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Smart healthcare sensor kit using IoT. It plays an important role in emergency medical service such as helps to record or collect (BP, Pulses, Temperature) the information about patient and it will save the database to update to the patient details. It helps to save the time of both the patient and doctor. With the help of measuring blood pressure, heart beat rate, temperature, ECG and using neo reflective wrist pulse oximeter. It helps to store the details of the data about patient like, blood pressure, heart beat rate, temperature, ECG etc and so on. Using the intel galileo 2nd generation development board it will connected by the usb cable. This helps to make the connection by the usb cable and fixed it then the result is display the datas in the led display. And one side the data will be stored update Ung the monitoring of his health. This helps to make the connection between the patient and his doctor. This systems sends the real time data of a patient to his doctor on the messages to his and record it for his future reference to the patient. This is help to give the proper data of the patient data and continues medical service to the patient.

Internet of Things (IOT), solar, Sensors, Health Monitoring.

Ahmed Abdelgawad1, Ahmed Khattab2, Kumar Yelamarthi1. “IoT-Based Health Monitoring System for Active and Assisted Living” .IEEE 2017.

Moeen Hassanalieragh∗, Alex Page∗, Tolga Soyata∗, Gaurav Sharma∗, Mehmet Aktas†, Gonzalo Mateos∗ Burak Kantarci‡, Silvana Andreescu .“Health Monitoring and Management Using Internet-of-Thing (IoT) sensing with cloud-based Processing: Opportunities andChallenges”.IEEE 2015.

Joon-Soo Jeong1, Oakyoung Han2 and Yen -You You1*. “A Design Characteristics of `Smart HealthCare System as the IOT Application” .Indian Journal of Science and Technology, 2016.

Mrunali Vijay Mendhe1, K.T. Jadhao2` “Remote Patient Monitoring For Smart Care Using IOT”. IJAERD-2017.

Prosanta Gope and Tzonelih Hwang. “BSN- Care: A Secure IoT-Based Modern Healthcare System Using Body Sensor Network”. IEEE 2015.

Atzori L, Iera A, Morabito G. The Internet of Things: A survey. Computer Networks. 2010 Jun; 54:2787–805.

Bandyopadhyay S, Sengupta M, Maiti S, Dutta S. Role of middleware for Internet of Things: A study. IJCSES. 2011 Aug; 2(3):94– 105.

Pantelopoulos and N. Bourbakis, “A survey on wearable sensor-based systems for health monitoring and prognosis,” IEEE Trans. Sys., Man, and Cybernetics, Part C: Applic. and Reviews, vol. 40, no. 1, pp. 1–12, Jan 2010.

A.Dohr, R. Modre-Opsrian, M. Drobics, D. Hayn, and G. Schreier, ``The Internet of for ambient assisted living,'' in Proc. 7th Int. Conf. Inf. Technol., New Generat. (ITNG), Apr. 2010, pp. 804_809.

Puustjarvi and L. Puustjarvi, ``Automating remote monitoring and information therapy: An opportunity to practice telemedicine in developing countries,'' in Proc. IST-Africa Conf., May 2011, pp. 1_9.

M. R. Tarouco et al., ``Internet of Things in healthcare: Interoperatibility and security issues,'' in Proc. IEEE Int. Conf. Commun. (ICC), Jun. 2012, pp. 6121_6125.

Z. J. Guan, ``Internet-of-Things human body data blood pressure collecting and transmitting device,'' Chinese Patent 202 821 362 U, Mar. 27, 2013.

T. J. Xin, B. Min, and J. Jie, ``Carry-on blood pressure/pulse rate/blood oxygen monitoring location intelligent terminal based on Internet of Things,'' Chinese Patent 202 875 315 U, Apr. 17, 2013.

R. S. H. Istepanian, S. Hu, N. Y. Philip, and A. Sungoor, ``The potential of Internet of m-health Things `m-IoT' for non-invasive glucose level sensing,'' in Proc. IEEE Annu. Int. Conf. Eng. Med. Biol. Soc. (EMBC), Aug./Sep. 2011, pp. 5264_5266.

A. Dohr, R. Modre-Osprian, M. Drobics, D. Hayn, and G. Schreier, “The Internet of things for ambient assisted living,” in Proc. 7th Int. Conf. Inf. Technol., New Gener., 2010, pp. 804–809.

L. Xu, “Enterprise systems: State-of-the-art and future trends,” IEEE Trans. Ind. Informat., vol. 7, no. 4, pp. 630–640, Nov. 2011.

K. Wang, X. Bai, J. Li, and C. Ding, “A service-based framework for pharmacogenomics data integration,” Enterp. Inf. Syst., vol. 4, no. 3, pp. 225–245, 2010.

W. Kang, K. Kapitanova, and S. H. Son, “RDDS: A real-time data distribution service for cyber-physical systems,” IEEE Trans. Ind. Informat., vol. 8, no. 2, pp. 393–405, May 2012.

H. cai, B. Xu, and F. Vu, “A conceptual ontology-based resources meta model towards business-driven information system implementation,” J. Univers. Comput. Sci., vol. 18, no. 17, pp. 2493 2513, 2012.

L. White, N. Wilde, T. Reichherzer, E. El-Sheikh, G. Goehring, A. Baskin, B. Hartmann, and M. Manea, “Understanding Interoperable systems: Challenges for the maintenance of SOA applications,” in Proc. 45th HICSS, 2012, pp. 2199–2206.