This document describes a wireless system for remote patient monitoring using sensors to measure vital signs like heartbeat and temperature. The system sends the patient's medical data and location to doctors via a mobile application or SMS messages. This allows doctors to monitor patients remotely, which can improve healthcare access and reduce costs. The system uses sensors connected to a microcontroller and GSM modem to transmit the medical data via Bluetooth and an IoT platform. If any abnormal readings are detected, the system sends an alert message to doctors with the patient's location to allow for prompt medical response.
Gsm based patient monitoring system in nicueSAT Journals
Abstract The project concentrates a selective section of patient monitoring: neonatal care. Several patient monitors are available in the market. Yet it is quite a daunting task in countries with high population like India, because of insufficient resource space availability. It is difficult to keep a track of several patients at a time from both inside and outside hospital premises/medical facility, which includes remote locations. The project involves with sensing the vitals of the newly born babies which are very different when compared to adult patients and transmit these signals to the computer monitor at the nursing station. Also based on the preset threshold values for the recorded values, an alarm system will be introduced with an immediate transfer of the corresponding patient data to the registered medical professional. This paper attempts to design and implement patient monitoring and real time feedback mechanism, equipped with wireless transmission via GSM and Zigbee. Using Zigbee for in-house monitoring and GSM for external correspondence is proposed. The proposed system is likely to be efficient, economical, easy to use, and portable, have wide application potential due to flexibility in the design and software. Keywords: Bio signal Processing, Neonatal, Wireless health monitoring, zigbee, GSM, Wifi, Portable multi parameter health monitor.
This is a advance technology for the checkup of the patient by the doctor. IN this there is a microcontroller whis encode all the sensor data and display on lcd screen and also send to gsm module by this all the pateint psychological data send to mobile in the form of sms .
The development of wireless patient monitoring system has been quite intensive in the past decade. Hence, in the present study, a new approach of wireless patient monitoring system was proposed as a prototype to minimize the power consumption and the costing issue. Visual Basic Net. 2010 as the software and Peripheral Interface Controller (PIC) 16F877 microcontroller as the hardware circuit were used to implement the system. The communication between the hardware and software systems is in the full duplex communication via the XBee modules happened. The results show that XBee module is successfully communicated with the whole system and the monitoring software is in the best condition to be implemented. Since the prototype using variable voltage, good comparison with the experimental and previous studies shows that the present study can be improved by using the real ECG machine so that the system can be ready to the real user.
Health monitoring system offers a lot of benefits to people life especially for those who have a chronic disease and need daily observation. This health monitoring system will improve quality of life.
Gsm based patient monitoring system in nicueSAT Journals
Abstract The project concentrates a selective section of patient monitoring: neonatal care. Several patient monitors are available in the market. Yet it is quite a daunting task in countries with high population like India, because of insufficient resource space availability. It is difficult to keep a track of several patients at a time from both inside and outside hospital premises/medical facility, which includes remote locations. The project involves with sensing the vitals of the newly born babies which are very different when compared to adult patients and transmit these signals to the computer monitor at the nursing station. Also based on the preset threshold values for the recorded values, an alarm system will be introduced with an immediate transfer of the corresponding patient data to the registered medical professional. This paper attempts to design and implement patient monitoring and real time feedback mechanism, equipped with wireless transmission via GSM and Zigbee. Using Zigbee for in-house monitoring and GSM for external correspondence is proposed. The proposed system is likely to be efficient, economical, easy to use, and portable, have wide application potential due to flexibility in the design and software. Keywords: Bio signal Processing, Neonatal, Wireless health monitoring, zigbee, GSM, Wifi, Portable multi parameter health monitor.
This is a advance technology for the checkup of the patient by the doctor. IN this there is a microcontroller whis encode all the sensor data and display on lcd screen and also send to gsm module by this all the pateint psychological data send to mobile in the form of sms .
