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The ever-increasing advancement and evolution of new communication technologies of modern smart objects brings a new era of application development for Internet of Things (IoT)-based networks. The main objective of this proposed system is to transmitting the patient’s health parameters such as temperature, heartbeats etc., through wireless communication to doctors or to their family member. These input data are uploaded in cloud server and transmitted to the computer and mobile so that patient’s family and doctor’s may get informed. Rapid development and advances in information and communication technologies have lead to the emergence and enhance the use of Internet of Things (IoT).

In this system we used raspberry pi as a controlling purpose. ECG sensor, temperature sensor, heart beat are used as input purpose. Output side we used LCD for display purpose. We send value of that sensor on particular mail id. And also show on cloud i.e. thing speak.

ECG Sensor, Heart Beat Sensor, Internet of Things Raspberry Pi, Temperature Sensor.

Lei Clifton, David A. Clifton, Marco A. F. Pimentel, Peter J. Watkinson, and Lionel Tarassenko, “Predictive Monitoring of Mobile Patients by Combining Clinical Observations With Data From Wearable Sensors”

T. Hwang, P. Gope, Provably Secure Mutual Authentication and Key Exchange Scheme for Expeditious Mobile Communication Through Synchronously One-Time Secrets. Wireless Personal Communications 77(1), pp. 197-224, 2014.

Benny p.l. lo, Surapa Thiemjarus, Rachel king and Guang-Zhong Yang, “Body sensor network – a wireless sensor platform for pervasive healthcare monitoring” 2015

Kaleem Ullah, Munam Ali Shah, Sijing Zhang, Department of Computer Science, University of Bedfordshire, Luton, UK,” Effective Ways to Use Internet of Things in the Field of Medical and Smart Health Care”. 2015

P. Gope, T. Hwang, “Enhanced secure mutual authentication, and key agreement scheme preserving user anonymity in global mobile networks,” Wireless Personal Communications, DOI: 10.1007/s11277- 015-2344-z, 2015.

P. Gope, T. Hwang, “Lightweight and Energy Efficient Mutual Authentication and Key Agreement Scheme with User Anonymity for Secure Communication in Global Mobility Networks,” IEEE Systems Journal, DOI: 10.1109/JSYST.2015.2416396, 2015.