International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395 -0056
Volume: 04 Issue: 06 | June -2017
p-ISSN: 2395-0072
www.irjet.net
Wireless Sensor Network For Patient Health Monitoring System Mrs. M. M. Raste1, Mr. S. K. Parchandekar2, Mr. G. S. Wagh3 1Assistant
Professor, Department of Electronics & Telecommunication Engineering, Annasaheb Dange College of Engineering Ashta, Maharashtra, India. 2Assistant Professor, Department of Electronics Engineering, Walchand College of Engineering Sangli, Maharashtra, India. 3Department of Electronics & Telecommunication Engineering, Annasaheb Dange College of Engineering Ashta, Maharashtra, India. ---------------------------------------------------------------------***---------------------------------------------------------------------
Abstract - Patient health monitoring system consist of
wireless sensor network (WSN). WSN is crucial technology. Patient’s pulse rate, body temperature and heart beat is monitored automatically by using kit which is associated with patient. Wireless sensor network consist of nodes which collects information which is sent to the central node. Generally central node is PC on which bio signals are monitored. Captured signal is transmitted to central node by using RF module. As automatic monitoring is done, no staff is required to care of patient. Key Words: sensor, RF module, WSN, central node, bio signal, automatic
1. INTRODUCTION The reason for a patient staying in the hospital is not that he or she actually needs active medical care. Often, the principal reason for a lengthy stay in the hospital is simply continual observation. Therefore, efforts have been made to avoid acute admissions and long lengths of stay in the hospital. In recent years, emergency admissions and long lengths of stay have become extremely costly. So the focus of health policy has shifted away from the provision of reactive, acute care toward preventive care outside the hospital. As models of care are redesigned, health economies are seeking to provide more care outside large acute centers. The drivers for this shift are two-fold; first, there is a quality-of-care issue and second, there is a resource allocation issue. Being cared for in a patient’s own home is a key aim of current U.K. government health policy and that is driven by an imperative to provide better quality care to people without the need to disrupt their lives. Currently, some wireless monitoring systems have been designed which commonly use a PC, a personal digital assistant (PDA), or a mobile phone at the patient’s side. In these systems, the vital signals are transmitted to the hospital via internet or mobile networks. The main drawbacks of these systems are the costs of a PC or PDA, accessibility, and possible delay that occurs in sending data if the PC is off and the difficulty of using PCs for elderly people. © 2017, IRJET
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Meanwhile, some of the existing systems transmit signals via an analog radio link to the base station which leaves the signal vulnerable to degradation/hacking during analog radio transmission. In a wireless sensor network group of sensors monitor and transmit medical signals. Sensors are tailored to a specific condition. In this case, we observe a patient who has suffered a heart attack and is considered at risk for having another attack. This patient would be fitted with electrocardiogram (ECG) sensors that monitor the heart activity, heart rate, and so on. Further, patients are considered as nodes of the network, and the hospital is considered as the central node or sink. These nodes are then connected to a central node which is installed in the hospital. Clinicians are then able to monitor their patients’ conditions, detect any abnormalities, and take appropriate action (e.g., contact the patient to give some advice or send an ambulance to their home). This system has particular benefits for patients who want to live their normal lives and for providers who are keen to closely monitor patients but have limited resources or space. In this system, there is no need for a PC to transmit data via internet connection. Author in [6] elaborated Wireless Mesh Network. Wireless Mesh Networks (WMN) are multihop networks of wireless router platforms. The wireless routers are typically stationary, but the clients can be mobile. A mesh network can provide multihop communication paths between wireless clients - serving as a community network or a broadband access network for the Internet. WMN are considered cost-effective alternatives to wireless LANs, as there is no necessity to deploy any wired infrastructure to support a mesh network. A number of routing protocols like Dynamic Source Routing (DSR), Adhoc on Demand distance Vector routing (AODV) have been implemented for Adhoc and Wireless LAN Networks. Wireless Sensor based Mesh Network (WSMN) is an integration of these two technologies - Wireless Sensor Network and Wireless Mesh Network. The sensors being low powered and low memory devices can transmit the information to the nearest mesh nodes and these mesh
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