WIRELESS HEALTH MONITORING SYSTEM (original) (raw)
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Automatic Wireless Health Monitoring System
2018
This project describes the development of a wireless heartbeat and temperature monitoring system based on microcontroller ATmega 328 (Arduino uno) at a reasonable cost with great effect. Most monitoring systems that are in use in today's world works in offline mode but it is of a great need that a system must be designed so that patient can be monitored remotely in real time. The project consists of sensors which measures heartbeat and body temperature of a patient which is controlled by the microcontroller. Both the readings are displayed on the LCD monitor. Wireless system is used to transmit the measured data to a remote location. The heartbeat sensor counts the heartbeat for a specific interval of time and estimates Beats per Minute while the temperature sensor measures the temperature. Both these data are sent to the microcontroller for transmitting to the receiving end. Finally, the data is displayed on the LCD at the receiving end.
Health Monitoring System using Microcontroller
International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2022
Due to the emergence of the new corona virus, health care is now of paramount relevance in every country. In this new era of technology, man has become a working machine that works like a robot 24 hours a day, seven days a week to acquire two meals. In this fast-paced world, he has forgotten to focus on the most important aspect of life: his health. Thus, one of the most essential uses of IoT is the health monitoring system. In India, about a quarter of the population dies as a result of a broken health-care system, in which doctors see patients in the morning, evening, or alternate shifts in most hospitals. What happens if a patient's health becomes critical in the meantime or if a doctor is unavailable to treat them? The solution is that a patient may lose his or her life. To avert this critical circumstance, we propose a practical embedded system device that continuously checks the health of patients. The pulse rate, vital signs, and saline liquid level of the patient are all monitored by this device (if any). Knowledge and communication technologies aid in the development of a digital revolution. For integrating various physical devices with networks, an IOT area unit has been identified.
Embedded Patient Monitoring System
continuously. If any critical situation arises in a patient, this unit also raises an alarm and also communicates to the concerned doctor by means of an SMS to the doctor.
An Implementation of Embedded System in Patient Monitoring System
This paper deals with the measuring of multi-parameter to measure ECG, temperature, evoked potential, respiration rate which uses sensors to measure the patient condition continuously in ICU. For each parameter it uses separate sensors .this multi-channel parameter uses special type of sensors called infracted rays (IR) which are not harmful to human body. All this signals are collected from the patient's body then it is send to the computer and it is diagnosed by the doctor .It reduces the work for the doctors and it gives accurate values. If any abnormalities in the patient's body it produces alarm and it alerts the doctors. This paper also deals with online videography i.e the doctors can view the patient's condition anywhere from the hospital's. Results are stored in the secondary storage system in computer for future reference. the results are obtained in the form of graph, waveforms.
An Embedded Platform for Patient Monitoring and Care System
2011
This paper proposed a prototype that analyses various Bio-medical parameters like temperature and heartbeat obtained from the sensors used &with the help of a microcontroller, all the parameters obtained are displayed on an LCD screen. Based on the parameters obtained the patient is continuously monitored and if in case of any critical mishap when the parameters go out of a particular range then it is prevented by the care system attached to the Patient Monitoring System. The primary function of this system is to sense the temperature and heartbeat of the patient and sensed data is sent to the embedded processor port. The processor is programmed to continue monitor the data and send the actuation signals to patient care system.
A Wireless Based Real-time Patient Monitoring System
The paper demonstrated gives the complete idea on a system which uses four smart sensors to detect the respective four pathological parameters of a baby or a person and interfacing the cell phone to this system to alarm the doctors. The smart sensors senses the biomedical signal of the subject under study (here subject means a baby or a person with pathological disorders) and executes with the controlled coding of the mother processor that is microcontroller and further it hooks the wireless cell phone and using the application software, TEXT application protocol of the cell phone to alarm the respective doctors. With this idea to save energy by consuming the cell phone battery and to help out people below poverty line to contact experienced doctors, who are out of reach and they by analysis is done perfectly. No external source is used for triggering the alarm. Using wireless-based low cost to monitor real-time pathological parameters of the subject and say it as a simple biomedical-caring system. The system keeps an extra eye on the pathological parameters of subject under test/babies at home/ICU. The intelligent system consists of detector circuit and mobile display unit at the receiver section. The detector circuit uses different application sensors to detect health condition of the subject at the source. The mobile display unit is used to visualize the health situation by using the text based application on the cell phones by a doctor or concerned person. The standard for mobile telephony that has been used in this project is wireless communication. The ubiquity of implementation of the wireless standard has been an advantage to both consumers, who may benefit from the ability to roam and switch carriers without replacing phones, and also to network operators, who can choose equipment from many wireless equipment vendors. Wireless also pioneered low-cost implementation of the short message service (SMS), also called text messaging, which has since been supported on other mobile phone standards as well. The standard includes a worldwide emergency telephone number feature. So, the main aim of this project is to get information about the condition of the critical subject which needs to be monitored round the clock, which is in ICU through wireless. The wireless Transmitter sends the details about incubator's temperature, voice level , heart rate and its movement to the destination point which is a doctor's mobile and these details are displayed on the mobile screen in the form of SMS's, so that the doctor can analyze the condition from the place where he is sitting. This is the most basic foundation in the area of telemedicine application.
