Abstract
Most of the Telemedicine Foundation has limited Telemedicine nodes connection in rural area. But increasing population of countries need unlimited of complexity Telemedicine connection. My research work proposed Cloud and Grid computing based Telemedicine using computer communication network by distributed sharing of Internet for supports increasing complexity of TM nodes connection to implements to rural area for point to point communication and Multipoint to Multipoint connection with communication control This paper examine the evaluation of unlimited TM connection to rural area and analyses the diffusion of Telemedicine nodes by limited connection from model of hierarchical telemedicine network,. [1].[2].[3]
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References
Saravanan, S., Anbu Rajan, M., Venkat Raman, A.: Telemedicine using computer using computer communication network. International Journal of Computer Science and Communication 2 (June to December 2011)
de Toledo, P., Jimenez, S., del Pozo, F., Roca, J., Alonso, A., Hernandez, C.: Telemedicine Experience for Chronic Care in COPD. IEEE Transaction on Information Technology in Biomedicine 10(3) (July 2006)
Xue, Y., Liang, H.: Communications, Analysis of Telemedicine Diffusion: The case of China. IEEE Transaction on Information Technology in Biomedicine II(3) (March 2007)
Lemma, F., Denko, M.K., Kassegne, S.K.: Hierarchical Model based LAN Architecture and V-SAT based WAN for a National Telemedicine Network in a Developing country: case of Ethiopia (2007)
National rural telemedicine Network suggested Architecture and guide lines Ministry of health a family welfare government of India (2005)
Martinez, A., Villarroel, V., Seoane, J., del Pozo, F.: Analysis of information and communication need in Rural primary Healthcare in Developing countries. IEEE Transaction on Information Technology in Biomedicine 9(1) (March 2005)
Srinivasan III, K.: Webservice and IT Management in Healthcare and Grid computing, hip://mpra.Ub.uni-muenchen.de{70620, MPRA paper No.7082, Postel 09 (February 2008)
Nessa, A., Ameen, M.A., ULLah, S., Kwak, K.S.: Applicability of Telemedicine in Bangladesh: Current status and Future Prospects. In: Third 2008 International Conference on Convergence and Hybrid Information Technology, November 8. IEEE Xplore, IEEE Computer Society (2008)
Aziz, J.S., Hussein, O.A., Naoom, A.: Design of Telemedicine Systems for Rural and Urban Areas in IRAQ. ARPN Journal of Engineering and Applied Sciences 4(2) (April 2009)
Rasid, M.F.A., Woodward, B.: Bluetooth Telemedicine Processor for Multichannel Biomedical Signal Transmission via mobile Cellular Networks. IEEE Transaction on Information Technology in Biomedicine 9(1) (March 2005)
Hu, F., Wang, Y., Wu, H.: Mobile telemedicine sensor networks with low-energy data query and network Lifetime considerations. IEEE Transaction on Mobile Computing 5(4) (April 2006)
Viswacheda, D.V., Arifianto, M.S., Barukang, L.: SETIT 2007, 4th International conference science of Electronic, Technologies of Information Telecommunications, Tunicia, March 25-29 (2007)
Niyato, D., Hossain, E., Diamond, J.: Trlabs and University of MANITOBA, IEEE 802.16 WIMAX-Based broadband wireless access and its Application for telemedicine/ E-health services. IEEE (2007)
Pandian, P.S., Safeer, K.P., Shakunthala, D.T.I., Gopal, P., Padaki, V.C.: Journal of Networks 2(6) (December 2007)
Zhang, Y., Ansari, N., Tsonoda, H.: Wireless telemedicine service over Integtrated IEEE 802.11 WLAN and IEEE 802.16/WIMAX @ Networks. IEEE (2010)
Zvikhachevskaya, A., Markarian, G., Mihaylova, L.: Quality of service consideration for the wireless telemedicine and e-health services. In: IEEE Communication Society –WCNC 2009 Proceedings (2009)
Alesanco, A., Garela, J.: Clinical Assesment of wireless ECG Transmission in Real-Time cardio Telmonitoring. IEEE Transaction on Information Technology in Biomedicine 14(5) (September 2010)
Bai, J., Hu, B., Zhang, Y., Ye, D.: A communication server for telemedicine applications. IEEE Transaction on Information Technology in Biomedicine (August 06, 2002)
Tan, X., Guo, X.-M., Chen, M.: China Design and Realization of Distributed Wireless Telemedicine Monitor Center Based on Virtual Instruments. In: IEEE Transaction on Information Technology in Biomedicine 2009, Third International Conference on ICBBE, June 11-13 (2009)
Kim, Y.S.: Anetwork based Telemedicine service. International Journal of Energy, Information and Communications 2(1) (February 2011)
Yagoubi, B., Slimani, Y.: Task, load balancing statergy for Grid computing. Journal of Computer Science 3 (2007); Prabhat, K.S., Gupta, S., Yadav, D.S.: Improving performance in load balancing on the grid computing system. International Journal of Computer Application 16 (February 2011)
Wu, Y.D., Wei, Z., Yao, H., Zhao, Z., Ngoh, L., Deng, R.H., Yu, S.: Teleoph: A secure real –Time telephthalmology system. IEEE Transaction on Information Technology in Biomedicine 14(5) (September 2010)
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Saravanan, S., AnbuRajan, M., Venkatraman, A. (2012). Cloud and Grid Computing Based Telemedicine Using Computer Communication Network through Internet. In: Krishna, P.V., Babu, M.R., Ariwa, E. (eds) Global Trends in Computing and Communication Systems. ObCom 2011. Communications in Computer and Information Science, vol 269. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-29219-4_50
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DOI: https://doi.org/10.1007/978-3-642-29219-4_50
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