Concept for Physiological Function Monitoring with Wearable Sensors (original) (raw)
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Patient health monitoring system
INTERNATIONAL JOURNAL OF ADVANCE RESEARCH, IDEAS AND INNOVATIONS IN TECHNOLOGY
Health is one of the primary capabilities that a human need to go on with his life. That is the main reason the healthcare provided to the human must be bestowed in ample means and effective ways to ensure his health based on health monitoring parameters and the medical assistance being provided directly. The new technological development and its implementation now involve the internet and the sensors often known as the Internet of Things (IoT), which enables the worldwide approach to the health care base system development. This steers to the health system management that in a real-time approach it supplies a set of particulars relevant to the patient being monitored. In all the countries the death rates are becoming high due to the absence of well-timed medical treatments. These can be shut out through standard health care. The paper puts forward an IoT approach for a superior health monitoring system, by involving the sensors where they sense the body temperature plus the heartbeat and tells the doctor or the attending staff of the patient about the state of the patient. The project uses the KNN algorithm to predict the shape and condition of the sufferer to prevent them from going into further bad state. When the bad condition of the patient is predicted and detected by the system, it sends mail to the doctor in a most emergency situation or else in other cases it keeps on updating the sensed values in the web page created. The system also includes a buzzer beeping situation, where the beeping occurs when the nurse has to be notified of the state of the patient. Whereas, the previous systems developed did not do the predicting part, which plays the most important role in taking care of the patient. Thus, the project results in taking the greatest possible measure in helping the patients improve their situation.
This project is about monitoring patients health, where patient’s physical information i.e. blood glucose and body temperature and pulse rate have been measured which will automatically be updated to online for the help of those who lives distant places and wants to know the condition of their physician. In this project, firstly the blood glucose and temperature and pulse-rate data have been taken from the patient and fed for processing to a micro-controller. Then the processed data have been sent to LCD display, where the real data has been viewed for the first time. After that the data has been send to pc through RF (Radio Frequency) module. Next the data has been converted by RS232 to USB converter and decoded by “MIKROC Pro for PIC” software. At last the decoded data which is patient blood glucose and temperature and pulse-rate data from the device have been updated to online automatically. This facility would help the relatives’ as well as the doctors’ to monitor the patients’ condition from anywhere. In this project the research on the design of a health monitoring system to support patients. The focus has been on the automatic data reading of their blood glucose and temperature and pulse rate and then transfer the reading online through internet so that the patient’s physician and relatives can check it. The data will be updated in the interval of 15 seconds. A software platform was built to handle these data from the experiments.
Review: Health Monitoring System
2015
Design of the health monitoring system for the researchers is the hot topic. Health monitoring system is used every field such as hospital, home care unit, sports. This health monitoring system use for chronicle diseases patients who have daily checkup. So, researchers design a system as portable device. Researcher designed different health monitoring system based on requirement. Different platform like Microcontroller, ASIC, FPGA, PIC microcontroller are used to design the system based on this performance. The integration of different medical instrument on the single system on-chip is main achievement for researcher by using different biomedical sensor. Different biomedical sensors like temperature sensor, heart rate sensor, blood pressure sensor are used to monitor the health condition which is integrated on single system on-chip.
Health Monitoring System of Patient
Patient-monitoring systems became an important topic and research field today. Research on health monitoring were developed for many applications such as military, homecare unit, hospital, sports training and emergency monitoring system. Patient monitoring systems are gaining their importance as the fast-growing elderly population demands for caretaking. These systems use wireless technologies to transmit vital signs for medical evaluation. This technique presents a system to upgrade existing health monitoring systems in the hospitals by providing monitoring capability and thus a better cure.