The development of wireless patient monitoring system has been quite intensive in the past decade. Hence, in the present study, a new approach of wireless patient monitoring system was proposed as a prototype to minimize the power consumption and the costing issue. Visual Basic Net. 2010 as the software and Peripheral Interface Controller (PIC) 16F877 microcontroller as the hardware circuit were used to implement the system. The communication between the hardware and software systems is in the full duplex communication via the XBee modules happened. The results show that XBee module is successfully communicated with the whole system and the monitoring software is in the best condition to be implemented. Since the prototype using variable voltage, good comparison with the experimental and previous studies shows that the present study can be improved by using the real ECG machine so that the system can be ready to the real user.
Health monitoring system offers a lot of benefits to people life especially for those who have a chronic disease and need daily observation. This health monitoring system will improve quality of life.
Health Monitoring System of Elderly using Wireless Sensor NetworkIjcatr04031005Editor IJCATR
Wireless-sensor-network-based home monitoring system for elderly activity behaviour involves functional assessment of daily activities. In this paper, we report a mechanism for estimation of elderly well-being condition based on usage of house-hold appliances connected through various sensing units. We define a two new wellness functions to determine the status of the elderly on performing essential daily activities. The modernized system for monitoring and evaluating the essential daily activities was tested at homes for four different elderly persons living alone and the results are encouraging in determining wellness of the elderly.
A gsm based intelligent wireless mobile patient monitoring systemeSAT Journals
Abstract Monitoring one’s heart rate and body temperature continuously from a remote area is impossible for a medical expert by using typical monitoring devices. To overcome this problem we can implement a GSM based system using microcontroller and LM35 sensor which is low-cost and use-friendly. Here, a heart beat sensor is used to detect the heart rate and an LM35 sensor to sense the body temperature. These signals are processed by a PIC microcontroller. Then, an SMS alert will be sent to the medical expert by using a GSM module. Thus, doctors can monitor the health condition of a patient continuously from a remote place and can suggest the patient about taking an immediate remedy. As a result, we can save many lives by providing them a quick service using this system. Keywords: Telemedicine, Remote monitoring system, Heart Beat Rate, Body Temperature, Photoplethysmograph, LM35, Microcontroller, GSM Modem etc…
During treatment, it is highly important to continuously monitor the vital physiological signs of the patient. Therefore , patient monitoring systems has always been occupying a very important position in the field of medical devices.
The continuous improvement of technologies not only helps us transmit the vital physiological signs to the medical personnel but also simplifies the measurement and as a result raises the monitoring efficiency of patients.
An Open And Reconfigurable Wireless Sensor Network For Pervasive Health Monit...Andreas Triantafyllidis
Presentation from 2nd International Conference on Pervasive Computing Technologies for Healthcare 2008 Tampere, Finland. Parts of this work have been published in Methods of Information in Medicine Journal 2008;47(3):229-34 available at: http://www.ncbi.nlm.nih.gov/pubmed/18473089
Objectives: Sensor networks constitute the backbone for the construction of personalized monitoring systems. Up to now, several sensor networks have been proposed for diverse pervasive healthcare applications, which are however characterized by a significant lack of open architectures, resulting in closed, non-interoperable, and difficult to extend solutions. In this context, we propose an open and reconfigurable Wireless Sensor Network (WSN) for pervasive health monitoring, with particular emphasis in its easy extension with additional sensors and functionality by incorporating embedded intelligence mechanisms.
Methods: We consider a generic WSN architecture comprised of diverse sensor nodes (with communication and processing capabilities) and a Mobile Base Unit (MBU) operating as the gateway between the sensors and the medical personnel, formulating this way a Body Area Network (BAN). The primary focus of this work is on the intra-BAN data communication issues, adopting SensorML as the data representation mean, including the encoding of the monitoring patterns and the functionality of the sensor network.
Results: In our prototype implementation two sensor nodes are emulated; one for heart rate monitoring and the other for blood glucose observations, while the MBU corresponds to a Personal Digital Assistant (PDA) device. Java 2 Micro Edition (J2ME) is used to implement both the sensor nodes and the MBU components. Intra-BAN wireless communication relies on the Bluetooth protocol. Via an adaptive user interface in the MBU, Health Professionals may specify the monitoring parameters of the WSN and define the monitoring patterns of interest in terms of rules.
