Remote Patient Monitoring System Using WLAN-Enabled Mobile Phones in Tikrit Educational Hospital
This study aims to provide an applicable simulation on implementing a Remote Patients Monitoring System Via WLAN to improve the existed system in the Educational Hospital of Tikrit, Iraq, and gives the hospital staff the ability to access the vital information of the patients who are in emergency ca...
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TK6570 Mobile Communication System. |
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TK6570 Mobile Communication System. Hussein, Harith A. Remote Patient Monitoring System Using WLAN-Enabled Mobile Phones in Tikrit Educational Hospital |
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This study aims to provide an applicable simulation on implementing a Remote Patients Monitoring System Via WLAN to improve the existed system in the Educational Hospital of Tikrit, Iraq, and gives the hospital staff the ability to access the vital information of the patients who are in emergency cases through the internet by using WLAN-enabled mobiles. In this study, the process of patient diagnosis will be shown in order to enable remote access of the data stored and updated in the Medical Monitoring Center under critical environments which surrounding the territory of the city. In addition to that, there will be a justification
of choosing WLAN among the other technologies. |
| format |
Thesis |
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masters |
| qualification_level |
Master's degree |
| author |
Hussein, Harith A. |
| author_facet |
Hussein, Harith A. |
| author_sort |
Hussein, Harith A. |
| title |
Remote Patient Monitoring System Using WLAN-Enabled Mobile Phones in Tikrit Educational Hospital |
| title_short |
Remote Patient Monitoring System Using WLAN-Enabled Mobile Phones in Tikrit Educational Hospital |
| title_full |
Remote Patient Monitoring System Using WLAN-Enabled Mobile Phones in Tikrit Educational Hospital |
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Remote Patient Monitoring System Using WLAN-Enabled Mobile Phones in Tikrit Educational Hospital |
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Remote Patient Monitoring System Using WLAN-Enabled Mobile Phones in Tikrit Educational Hospital |
| title_sort |
remote patient monitoring system using wlan-enabled mobile phones in tikrit educational hospital |
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Universiti Utara Malaysia |
| granting_department |
College of Arts and Sciences (CAS) |
| publishDate |
2009 |
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https://etd.uum.edu.my/1611/1/Harith_A._Hussein.pdf https://etd.uum.edu.my/1611/2/1.Harith_A._Hussein.pdf |
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my-uum-etd.16112013-07-24T12:12:31Z Remote Patient Monitoring System Using WLAN-Enabled Mobile Phones in Tikrit Educational Hospital 2009-05 Hussein, Harith A. College of Arts and Sciences (CAS) College of Arts and Sciences TK6570 Mobile Communication System. This study aims to provide an applicable simulation on implementing a Remote Patients Monitoring System Via WLAN to improve the existed system in the Educational Hospital of Tikrit, Iraq, and gives the hospital staff the ability to access the vital information of the patients who are in emergency cases through the internet by using WLAN-enabled mobiles. In this study, the process of patient diagnosis will be shown in order to enable remote access of the data stored and updated in the Medical Monitoring Center under critical environments which surrounding the territory of the city. In addition to that, there will be a justification of choosing WLAN among the other technologies. 2009-05 Thesis https://etd.uum.edu.my/1611/ https://etd.uum.edu.my/1611/1/Harith_A._Hussein.pdf application/pdf eng validuser https://etd.uum.edu.my/1611/2/1.Harith_A._Hussein.pdf application/pdf eng public masters masters Universiti Utara Malaysia Anogianakis, G., Maglarera, S. and Pomportsis, A. (1998). Relief for maritime medical emergencies through telematics. IEEE Transactions on Information Technologies in Biomedicine, 2(4), 254-260. Bauer, P., Sichitiu, M., Istepanian, R. and Premaratne, K. (2000). The mobile patient: wireless distributed sensor networks for patient monitoring and care. Proceedings of the IEEE EMBS International Conference on Information Technology Applications in Biomedicine, 9-10 Nov. 2000, Arlington, VA, 17-21. Becker, E., Xu, Y., Ledford, S., and Makedon, F. (2008). A Wireless Sensor Network Architecture and its Application in an Assistive Environment. ACM, 282(25), 67-69. Bhargava, A. and