The document describes a smart patient monitoring system using a microelectronic chip tattoo. The tattoo can read a patient's vital signs like brainwaves and heart rate and transmit the data every 5 seconds to provide continuous monitoring. The system aims to reduce response times and costs by automating medical history generation, creating distinct views for nurses and doctors, implementing logins and privileges, scheduling automated backups, and generating reports using the collected data. It outlines objectives like faster health prediction and non-invasive monitoring. Challenges include implementing all learned features and the innovative concept.
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.
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.
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.
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 .
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.
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.
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.
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.
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 .
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.
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.
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,
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
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.
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.
Its kind of technology to society.
The the project is of a Heart Monitoring Device which keeps a track of your heart beats.
If the person is getting Heart Attack, the device sends a message to pre-coded number(eg. Hospital, Doctor, Relative), so that the person can be treated.
Now-a-days, a growing number of people in a developing countries like India forces to look for new solutions for the continuous monitoring of health check-up. It has become a necessity to visit hospitals frequently for doctor’s consultation, which has become financially related and a time consuming process. To overcome this situation, we propose a design to monitor the patient’s health conditions such as heart beat, temperature, ECG and BP and send the message to guardian using GSM. In the recent development of internet of things(IoT) makes all objects interconnected and been recognized as the next technical revolution. Patient monitoring is one of the IoT application to monitor the patient health status. Internet of things makes medical equipments more efficient by allowing real time monitoring of health. Using IoT doctor can continuously monitor the patient’s on his smart phone and also the patient history will be stored on the web server and doctor can access the information whenever needed from anywhere.
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…
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.
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,
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
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.
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.
Its kind of technology to society.
The the project is of a Heart Monitoring Device which keeps a track of your heart beats.
If the person is getting Heart Attack, the device sends a message to pre-coded number(eg. Hospital, Doctor, Relative), so that the person can be treated.
Now-a-days, a growing number of people in a developing countries like India forces to look for new solutions for the continuous monitoring of health check-up. It has become a necessity to visit hospitals frequently for doctor’s consultation, which has become financially related and a time consuming process. To overcome this situation, we propose a design to monitor the patient’s health conditions such as heart beat, temperature, ECG and BP and send the message to guardian using GSM. In the recent development of internet of things(IoT) makes all objects interconnected and been recognized as the next technical revolution. Patient monitoring is one of the IoT application to monitor the patient health status. Internet of things makes medical equipments more efficient by allowing real time monitoring of health. Using IoT doctor can continuously monitor the patient’s on his smart phone and also the patient history will be stored on the web server and doctor can access the information whenever needed from anywhere.
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…
En dicha presentación abordaremos, los principales aspectos de una edificación ecológica, los beneficios para el hombre y el medio ambiente; así como los proyectos desarrollados en México y lo que podemos hacer como sociedad.
Building Confidence in Big Data - IBM Smarter Business 2013 IBM Sverige
Success with big data comes down to confidence. Without confidence in the underlying data, decision makers may not trust and act on analytic insight. You need confidence in your data – that it’s correct, trusted, and protected through automated integration, visual context, and agile governance. You need confidence in your ability to accelerate time to value, with fast deployments of big data appliances. Learn how clients have succeeded with big data by building confidence in their data, ability to deploy, and skills. Presenter: David Corrigan, Big Data specialist, IBM. Mer från dagen på http://bit.ly/sb13se
Integration of 5G and Block-Chain Technologies in Smart Telemedicine Using IoTzaman174
This presentation described a research conducted by Dr. Imran Sarwar Bajwa, Chairman, Department of computer science, Islamia university Bahawalpur. This is described model for Integration of 5G and Block-Chain Technologies in Smart
Telemedicine Using IoT.
Examining New Research Capabilities and Technology for Preclinical Telemetry ...InsideScientific
For many years rodent telemetry researchers have struggled with limited data collection flexibility, challenges of scalability and a combination of high setup and operation costs that have combined to limit research applications, leaving significant preclinical findings undiscovered. Implant communication interference has demanded special install conditions, systems were too bulky and implants were constantly being explanted and returned for service. This webinar presents new telemetry technologies that address these challenges and introduce exciting capabilities to preclinical researchers working with rodent models.