Conclusions: This work constitutes an essential step towards the construction of open, extensible, interoperable and intelligent WSNs for pervasive health monitoring.
In the last decade the healthcare monitoring systems have drawn considerable attentions of the researchers. The prime goal was to develop a reliable patient monitoring system so that the healthcare professionals can monitor their patients, who are either hospitalized or executing their normal daily life activities. In this work we present a mobile device based wireless healthcare monitoring system that can provide real time online information about physiological conditions of a patient. Our proposed system is designed to measure and monitor important physiological data of a patient in order to accurately describe the status of her/his health and fitness. In addition the proposed system is able to send alarming message about the patient’s critical health data by text messages or by email reports. By using the information contained in the text or e-mail message the healthcare professional can provide necessary medical
advising. The system mainly consists of sensors, the data acquisition unit, microcontroller (i.e., Arduino), and software (i.e., LabVIEW). The patient’s temperature, heart beat rate, muscles, blood pressure, blood glucose level, and ECG data are monitored, displayed, and stored by our system. To ensure reliability and accuracy the proposed system has been field tested. The test results show that our system is able to measure the patient’s physiological data with a very high accuracy.
With rapid development of economies, growth of aging population and the prevalence of chronic diseases across the world, there is an urgent need to find new ways to improve patient outcomes, increase access to care, and reduce the cost of medical care. A health care monitoring system is necessary to constantly monitor patient’s physiological parameters. The tele-medical system focuses on the measurement and evaluation of vital parameters e.g. temperature, electrocardiogram (ECG), heart rate variability, fall detection etc. This will enable doctors and care givers to observe patients without having to be physically present at their bedside, be it in the hospital or in their home.
The propose system gives us the development of a Raspberry Pi based system for Wireless heartbeat, temperature monitoring, eye monitoring for coma patient, saline level Detector. That will easily provide real time information available for many users and can send them alert in critical conditions over Internet. In India many patients are dying because of heart attacks and reason behind this factor is that they are not getting proper help during the period. To give them timely and proper help first want to continuous monitoring of patient health. The fixed monitoring system can be used only when the patient is lying on bed and these systems 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 timely monitored by doctor or family. In any critical condition the Mail is send to the doctor or any family member. So that it easily save many lives by providing them quick service. Nakul S. Palkhede | Sachin D. Mali | Prof. Manisha S. Shelar"IoT Based Patient Monitoring" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-4 , June 2018, URL: http://www.ijtsrd.com/papers/ijtsrd14216.pdf http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/14216/iot-based-patient-monitoring/nakul-s-palkhede
Recently, in many cases, 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. Investment in technologies that enable remote monitoring would lead to long-term gains in terms of hospital finances and patient care.
Health monitoring is the major problem in today’s world. Due to lack of proper health monitoring, patient suffer from serious health issues. There are lots of IoT devices now days to monitor the health of patient over internet. Health experts are also taking advantage of these smart devices to keep an eye on their patients. With tons of new healthcare technology start-ups, IoT is rapidly revolutionizing the healthcare industry.
Here in this project, we will make an IoT based Health Monitoring System which records the patient heart beat rate and body temperature and also send an email/SMS alert whenever those readings goes beyond critical values. Pulse rate and body temperature readings are recorded over ThingSpeak and Google sheets so that patient health can be monitored from anywhere in the world over internet. A panic will also be attached so that patient can press it on emergency to send email/sms to their relative
BIOMEDICAL PROJECT SYNOPSIS&ABSTRACT: Automatic anesthesia controller using h...ASHOKKUMAR RAMAR
PROJECT CENTER TAMBARAM,PROJECT CENTER GUINDY, PROJECT CENTER PALLAVARAM, PROJECT CENTER VELACHERRY, PROJECT CENTER CHROMPET, PROJECT CENTER VADAPALANI,PROJECT CENTER CHENNAI,
To deal with various technologies which provide smart sensing in healthcare and compare them for their energy usage and battery life and discuss the format of communication to the database of these devices. To put forward devices which use smart sensors in advanced medical check-ups. To discuss the prospects of upcoming technology called Smart Dust in e-health and its advantages and effects for better deployment of trustworthy services in healthcare keeping in mind all the capabilities of the Smart Sensor.
