References
Freeman, Roger K., Thomas J. Garite, and Michael P. Nageotte. Fetal Heart Rate Monitoring. Baltimore: Williams & Wilkins, 2003. Print.
Gilb, and J.P.K. "Bluetooth Radio Architectures." Radio Frequency Integrated Circuits (RFIC) Symposium, 2000. Digest of Papers. 2000 IEEE (2000): n. pag. Web.
Haartsen, Jaap. "BLUETOOTH—The Universal Radio Interface for Ad Hoc, Wireless Connectivity." Ericsson Review 3 (1998): n. pag. Web.
Peters, Maria, John Crowe, Jean-Francois Piéri, Hendrik Quartero, Barrie Hayes-Gill, David James, Jeroen Stinstra, and Simon Shakespeare. "Monitoring the Fetal Heart Non-invasively: A Review of Methods." Journal of Perinatal Medicine 29.5 (2001): 408-16. Print.
Trudinger, B. J., C. M. Cook, L. Jones, and W. B. Giles. "A Comparison of Fetal Heart Rate Monitoring and Umbilical Artery Waveforms in the Recognition of Fetal Compromise." BJOG: An International Journal of Obstetrics and Gynaecology 93.2 (1986): 171-75. Print.
"Fetal Monitoring: External & Internal Monitoring." Fetal Monitoring: External & Internal Monitoring. N.p., n.d. Web. 28 Oct. 2012.
<http://www.healthline.com/health/pregnancy/external-internal-fetal-monitoring>.
Liao, Sheng Hsin. "Retractable Cable Device." United States Patent. N.p., 12 Oct. 2004. Web.
"Rechargeable Backup Battery Pack 12V for Medical Devices." Www.alibaba.com. N.p., n.d. Web. 15 Oct. 2012. <http://www.alibaba.com/product-gs/452895514/Rechargeable_backup_battery_pack_12V_for.html>.
Balani, Rahul. Energy Consumption Analysis for Bluetooth, WiFi and Cellular Networks. NESL 2007. Web. <http://nesl.ee.ucla.edu/fw/documents/reports/2007/poweranalysis.pdf>
Paradis, Mike. ANT+Alliance system. Sep. 30. 2010. ANT. Web.
<http://www.thisisant.com/images/Resources/PDF/ant%2B_nmp%202010.pdf>
Ungureanu et al. Prenatal Telemedicine-Advances in Fetal Monitoring. University of Armed Forces Munich, Romania. Advances in Telemedicine: Applications in Various Medical disciplines in Geographical Regions.(Mar 2011) 97-120,ISBN 978-953-307-161-9.
Omre, A.H. (2010). Bluetooth low energy: wireless connectivity for medical monitoring. J.Diabetes Sci. Technol., 4(2), (Mar 2010) 457-63, ISSN 1932-2968.
Wang, Jianfeng. (2010). Applications, challenges, and prospective in emerging body area networking technologies. Wireless Communications, IEEE.(Feb 2010)17-1 p. 80-88.
Nilsson, Rolf. “Bluetooth Low Energy vs. Classic Bluetooth: Choose the Best Wireless Technology For Your Application.” Web. June 08, 2012. <http://www.medicalelectronicsdesign.com/article/bluetooth-low-energy-vs-classic- bluetooth-choose-best-wireless-technology-your-application>.
Meystre, S. (2005). The current state of telemonitoring: a comment on the literature, Telemed.J. E. Health, 11(1), (Feb. 2005) 63-69, ISSN 1530-5627.
Fadlee, M.; Rasid, A. & Woodward, B. (2005). Bluetooth Telemedicine Processor for Multichannel Biomedical Signal Transmission via Mobile Cellular Networks. IEEE Trans. Inf. Tech. Biomed., 9(1), (March 2005) 35-43, ISSN 1089-7771.
Chourasia, Vijay. "Fetal heart rate variability analysis from phonocardiographic recordings." Journal of Mechanics in Medicine and Biology 11.5 (2010): 1315-331. Print.
Kim et al. “Real Time Processing Algorithm for high resolution fetal heart rate estimation.” Dept. of Medical Information. Hanyang University. 133-791
Chen et al. “A portable phonocardiographic fetal heart rate mnitor.” Institute of Infocomm Research.
Bin Le, T.W. Rondeau, J.H. Reed, and C.W. Bostian. "Analog-to-digital Converters." IEEE Signal Processing Magazine 22.6 (2005): 69-77.
Baek, Jong-Kyung, and Jae-Pyo Park. "A Study of Analysis and Improvement of Security Vulnerability in Bluetooth for Data Transfer." Journal of the Korea Academia-Industrial Cooperation Society 12.6 (2011): 2801-806.
