International Journal on Recent and Innovation Trends in Computing and Communication ISSN: 2321-8169 Volume: 5 Issue: 6 1392 – 1406 _______________________________________________________________________________________________ 1392 IJRITCC | June 2017, Available @ http://www.ijritcc.org _______________________________________________________________________________________ Healthcare Monitoring System Mrs. A. G. Andurkar 1 , Ms. Suvarna S. Patil 2 , Assistant Professor, ENTC, GCOEJ, Jalgaon, India 1 M.Tech Student, ENTC, GCOEJ, Jalgaon, India 2 Abstract-The proposed model enables users to improve health related risks and reduce healthcare costs by collecting, recording, analyzing and sharing large data streams in real time and efficiently. In a hospital health care monitoring system it is necessary to constantly monitor the patient’s physiological parameters. For example a pregnant woman parameters such as blood pressure (BP) and heart rate of the woman and heart rate and movements of fetal to control their health condition. The idea of this project came so to reduce the headache of patient to visit to doctor every time he need to check his blood pressure, heart beat rate, temperature etc. With the help of this proposal the time of both patients and doctors are saved and doctors can also help in emergency scenario as much as possible. This system can detect the abnormal conditions, issue an alarm to the patient and send a information to the physician. The proposed outcome of the project is to give proper and efficient medical services to patients by connecting and collecting data information through health status monitors which woul d include patient’s heart rate, blood pressure and sends an emergency alert to patient’s doctor with his current status and full medical information. __________________________________________________*****_________________________________________________ I. INTRODUCTION In a hospital health care monitoring system it is necessary to constantly monitor the patient’s physiological parameters. This paper presents a monitoring system that has the capability to monitor physiological parameters from multiple patient bodies. In the proposed system, a coordinator node has attached on patient body to collect all the signals from the wireless sensors and sends them to the base station. The attached sensors on patient’s body form a wireless body sensor network (WBSN) and they are able to sense the heart rate, blood pressure and so on. This system can detect the abnormal conditions, issue an alarm to the patient and send a data to the physician. Also, the proposed system consists of several wireless relay nodes which are responsible for relaying the data sent by the coordinator node and forward them to the base station. The main advantage of this system in comparison to of both patients and doctors are saved and doctors can also help in emergency scenario as much as possible. The proposed outcome of the project is to give proper and efficient medical services to patients by connecting and collecting data information through health status monitors previous systems is to reduce the energy consumption to prolong the network lifetime, speed up and extend the communication coverage to increase the freedom for enhance patient quality of life. We have developed this system in multi-patient architecture for hospital healthcare and compared it with the other existing networks based on multi-hop relay node in terms of coverage, energy consumption and speed. The proposed model enables users to improve health example of the application of this system is controlling a pregnant woman. A pregnant woman’s blood pressure should be the same as any other person’s normal blood pressure. It is important to monitor the blood pressure during pregnancy, to watch recording in case of children, elderly people and critical patients. Physical properties that canbe sensed include temperature, pressure, vibration, sound level, weight, flow rate of gases and liquids, etc. The smart sensors which can be worn by the patient connect to the master hub (Central Computer) of the doctor sitting at a distance using wireless information and communication technology (ICT) network. The features of this technique include portability and non-invasive nature resulting in non-interference with the day to day activities of the patients. This technology is advantageous in the regions having limited resources and situations where continuous emergent diagnosis is required. II. LITERATURE REVIEW Aging presents a series of challenges for the entire world population, primarily because seniors slowly lose their ability to be self-sufficient due to chronic diseases, physical and/or mental disabilities, or the general frailty that characterizes the aging process [2]. Any of these conditions represent factors that limit the elderly or endanger their lives, even within the confines of their homes. Consequently, 24-hour-a-day monitoring of the elderly can improve attention provided for chronic or acute health concerns, accidents such as falls, as well as a series of other conditions that can detrimentally affect the elderly. Additionally, non-fatal falls by the elderly can severely compromise quality of life and/or represent considerable medical expenditures (i.e., in Finland $3,611 dollars per injury, in Australia $1,049dollars per injury) [3]. Providing remote healthcare monitoring and services presents a series of important challenges; therefore, it is