Health Monitoring System of Elderly using Wireless Sensor NetworkIjcatr04031005Editor IJCATR
Wireless-sensor-network-based home monitoring system for elderly activity behaviour involves functional assessment of daily activities. In this paper, we report a mechanism for estimation of elderly well-being condition based on usage of house-hold appliances connected through various sensing units. We define a two new wellness functions to determine the status of the elderly on performing essential daily activities. The modernized system for monitoring and evaluating the essential daily activities was tested at homes for four different elderly persons living alone and the results are encouraging in determining wellness of the elderly.
A gsm based intelligent wireless mobile patient monitoring systemeSAT Journals
Abstract Monitoring one’s heart rate and body temperature continuously from a remote area is impossible for a medical expert by using typical monitoring devices. To overcome this problem we can implement a GSM based system using microcontroller and LM35 sensor which is low-cost and use-friendly. Here, a heart beat sensor is used to detect the heart rate and an LM35 sensor to sense the body temperature. These signals are processed by a PIC microcontroller. Then, an SMS alert will be sent to the medical expert by using a GSM module. Thus, doctors can monitor the health condition of a patient continuously from a remote place and can suggest the patient about taking an immediate remedy. As a result, we can save many lives by providing them a quick service using this system. Keywords: Telemedicine, Remote monitoring system, Heart Beat Rate, Body Temperature, Photoplethysmograph, LM35, Microcontroller, GSM Modem etc…
During treatment, it is highly important to continuously monitor the vital physiological signs of the patient. Therefore , patient monitoring systems has always been occupying a very important position in the field of medical devices.
The continuous improvement of technologies not only helps us transmit the vital physiological signs to the medical personnel but also simplifies the measurement and as a result raises the monitoring efficiency of patients.
An Open And Reconfigurable Wireless Sensor Network For Pervasive Health Monit...Andreas Triantafyllidis
Presentation from 2nd International Conference on Pervasive Computing Technologies for Healthcare 2008 Tampere, Finland. Parts of this work have been published in Methods of Information in Medicine Journal 2008;47(3):229-34 available at: http://www.ncbi.nlm.nih.gov/pubmed/18473089
Objectives: Sensor networks constitute the backbone for the construction of personalized monitoring systems. Up to now, several sensor networks have been proposed for diverse pervasive healthcare applications, which are however characterized by a significant lack of open architectures, resulting in closed, non-interoperable, and difficult to extend solutions. In this context, we propose an open and reconfigurable Wireless Sensor Network (WSN) for pervasive health monitoring, with particular emphasis in its easy extension with additional sensors and functionality by incorporating embedded intelligence mechanisms.
Methods: We consider a generic WSN architecture comprised of diverse sensor nodes (with communication and processing capabilities) and a Mobile Base Unit (MBU) operating as the gateway between the sensors and the medical personnel, formulating this way a Body Area Network (BAN). The primary focus of this work is on the intra-BAN data communication issues, adopting SensorML as the data representation mean, including the encoding of the monitoring patterns and the functionality of the sensor network.
Results: In our prototype implementation two sensor nodes are emulated; one for heart rate monitoring and the other for blood glucose observations, while the MBU corresponds to a Personal Digital Assistant (PDA) device. Java 2 Micro Edition (J2ME) is used to implement both the sensor nodes and the MBU components. Intra-BAN wireless communication relies on the Bluetooth protocol. Via an adaptive user interface in the MBU, Health Professionals may specify the monitoring parameters of the WSN and define the monitoring patterns of interest in terms of rules.
Conclusions: This work constitutes an essential step towards the construction of open, extensible, interoperable and intelligent WSNs for pervasive health monitoring.