In this exclusive webinar sponsored by Indus Instruments, Dr. Anil Reddy and Graham Sattler will discuss new research possibilities and advantages that a recently released telemetry system brings to mouse, rat and other small animal researchers. Attendees will see novel data collection protocols and learn how long-term monitoring, device recovery and reuse, study scalability and social housing are enabled with the MouseMonitor Telemetry system.
Key Topics:
data collection flexibility through customizable scheduling
the importance of device reusability
the research impact of long-term monitoring studies
simplified system setup and operation
the importance of social housing on animal welfare
compact, mobile system installations with greatly reduced vertical & horizontal cage spacing
TiaNuMR is the complete hospital management system developed by TiaTech (also known as TiaTech Ecosystem). This HMS Software can be integrated with telemedicine system, PACS software, medical practice management software and other healthcare apps associated with this. For more details click : https://www.tiatech.net/tiamd-numr.php
Embedded systems in biomedical applicationsSeminar Links
Interface with the outside world -sensors, actuators and specialized communication links. Healthcare applications offer distinctive challenges for embedded systems over the next ten years.
ACCENT\'s Hospital Management System provides an integrated solution that complements your hospital information management system and helps you manage and prioritize support services requests including transportation and environmental services.
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ACCENT\'s Hospital Management System can significantly improve your capacity through our fully integrated hospital information management system. Here\'s how:
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• Requests can be made on a routine to stat basis, so that services are available to patients at the priority level they require.
• Hospital performance dashboards reflect real-time electronic data collection from hospital information management systems.
• Synchronization of housekeeping, transportation, and engineering room requests by bed management are available for centralized bed turn coordination.
ACCENT’s Hospital Management System is a complete package one needs for a hospital to deal with all the day to day operations taking place. The program can look after Inpatients, OPD patients, records, database treatments, status illness, and billings. It also maintains their in hospital info such as ward ID, Doctor in Charge, and Department administering.
2. About
•A healthcare application for wireless health monitoring of a patient using Microelectronic Chip
tattoo
• Our goal is to provide unremitting statistical medical report of patient status to healthcare
organization thereby reducing response time to action
3. Microelectronic Chip Tattoo
A small, flexible circuit device that sticks comfortably to the skin and is artfully camouflaged as a
temporary tattoo.
It can read patient’s brainwaves, heart rate and muscle activity while they are going about their normal
activity
4. Objectives & Scope
• Faster prediction of deteriorating health
• Reduce the cost of investing in heavy and costly machines for measuring the vital signs
• Promoting the use of non invasive and surgical procedures for monitoring patients
• Improving response time of patient care unit
• Ease patient health analysis for doctors and nurses
5. Deliverables Data Acquisition from chip
Automated Medical History Generation using Triggers
Distinct Patient Views with Cursors
User Logins and Privileges
Stored Procedures
Automated Database Backup
Purging Database using Transactions
Programmed Task Scheduling
Report Generation through Business Intelligence
Development tools
6. Assumptions
•The electronic chip data provides reliable and uninterrupted measurements.
• The patient should always wear the tattoo to get continuous vital sign.
•Patient should be admitted to the hospital
•The chip transmits data every 5 seconds
•Hospital schedules the full backup on Sunday night
•Hospital schedules differential backup everyday
24. Report Generation through Business Intelligence
Development tools
Reports for each patient by using SQL server reporting which can be mailed or saved in a local system
It runs whenever an insert happens in vital sign table,
It checks If any of the vital sign values lie in abnormal range, then it will automatically insert that row into Vital Sign Peak value medical history table
Views for each nurse’s patients
Created user logins for all the Doctos and Nurses and gave them privileges to select only needed data
Differential Backup : because the amount of data collected everyday is huge.
So we cant use full backup daily.
This will take backup of data changing after full backup
Since the chip sends data every 5 seconds , the amount of data gathered will be very huge.
So in order to manage the database efficiently, we need to free the memory space, by deleting data obsolete data.
We have implemented a procedure that will remove the obsolete data older than 7 days.
Transaction: used when you need an action to be completed successfully or revert back to the older state.
We used transaction in order to prevent corruption of data of such high importance.