Interactive Mobile Health Monitoring System
International Journal of Advanced Computer Science and Applications, 2017
Health monitoring system is an active application in pervasive and ubiquitous computing. It is an application of mobile computing technology for enhancing communication among health care workers, physicians and patients with a view to provide better health care system. Recent elevation in sensors, wireless communication and low-power integrated circuits has empowered the design of pocket size, light weight, low-cost, and interactive bio-sensor nodes. These nodes are seamlessly integrated for mobile health monitoring using wireless body area network which can sense, process and communicate one or more vital parameters. The proposed system, through mobile device can provide patient health parameters (such as temperature, heart rate and ECG) to medical server, care taker and to medical practitioner based on the biomedical and environmental data collected by deployed sensors. In this system, multiple physiological parameters are incorporated for monitoring as against one or two parameters in legacy system. In this paper hardware, software and implementation of system is discussed whereas the focus is on authentication, power consumption, accuracy in transmission of health parameters to medical server.
An Advanced Patient Health Monitoring System
2021
Health and wellness worry all of us as it has an essential role in our lives and dramatically impacts our society. Distribution of health care is a vast, complicated issue, especially for those living in small countries and specialists' lack of healthcare. This work aims to produce a home monitoring system that focuses on a patient and satisfies customers' specific demands, which relocate medical care out of the healthcare facility right into the house. It develops a reliable administration of care, decreasing cost as well as conserving lives. Our model used several biomedical sensing units to obtain vital patient indications as blood pressure, heart rate, ECG, glucometer, airflow, and body temperature level. These observed data is the key to utilizing the patient's information and understanding to improve health care using the supported user interfaces in the introduced mobile application. We designed a cost-effective, secure, low-cost, and safe module throughout the de...
A Novel Implementation for Automated Health Monitoring System
— As population is increasing and ageing, there is also increase in the chronic and heart diseases. The current hospital centric healthcare is becoming inefficient to treat the conditions which demand immediate treatment such as heart strokes. So, the focus is now tilting from hospital centric treatment to patient centric treatment [7]. This paper proposes an idea of health monitoring system which monitors the physiological parameters of the patient such as temperature and heart beat rate using sensors which are connected to XBEE module that transmits the information to the local server and also log the collected information into the server database placed in the range of 20 meters.. A GSM module is incorporated into the project which alerts the doctor if any vital parameter of the patient deviates from the normal value anywhere through SMS. It helps the doctor to monitor the patients health parameters such as temperature, heart beat rate, blood pressure, moisture detection etc. The main concept of the proposed work is derived from Wireless Body Area network (WBAN). The proposed work employs Raspberry Pi kit as a personal server which logs the health data and it can be accessed by any PDA within the LAN range. In this paper, two vital parameters namely Temperature sensor and Heart beat sensor have been considered.
Various Health Care Monitoring Systems
IJRECE, 2018
An uncommon reason sensor organize intended to work self-governingly to associate different restorative sensors put on the human body. Presentation of powerful therapeutic checking and different applications will offer adaptabilities and cost-sparing alternatives to both medicinal services experts and patients. In this framework, we viably screen the patients physiological status, for example, ECG, Temperature, systole, diastole, Heartbeat, flex, Accelerometer and effectively handled in the transmitter pack, which is appended to the patient's body. In this framework, portrays how compelling transmission of information from the transmitter unit to the beneficiary which is situated in the doctor's facility server. In expansion to that, we are following the patient's area consistently and influence crisis to save operation.
This article presents a simple yet unique health monitoring system especially for the critical or unattended patients who need continuous observation. In this system patients' physical information i.e. body temperature, pulse rate, blood glucose level have been measured using different sensors which are then automatically uploaded to online for observation of their physicians or the relatives who are at distance places from the patients. Here, firstly patients' body temperature, pulse rate, blood glucose level are measured using different sensors which are then fed for processing to a micro-controller. The processed data is sent to LCD display, where these information has been viewed for the first time, as well as to a computer through RF (Radio Frequency) module. Next the data from module is converted by RS232 to USB converter and decoded by mikroC software. At last the decoded data from the device is updated online automatically in the interval of 15 seconds with the help of a software platform. This novel system would be helpful for the relatives as well as the doctors to monitor the patients' condition from anywhere and to react quickly in case of unwanted serious condition.