In the last decade the healthcare monitoring systems have drawn considerable attentions of the researchers. The prime goal was to develop a reliable patient monitoring system so that the healthcare professionals can monitor their patients, who are either hospitalized or executing their normal daily life activities. In this work we present a mobile device based wireless healthcare monitoring system that can provide real time online information about physiological conditions of a patient. Our proposed system is designed to measure and monitor important physiological data of a patient in order to accurately describe the status of her/his health and fitness. In addition the proposed system is able to send alarming message about the patient’s critical health data by text messages or by email reports. By using the information contained in the text or e-mail message the healthcare professional can provide necessary medical
advising. The system mainly consists of sensors, the data acquisition unit, microcontroller (i.e., Arduino), and software (i.e., LabVIEW). The patient’s temperature, heart beat rate, muscles, blood pressure, blood glucose level, and ECG data are monitored, displayed, and stored by our system. To ensure reliability and accuracy the proposed system has been field tested. The test results show that our system is able to measure the patient’s physiological data with a very high accuracy.
With rapid development of economies, growth of aging population and the prevalence of chronic diseases across the world, there is an urgent need to find new ways to improve patient outcomes, increase access to care, and reduce the cost of medical care. A health care monitoring system is necessary to constantly monitor patient’s physiological parameters. The tele-medical system focuses on the measurement and evaluation of vital parameters e.g. temperature, electrocardiogram (ECG), heart rate variability, fall detection etc. This will enable doctors and care givers to observe patients without having to be physically present at their bedside, be it in the hospital or in their home.
The propose system gives us the development of a Raspberry Pi based system for Wireless heartbeat, temperature monitoring, eye monitoring for coma patient, saline level Detector. That will easily provide real time information available for many users and can send them alert in critical conditions over Internet. In India many patients are dying because of heart attacks and reason behind this factor is that they are not getting proper help during the period. To give them timely and proper help first want to continuous monitoring of patient health. The fixed monitoring system can be used only when the patient is lying on bed and these systems 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 timely monitored by doctor or family. In any critical condition the Mail is send to the doctor or any family member. So that it easily save many lives by providing them quick service. Nakul S. Palkhede | Sachin D. Mali | Prof. Manisha S. Shelar"IoT Based Patient Monitoring" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-2 | Issue-4 , June 2018, URL: http://www.ijtsrd.com/papers/ijtsrd14216.pdf http://www.ijtsrd.com/engineering/electronics-and-communication-engineering/14216/iot-based-patient-monitoring/nakul-s-palkhede
Recently, in many cases, 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. Investment in technologies that enable remote monitoring would lead to long-term gains in terms of hospital finances and patient care.
Health monitoring is the major problem in today’s world. Due to lack of proper health monitoring, patient suffer from serious health issues. There are lots of IoT devices now days to monitor the health of patient over internet. Health experts are also taking advantage of these smart devices to keep an eye on their patients. With tons of new healthcare technology start-ups, IoT is rapidly revolutionizing the healthcare industry.
Here in this project, we will make an IoT based Health Monitoring System which records the patient heart beat rate and body temperature and also send an email/SMS alert whenever those readings goes beyond critical values. Pulse rate and body temperature readings are recorded over ThingSpeak and Google sheets so that patient health can be monitored from anywhere in the world over internet. A panic will also be attached so that patient can press it on emergency to send email/sms to their relative
BIOMEDICAL PROJECT SYNOPSIS&ABSTRACT: Automatic anesthesia controller using h...ASHOKKUMAR RAMAR
PROJECT CENTER TAMBARAM,PROJECT CENTER GUINDY, PROJECT CENTER PALLAVARAM, PROJECT CENTER VELACHERRY, PROJECT CENTER CHROMPET, PROJECT CENTER VADAPALANI,PROJECT CENTER CHENNAI,
To deal with various technologies which provide smart sensing in healthcare and compare them for their energy usage and battery life and discuss the format of communication to the database of these devices. To put forward devices which use smart sensors in advanced medical check-ups. To discuss the prospects of upcoming technology called Smart Dust in e-health and its advantages and effects for better deployment of trustworthy services in healthcare keeping in mind all the capabilities of the Smart Sensor.
