems (CBMS), 2005. [6] Eugene Shih, Vladimir Bychkovsky, Dorothy Curtis, and John Guttag. Continuous medical monitoring using wireless microsensors. In Pro- ceedings of SenSys, page 310, November 3–5 2004. [7] Moteiv. Tmote Sky Zigbee-based WSN platform. http://www. moteiv.com/. [8] Crossbow. MICA2/MICA2DOT wireless sensor platform. http:// www.xbow.com/. [9] J. Polastre, R. Szewczyk, and D. Cullar. Telos: Enabling ultra-low power wireless research. In The 4th International Conference on Information Processing in Sensor Networks(IPSN’05), April 2005. [10] Chipcon. ISM band wireless transceiver. http://www.chipcon. com/files/CC1050_Data_Sheet_1_2.pdf. [11] Robert Matthews, Neil J. McDonald, Igor Fridman, Paul Hervieux, and Tom Nielsen. The invisible electrode – zero prep time, ultra low capacitive sensing. In Proceedings of the 11th International Conference on Human-Computer Interaction, July 22–27 2005. [12] Chulsung Park and Pai H. Chou. Eco: Ultra-wearable and expandable wireless sensor platform. In Third International Workshop on Body Sensor Networks(BSN2006), April 2006. [13] Chulsung Park, Pai H. Chou, and Mazanobu Shinozuka. Duranode: Wireless networked sensor for structural health monitoring. In The 4th IEEE International Conference on Sensors, Nov. 2005.

7 Thank You For Your Attention

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