Remote Health Monitoring using Embedded Systems
The increase in the population of aged people is now the leading healthcare concern of many countries in the world. With improvement in technology and miniaturization of sensors, there have been attempts to utilize the new technology in various areas to improve the quality of human life. The people in need of healthcare services find it very expensive. This is particularly true in developing countries. The developments have seen a trend known as Remote Healthcare or previously known as Telemedicine. With improvement in technology, previously expensive hospital equipment has been redesigned using current technology. As a result, Remote Health Monitoring is an attempt to solve the healthcare problem facing the society. The main objective of the Remote Health Monitoring is to design a remote healthcare system. In real life, the patient has to be monitored constantly. An automatic alerting system will notify a helper or relative of the patient who is at a remote location. Sensors are used to monitor the pulse rate, temperature and generate ECG of the patient. Sensors senses the values and sends it to the android phone. In case of emergency, message is sent to the patient's relative. And also the appointments at the hospital will be reminded to the patient. The focus of this work is to survey the existing Remote Health Monitoring System using embedded systems. The main intention of Remote Health Monitoring is to automatically provide the prescription to the patient according to their condition.
IJERT-Physiological Parameter Monitoring System for Patient and Doctors Interface
International Journal of Engineering Research and Technology (IJERT), 2014
https://www.ijert.org/physiological-parameter-monitoring-system-for-patient-and-doctors-interface https://www.ijert.org/research/physiological-parameter-monitoring-system-for-patient-and-doctors-interface-IJERTV3IS10078.pdf The physiological parameter monitoring system is one of the major improvements in the hospital patient administration and service due to recent development. A wireless patient monitoring system is used to measure heartbeat, room temperature and respiration by using embedded technology. This Embedded system has been designed and developed a low cost model which is used for monitoring the patient's situation by GSM technology. This Embedded system's temperature sensor, heartbeat sensor and ECG are connected to the patient. Then the all physiological parameter values are measured using these sensors of embedded system and which will be displayed on the desktop of the doctor to which the system is connected, in turn the doctor will get the message if any abnormal occurs for any patient in the hospital or ward. The doctor can suggest medicine to patient either directly or indirectly in abnormal condition. The same information will be send to the mobile phone of patient. This Embedded project uses ARM9 micro controller which is 32-bit controller. The specialist or doctor staying at a distance can monitor the patient condition remotely so that he can save the life of the patient.
The paper presents the incorporation of electronics in medical field in order to ease the difficulty of patients for monitoring their physiological conditions in their regular routine life. In the past few decades, due to the advancement in the field of technology, it has proved to be much useful to implement numerous techniques in various other fields like " medical and its application ". This paper deals with an implementation of a microcontroller based system called as " Patient Monitoring System ". The " Patient Monitoring System " can be used as a technology for monitoring patients outside of conventional clinical settings like home settings, which may lead to increase in the care of patients. It has been recognized as a valuable tool that can enable the care givers to effectively maintain compliance with established guidelines forpatients. It can be defined as a system used for monitoring the various physiological conditions. This can be done with the help of taking different body parameters like heart beats, blood pressure and temperature. These body parameters act as multiplesignal inputs which can be given in order to find out the corresponding outputs which might be so obtained. The result so obtained can thus be compiled into a single device. It can thus help to measure various body parameters of various patients and store the result as database.
Wireless Patient Health Monitoring System
This paper presents the development of a microcontroller based system for wireless heartbeat and temperature monitoring using ZigBee.In India many patients are dying because of heart attacks and reason behind that they are not getting timely and proper help. To give them timely and proper help first we want to continuous monitoring of patient health. The fixed monitoring system can be used only when the patient is on bed and this system are huge and only available in the hospitals in ICU. The system is developed for home use by patients that are not in a critical condition but need to be constant or periodically monitored by clinician or family.[1] In any critical condition the SMS is send to the doctor or any family member.[2] So that we can easily save many lives by providing them quick service.