Survey on Mobile Based Telemedicine System for Patient Monitoring and Diagnos...IJERA Editor
Recently remote health care has been a key issue to look after. As Sikkim is a hilly area suffering from transportation and inadequate medical facilities. Therefore, this survey on telemedicine system provides sufficient ideas for remote health diagnosis and monitoring in remote of Sikkim. As per the health personalities the various chronic diseases are diagnosed and treated with the human parameters such as ECG, SpO2, temperature, and blood pressure. These psychological signs are diagnosed in remote hospitals and PHCs and all physiological signs will be immediately transmitted to remote medical server through both cellular networks and internet. Also data can be transmitted to a family member’s mobile phone or doctor’s phone 3G and 4G networks. As Sikkim has 7 major hospitals and 24 PHCs, so one major hospital such as CRH Manipal or STNM can be chosen as a remote server unit and all the information through advance wireless communication module is received in this unit and patient health status can be diagnosed. As this hilly place lacks in medical facilities in remote places due to in educate knowledge of telemedicine system. This paper discuss about the recent trends in telemedicine for a small state. This paper is discussed in order to give 24*7 medical facilities in every corner of Sikkim. This paper also discusses the telemedicine system for normal and emergency condition. As this telemedicine is not a new technology, it’s an existing technology this paper discuss the advancement in such technology to provide better medical service for remote places.
IOT BASED HEALTH MONITORING BY USING PULSE OXIMETER AND ECGPonselvanV
Monitoring and Recording of various medical parameters of patient outside hospitals has become Widespread phenomenon. The Reason behind this project is to design a system for monitoring the patient’s body at any time using internet connectivity. The function of this system is measuring and detecting the heart pulse rate of the patient’s body by using Heart beat sensors and sends the values to IOT Cloud platform through WIFI-Module. All information about the patient heart pulse rate and health will be stored on the cloud, it enables the doctors to monitor patient’s health, where the doctor can continuously monitor the patient’s heart condition on his Smart phone.This project is implemented with Arduino Controller.
Real Time Physiological Status Monitorinig through Telemetry System for on Sp...ijtsrd
In todays era, Internet of Things is playing an important role in health care management systems, which is not only for monitoring but also to communicate, stores and display. The prime aim of this study is to design and implement effective real time healthcare monitoring dashboard for on spot accident patients who is injured and went to unconscious state. The proposed system monitor the ECG, EEG, EMG waveforms, Temperature, heart beats etc, and transmit those vital parameters wirelessly through wifi technology. The transmitted patients data is displayed in the PC based application called the central nurse station where PC with the receive wifi acts as hub. This data gets updated into database continuously. From the database of the android application fetches all the updated data, stores and displays it. This enables the doctor to receive the current status of an accident patient in real time. The parameters of a particular patient go beyond a threshold value an automated notification will pop up in doctor android mobile application. This android application can also generate call option if the doctor will not notifynotification messages. Additionally system is also able to generate alarm to notify nurse around for emergency treatment and by using GSM module the patient datas can also be send to the authorized person i.e friends, relatives etc. Ultimate goal of this project is to implement a low cost, high efficient and effective wireless real time system for health monitoring through telemetry system. S. Rabia Jebin | N. Mohamedbeemubeen ""Real Time Physiological Status Monitorinig through Telemetry System for on-Spot-Accident Patients using IoT"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-3 , April 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23470.pdf
Paper URL: https://www.ijtsrd.com/engineering/bio-mechanicaland-biomedical-engineering/23470/real-time-physiological-status-monitorinig-through-telemetry-system-for-on-spot-accident-patients-using-iot/s-rabia-jebin
As elderly population increases day by day caretaking demands are also increasing. Hence patient health monitoring systems are gaining importance these days. This paper is based on monitoring of patients. We have designed and developed a reliable, energy efficient patient monitoring system. It is able to send parameters of patient in real time. It enables the doctors to monitor patient's health parameters (temp, heartbeat, ECG, position) in real time. In the current proposed system the patient health is continuously monitored using different sensors which is connected to the Arduino board. And the acquired data is send to the server using Ethernet shield attached to the Arduino board. If any of the parameter values goes beyond the threshold value an alert is given to the doctor using an Android application installed in the doctor’s smartphone.
This designed so as to give a lecture and seminar on the Internet of things and its modern use cases. It highly elaborates how technology has changed the working environment and how human-less intervention could reach greater heights.