"Low-Cost Cyclone FPGAs." Altera News. Web. 03 Dec. 2012. <http://www.altera.com/devices/fpga/cyclone3/cy3-index.jsp>
Gilb, and J.P.K. "Bluetooth Radio Architectures." Radio Frequency Integrated Circuits (RFIC) Symposium, 2000. Digest of Papers. 2000 IEEE (2000): n. pag. Web.
Haartsen, Jaap. "BLUETOOTH—The Universal Radio Interface for Ad Hoc, Wireless Connectivity." Ericsson Review 3 (1998): n. pag. Web.
Peters, Maria, John Crowe, Jean-Francois Piéri, Hendrik Quartero, Barrie Hayes-Gill, David James, Jeroen Stinstra, and Simon Shakespeare. "Monitoring the Fetal Heart Non-invasively: A Review of Methods." Journal of Perinatal Medicine 29.5 (2001): 408-16. Print.
Trudinger, B. J., C. M. Cook, L. Jones, and W. B. Giles. "A Comparison of Fetal Heart Rate Monitoring and Umbilical Artery Waveforms in the Recognition of Fetal Compromise." BJOG: An International Journal of Obstetrics and Gynaecology 93.2 (1986): 171-75. Print.
"Fetal Monitoring: External & Internal Monitoring." Fetal Monitoring: External & Internal Monitoring. N.p., n.d. Web. 28 Oct. 2012.
<http://www.healthline.com/health/pregnancy/external-internal-fetal-monitoring>.
Liao, Sheng Hsin. "Retractable Cable Device." United States Patent. N.p., 12 Oct. 2004. Web.
"Rechargeable Backup Battery Pack 12V for Medical Devices." Www.alibaba.com. N.p., n.d. Web. 15 Oct. 2012. <http://www.alibaba.com/product-gs/452895514/Rechargeable_backup_battery_pack_12V_for.html>.
Balani, Rahul. Energy Consumption Analysis for Bluetooth, WiFi and Cellular Networks. NESL 2007. Web. <http://nesl.ee.ucla.edu/fw/documents/reports/2007/poweranalysis.pdf>
Paradis, Mike. ANT+Alliance system. Sep. 30. 2010. ANT. Web.
<http://www.thisisant.com/images/Resources/PDF/ant%2B_nmp%202010.pdf>
Ungureanu et al. Prenatal Telemedicine-Advances in Fetal Monitoring. University of Armed Forces Munich, Romania. Advances in Telemedicine: Applications in Various Medical disciplines in Geographical Regions.(Mar 2011) 97-120,ISBN 978-953-307-161-9.
Omre, A.H. (2010). Bluetooth low energy: wireless connectivity for medical monitoring. J.Diabetes Sci. Technol., 4(2), (Mar 2010) 457-63, ISSN 1932-2968.
Wang, Jianfeng. (2010). Applications, challenges, and prospective in emerging body area networking technologies. Wireless Communications, IEEE.(Feb 2010)17-1 p. 80-88.
Nilsson, Rolf. “Bluetooth Low Energy vs. Classic Bluetooth: Choose the Best Wireless Technology For Your Application.” Web. June 08, 2012. <http://www.medicalelectronicsdesign.com/article/bluetooth-low-energy-vs-classic- bluetooth-choose-best-wireless-technology-your-application>.
Meystre, S. (2005). The current state of telemonitoring: a comment on the literature, Telemed.J. E. Health, 11(1), (Feb. 2005) 63-69, ISSN 1530-5627.
Fadlee, M.; Rasid, A. & Woodward, B. (2005). Bluetooth Telemedicine Processor for Multichannel Biomedical Signal Transmission via Mobile Cellular Networks. IEEE Trans. Inf. Tech. Biomed., 9(1), (March 2005) 35-43, ISSN 1089-7771.
Chourasia, Vijay. "Fetal heart rate variability analysis from phonocardiographic recordings." Journal of Mechanics in Medicine and Biology 11.5 (2010): 1315-331. Print.
Kim et al. “Real Time Processing Algorithm for high resolution fetal heart rate estimation.” Dept. of Medical Information. Hanyang University. 133-791
Chen et al. “A portable phonocardiographic fetal heart rate mnitor.” Institute of Infocomm Research.
Bin Le, T.W. Rondeau, J.H. Reed, and C.W. Bostian. "Analog-to-digital Converters." IEEE Signal Processing Magazine 22.6 (2005): 69-77.
Baek, Jong-Kyung, and Jae-Pyo Park. "A Study of Analysis and Improvement of Security Vulnerability in Bluetooth for Data Transfer." Journal of the Korea Academia-Industrial Cooperation Society 12.6 (2011): 2801-806.
"Low-Cost Cyclone FPGAs." Altera News. Web. 03 Dec. 2012. <http://www.altera.com/devices/fpga/cyclone3/cy3-index.jsp>