Zoltowski, M. (2003). Sensors and wireless communication for medical care. Proceedings of the 14th International Database and Expert Systems Applications, 1-5 Sept. 2003, West Lafayette, IN, USA, 956-960. Boric-Lubecke, 0. and Lubecke, V.M. (2002). Wireless house calls: using communications technology for health care and monitoring. IEEE Microwave Magazine, 3(3), 43-48. Booch, G. (1996). Object-oriented analysis and design: Addison-Wesley Reading, MA. Gieras, I. A. (2003). The proliferation of patient-worn wireless telemetry technologies within the US Healthcare Environment. Proceedings of the Fourth International IEEE EMBS Special Topic Conference on Information Technology Applications in Biomedicine, 24-26 April 2003, Royal Oak, MI, USA, 295-298. Goodman, C.(2005). Health information technology leadership panel final report. The Lewin Group, Inc. Miles, R., & Hamilton, K. (2006). Learning UML 2.0: O'Reilly Media, Inc. Istepanian, R.S.H. & Petrosian, A. A. (2000). Optimal zonal wavelet-based ECG data compression for a mobile telecardiology system. IEEE Transactions on Information Technology in Biomedicine, 4(3), 200-211. Jiehui, J. & Jing, Z. (2007). Remote patient monitoring system for china. IEEE Pointer, 26(3), 26-29. Jones, V. M., Bults, R. A. G., Konstantas, D., Vierhout, P. A. M. (2001). Healthcare PANS: Personal Area Networks for trauma care and home care. Proceedings Fourth International Symposium on Wireless Personal Multimedia Communications (WPMC), 9-12 Sep 2001, Aalborg, Denmark, 9-12. Jones, V.M. (2006). From BAN to AmI-BAN: micro and nano technologies in future Body Area Networks. In: Proceedings Symposium on Integrated Micro Nano Systems, 20 June 2006, Enschede, the Netherlands, 22-29. Jovanov, E., Raskovic, D., Loards,A., Cox, P., Adhammi, R., Andrasik, F. (2003). Synchronized Physiological Monitoring Using a Distributed Wireless Intelligent Sensor System. Proceedings of the 25th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 17-21 Sept. 2003, Alabama Univ., Huntsville, AL, USA, 1368-1371. Jovanov, E., O'Donnell Lords, A., Raskovic, D ,.Cox, P. G., Adhami, R., & Andrasik, F. (2003). Stress monitoring using a distributed wireless intelligent sensor system. IEEE Engineering in Medicine and Biology Magazine, 22(3), 49-55 Jovanov, E., O'Donnel, A., Morgan, A., Priddy, B. and Hormigo, R. (2002). Prolonged telemetric monitoring of heart rate variability using wireless intelligent sensors and a mobile gateway. Proceedings of the Second Joint IEEE EMBS/BMES Conference (24th Annual EMBS Conference and the Annual Fall Meeting of the Biomedical Engineering Society), 2, 1875-1876. Kamar, N. & Ong'ondo, M. (2007). Impact of e-Government on Management and use of Government Information n Kenya. World Library And Information Congress: 73rd Ifla general conference and council, 19-23 August 2007, Durban, South Africa from http://www. ifla.org/iv/ifla 73/index.htm. Kara, A. (2001). Protecting privacy in remote-patient monitoring. IEEE Computer, 34(5), 24-27. Kern, S.E. and Jaron, D. (2003). Healthcare technology, economics and policy: an evolving balance. IEEE Engineering in Medicine and Biology Magazine, 22(1), 16-19. Khoor, S., Nieberl, K., Fugedi, K. and Kail, E. (2001). Telemedicine ECG-telemetry with Bluetooth technology. Proceedings of the Computers in Cardiology, Rotterdam, 23-26 Sep. 2001, Rotterdam, Netherlands, 585-588. Kogure, Y., Matsuoka, H., Kinouchi, Y., & Akutagawa, M.(2005). The Development of a Remote Patient Monitoring System using Java-enabled Mobile Phones. Proceedings of the 2005 IEEE Engineering in Medicine and Biology 27th Annual Conference Shanghai, China, 2157-2160. Konstantas, D., Jones, V., Bults, R., & Herzog, R. (2002). MobiHealth-Wireless mobile services and applications for healthcare. International Conference On Telemedicine-Integration of Health Telematics into Medical Practice. 2-6 Feb. 2008, New York, USA, 33-39. Kulkarnia, P. and Ozturk, Y. (2004). Requirements and Design Spaces of Mobile Medical Care. Mobile Computing and Communications Review, 11(3), 12-30. Lymberis, A., Directorate-Gen, I. S., Comm ,E., & Brussels, B. (2003). Smart wearables for remote health monitoring, from prevention to rehabilitation: current R&D, future challenges. Proceedings of the Fourth International IEEE EMBS Special Topic Conference on Information Technology Applications in Biomedicine, 24-26 April 2003, Brussels, Belgium, 272-275. Mendoza, G.G. and Tran, B.Q. (2002). In-home wireless monitoring of physiological data for heart failure patients. Proceedings of the Second Joint IEEE EMBS/BMES (24th Annual Conference and the Annual Fall Meeting of the Biomedical Engineering