Similar to A wireless infrastructure for emergency medical care (20)
Navigating Challenges: Mental Health, Legislation, and the Prison System in B...Guillermo Rivera
This conference will delve into the intricate intersections between mental health, legal frameworks, and the prison system in Bolivia. It aims to provide a comprehensive overview of the current challenges faced by mental health professionals working within the legislative and correctional landscapes. Topics of discussion will include the prevalence and impact of mental health issues among the incarcerated population, the effectiveness of existing mental health policies and legislation, and potential reforms to enhance the mental health support system within prisons.
CHAPTER 1 SEMESTER V - ROLE OF PEADIATRIC NURSE.pdfSachin Sharma
Pediatric nurses play a vital role in the health and well-being of children. Their responsibilities are wide-ranging, and their objectives can be categorized into several key areas:
1. Direct Patient Care:
Objective: Provide comprehensive and compassionate care to infants, children, and adolescents in various healthcare settings (hospitals, clinics, etc.).
This includes tasks like:
Monitoring vital signs and physical condition.
Administering medications and treatments.
Performing procedures as directed by doctors.
Assisting with daily living activities (bathing, feeding).
Providing emotional support and pain management.
2. Health Promotion and Education:
Objective: Promote healthy behaviors and educate children, families, and communities about preventive healthcare.
This includes tasks like:
Administering vaccinations.
Providing education on nutrition, hygiene, and development.
Offering breastfeeding and childbirth support.
Counseling families on safety and injury prevention.
3. Collaboration and Advocacy:
Objective: Collaborate effectively with doctors, social workers, therapists, and other healthcare professionals to ensure coordinated care for children.
Objective: Advocate for the rights and best interests of their patients, especially when children cannot speak for themselves.
This includes tasks like:
Communicating effectively with healthcare teams.
Identifying and addressing potential risks to child welfare.
Educating families about their child's condition and treatment options.
4. Professional Development and Research:
Objective: Stay up-to-date on the latest advancements in pediatric healthcare through continuing education and research.
Objective: Contribute to improving the quality of care for children by participating in research initiatives.
This includes tasks like:
Attending workshops and conferences on pediatric nursing.
Participating in clinical trials related to child health.
Implementing evidence-based practices into their daily routines.
By fulfilling these objectives, pediatric nurses play a crucial role in ensuring the optimal health and well-being of children throughout all stages of their development.
The Importance of Community Nursing Care.pdfAD Healthcare
NDIS and Community 24/7 Nursing Care is a specific type of support that may be provided under the NDIS for individuals with complex medical needs who require ongoing nursing care in a community setting, such as their home or a supported accommodation facility.
Deep Leg Vein Thrombosis (DVT): Meaning, Causes, Symptoms, Treatment, and Mor...The Lifesciences Magazine
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Global launch of the Healthy Ageing and Prevention Index 2nd wave – alongside...ILC- UK
The Healthy Ageing and Prevention Index is an online tool created by ILC that ranks countries on six metrics including, life span, health span, work span, income, environmental performance, and happiness. The Index helps us understand how well countries have adapted to longevity and inform decision makers on what must be done to maximise the economic benefits that comes with living well for longer.
Alongside the 77th World Health Assembly in Geneva on 28 May 2024, we launched the second version of our Index, allowing us to track progress and give new insights into what needs to be done to keep populations healthier for longer.
The speakers included:
Professor Orazio Schillaci, Minister of Health, Italy
Dr Hans Groth, Chairman of the Board, World Demographic & Ageing Forum
Professor Ilona Kickbusch, Founder and Chair, Global Health Centre, Geneva Graduate Institute and co-chair, World Health Summit Council
Dr Natasha Azzopardi Muscat, Director, Country Health Policies and Systems Division, World Health Organisation EURO
Dr Marta Lomazzi, Executive Manager, World Federation of Public Health Associations
Dr Shyam Bishen, Head, Centre for Health and Healthcare and Member of the Executive Committee, World Economic Forum
Dr Karin Tegmark Wisell, Director General, Public Health Agency of Sweden
One of the most developed cities of India, the city of Chennai is the capital of Tamilnadu and many people from different parts of India come here to earn their bread and butter. Being a metropolitan, the city is filled with towering building and beaches but the sad part as with almost every Indian city
How many patients does case series should have In comparison to case reports.pdfpubrica101
Pubrica’s team of researchers and writers create scientific and medical research articles, which may be important resources for authors and practitioners. Pubrica medical writers assist you in creating and revising the introduction by alerting the reader to gaps in the chosen study subject. Our professionals understand the order in which the hypothesis topic is followed by the broad subject, the issue, and the backdrop.
https://pubrica.com/academy/case-study-or-series/how-many-patients-does-case-series-should-have-in-comparison-to-case-reports/
R3 Stem Cells and Kidney Repair A New Horizon in Nephrology.pptxR3 Stem Cell
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2. ABSTRACT
• In a hospital, Health Care Monitoring System it is necessary to
constantly monitor the patient’s physiological parameters.
• Health care sensors are playing a vital role in hospitality.
• Patient monitoring system, a major improvement in hospitality
because of its advanced technology.
• A wireless system to measure heartbeat and body temperature.
• The main aim of this project is to deliver the status of patient
and location of patient within hospitals and globally.
3. INTRODUCTION
• Temperature sensor and heart beat sensor is connected to
monitor the patient’s condition.
• Body sensor network systems can help people by providing
healthcare services such as medical monitoring, memory
enhancement, medical data access, and communication with
the healthcare provider in emergency situations through the
GSM or IoT.
4. FEATURES
• Remote communication using GSM Modem from anywhere in
world.
• GPS based location identification.
• Sends location in the form of latitude and longitude.
• Accident location alerts to police/ambulance.
• Emergency control in hospital through GSM short message
service.
• A Mobile application for patient status
5. DESCRIPTION
• A wireless communication system is designed and developed for
remote patient monitoring.
• Remote patient monitoring (RPM) is a technology to enable
monitoring of patients outside of conventional clinical settings (e.g.
in the home), which may increase access to care and decrease
healthcare delivery costs.
• Incorporating RPM in chronic disease management can significantly
improve an individual’s quality of life.
• The primary function of this system is to monitor the temperature of
a patient’s body, and display the same to the doctor through RF
communication.
6. PROPOSED METHOD
• A GSM-GPS based “WIRELESS HUMAN HEALTH MONITOR”
system is used.
• Mainly three parts of the system, Heart beat and temperature
sensor, transmitter and receiver.
• ECG sensor is used to measure heart beat rate.
• Temperature sensor is used to measure body temperature.
• EMG sensor is used for neuromuscular monitoring
7. INTERNET OF THINGS
• The Internet of Things (IoT) is the network of physical objects—
devices, vehicles, buildings and other items embedded with
electronics, software, sensors, and network connectivity—that
enables these objects to collect and exchange data.
9. IMPLEMENTATION OF THIS SYSTEM
• This system uses biosensors which detects the blood flow, muscle
contraction and heart-rate.
• The microcontroller monitors the all the system if any abnormality
in the patient condition then it sends the signal to the doctor
using GSM modem and Internet protocols.
10. • This detection and messaging system is consists of Bluetooth,
IoT platform, GPS receiver, Microcontroller and a GSM modem.
• To observe the patient continuous status, here we are use IoT
technique.
• This will show the recorded data of patient heart-rate. Then the
doctor observes the patient data and the prescription was sent
to the nurse through SMS. Finally nurse will take care of the
patient until the doctor comes.
11. ADVANTAGES
• Bridging the gap between the doctor and the patients.
• Best to be used on rural areas.
• It is a multipurpose so that overall conditions are easily
measured.
• Easy to operate.
12. CONCLUSION
• This monitoring system can be activated when threshold level
exceeds, the alarm system is going to on such that the doctor
will receive a message regarding the critical situation of the
patient and can take immediate measures without any delay
with location of patient
13. FUTURE SCOPE
• A voice based alert system so that the doctor can be alerted
with a voice message if he is out of data connection.