Society) Conference, 23-26 Oct. 2002, Washington, DC, USA, 3, 1849-1850. Martin, Trold. (2002). Code estimation using Analysis and Design Tolls. IEEE Microwave Magazine, 5(7), 43-48. Mikel, A. (2008). Medical Dictionary. Washington, DC: Wiely publishing Inc. Mikrotik . (2008). MikroTik RouterOSTM v2.9Reference Manual. New York: Mikrotik Ltd. Modarreszadeh, M., & Schmidt, R. N. (1997). Wireless, 32-channel, EEG and epilepsy monitoring system. Proceedings of the 19th Annual IEEE International Conference on Engineering in Medicineand Biology, 30 Oct-2 Nov 1997, Chicago, IL, USA, 3, 1157-1160. Ojo, T. & Estevez, A. (2005). Advanced Analysis and design Meta data Terminology . IEEE Transactions on Information Technologies in Biomedicine, 2(4), 44-49 Pavlopoulos, S., Kyriacou, E., Berler, A., Dembeyiotis, S., & Koutsouris, D. (1998). A novel emergency telemedicine system based on wireless communication technology-AMBULANCE. IEEE Transactions on Information Technology in Biomedicine, 2(4), 261-267. Pattichis, C. S., Kyriacou, E., Voskarides, S., Pattichis, M. S., Istepanian, R., & Schizas, C. N. (2002). Wireless telemedicine systems: an overview. IEEE Antennas and Propagation Magazine, 44(2), 143-153. Perakis, K., Haritou, M., Stojanovic, R., Asanin, B., Koutsouris , D. (2008). Wireless Patient Monitoring System for the e-inclusion of chronic patients and elderly people. Proceedings of the 1st international conference on Pervasive Technologies Related to Assistive Environments, 2-6 Feb. 2008, New York, USA, 32-45. Pollard, J.K., Rohman, S. and Fry, M.E. (2001). A web-based mobile medical monitoring system. IEEE International Workshop on Intelligent Data Acquisition and Advanced Computing Systems, 1-4 July 2002, Crimea, Ukraine, 32-35. Rhee, S., Yang, B-H., Chang, K. and Asada, H.H. (1998). The ring sensor: a new ambulatory wearable sensor for twenty-four hour patient monitoring. Proceedings of the 20th Annual IEEE International Conference on Engineering in Medicine and Biology, 29-10 01-11 1998, Cambridge, MA, 1906-1909. Robert, A., Maksimchuk, R., Engle, M., Young, B., Conallen, J., & Houston, K. (2007). Object-Oriented Analysis and Design with Applications. New York: Random House. Ryan, T. and Venkatesan, s. (2007). Accelerometer-Based Human Abnormal Movement Detection in Wireless Sensor Networks. Proceedings of the 1st ACM SIGMOBILE international workshop on Systems and networking support for healthcare and assisted living environments, USA, 67-69. Shekelle, P. G., Morton, S. C., & Keeler, E. B. (2006). Costs and benefits of health information technology. Evidence report/technology assessment, 4(132), 1, from http://www.ahrq.gov/CLINIC/tp/hitsystp.htm Suzuki, T. and Doi, M. (2001). LifeMinder: an evidence-based wearable healthcare assistant. Conference on Human Factors in Computing Systems, 127-128. Stuntebeck, E., Davis, J., Abowd, G., and Blount, M. (2008). Healthsense: Classification of Health-related Sensor Data through User-Assisted Machine Learning. Proceedings of the 9th workshop on Mobile computing systems and applications, 1-5, from http://www.citeulike.org/user/tnhh/article/3385547. Tmbler, Ko1.(2004). Advanced System and Design using UML2.0. New York: White Door. Van Halteren, R., Bults, A., Widya, I.,Jones, V., and Konstantas. (2003). Mobihealth-Wireless body area networks for healthcare. health and life style, 11-14 Dec 2003, Il Ciocco Castelvecchio Pascoli Lucca, Tuscany, 121 - 126, from http://eprints.eemcs.utwente.n1/7102/ Varady, P., Benyo, Z . and Benyo, B . (2002). An open architecture patient monitoring system using standard technologies. IEEE transactions on information technology in biomedicine, 6(1),95-98. Varshney, . (2006). Patient Monitoring System Using Infrastructure-oriented Wireless LANs. International Journal for Electronic Healthcare, 2(2), 149-163. Varshney, U. (2003c). Pervasive healthcare. IEEE Computer, 36(12), 138-140. Varshney, U. (2003d). The status and future of 802.11-based WLANs. IEEE Computer, 36(6), 90-93. Zhang,P., Kogure, Y., Matsuoka, H., Akutagawa, M., Kinouchi Y., and Zahang, Q.(2007). A Remote Patient Monitoring System Using a Java-enabled 3G Mobile Phone. Proceedings of the 29th Annual International Conference of the IEEE EMBS, 22-26 Aug. 2007, Univ. of Tokushima, Tokushima, 3713-3716. Zimmer& Vincent J.(2008). Component firmware integration in distributed systems. United States Patent Application, From http://www.freepatentsonline.com/y2008/0244259.html Zimmerman, T., & Chang, K. (2007). Simplifying Home Health Monitoring By Incorporation a cell phone in a weight scale. ACM International Conference Proceeding Series, 9 April 2007, San Jose, CA, 282-288. |