The document describes a bedside patient monitoring system that measures temperature data using a portable medical monitoring unit. The unit contains a microcontroller, sensor board, and processing system to manage information, analyze data in real-time, and provide warnings for emergencies or abnormal diagnoses. The system takes a patient's temperature, converts it to digital using an ADC, and sends it to the microcontroller for processing. If the temperature exceeds a threshold, the system sounds a buzzer for notification.
Transformer Turn Ratio Meter - Digitech Roorkeeabhayy21
Transformer Turn Ratio Meter is overload and short-circuit protected electronically. The unit offers a measurement range from 1.000 to 199.99 in two ranges i.e.19.999 and 199.99 with digital display.
Automatic room temperature controlled fan using arduino uno microcontrollerMohammod Al Emran
This paper presents the designs and the simulation of a DC fan control system based on room temperature using pulse width modulation technique, humidity and temperature sensor namely DHT11 with Arduino Uno Microcontroller. The fan will be used to reduce temperature of a room at certain level. To build the fan, we will use DTH11 Humidity Sensor. The sensor will measure the temperature continuously. When the temperature gets higher from a specific temperature, the fan will be on “On” mode. The speed of the fan will be determined by pwm using pulse-width modulation. The temperature along with the speed of the fan will be displayed through LCD monitor.
Transformer Turn Ratio Meter - Digitech Roorkeeabhayy21
Transformer Turn Ratio Meter is overload and short-circuit protected electronically. The unit offers a measurement range from 1.000 to 199.99 in two ranges i.e.19.999 and 199.99 with digital display.
Automatic room temperature controlled fan using arduino uno microcontrollerMohammod Al Emran
This paper presents the designs and the simulation of a DC fan control system based on room temperature using pulse width modulation technique, humidity and temperature sensor namely DHT11 with Arduino Uno Microcontroller. The fan will be used to reduce temperature of a room at certain level. To build the fan, we will use DTH11 Humidity Sensor. The sensor will measure the temperature continuously. When the temperature gets higher from a specific temperature, the fan will be on “On” mode. The speed of the fan will be determined by pwm using pulse-width modulation. The temperature along with the speed of the fan will be displayed through LCD monitor.
The sensor housed on the patient’s finger, detects the pumping of the heart and produces a voltage output. This is then transferred to the Microcontroller.
In the Microcontroller the output is plotted with respect to real time to the heart beat rate.
This information can be stored on the computer and can be used to analyze a status of the patient.
Nowadays numerous persons are mislaying their life owing to heart attack and shortage of medical attention to patient at correct stage.We all know heart attack can kill your life in 3 attempts but now days it can be dangerous in first attempt also. If checking our health regularly on daily basis then we can detect so many different diseases by detecting them previously, Life is precious. Many people among us lose their life to heart attack. Heart attack is not easy to detect, To overcome and help our society from heart diseases and attack, we are developing such a system which will help to decrease the death rate and early detection a heart attack. Hence, in this project we are implementing heart rate monitoring and heart attack recognition system . The sensor is then interfaced to a micro-controller that allows checking heart rate readings and transmitting them over Internet. The user may set the high as well as low level of heart beat limit. Once these limits are set the system can start monitoring the patient’s heartbeat and as soon as the heart beat readings goes above or below the limit set by the user the system will send an alert about high or low heartbeat as well about chances of heart attack . For this the system uses two circuits. One is the transmitting circuit which is with the patient and the other is the receiver circuit which is being supervised by the doctor or nurse. The system makes use of heart beat sensor to find out the current heart beat level and display it on the LCD screen.
PROJECTS SYNOPSIS BIOMEDICAL:Bed side patient monitoring system with automati...ASHOKKUMAR RAMAR
PROJECT CENTER TAMBARAM,PROJECT CENTER GUINDY, PROJECT CENTER PALLAVARAM,
PROJECT CENTER VELACHERRY, PROJECT CENTER CHROMPET, PROJECT CENTER VADAPALANI,PROJECT CENTER CHENNAI,
FINAL YEAR PROJECTS TAMBARAM,BEST PROJECT CENTER TAMBARAM,EMBEDDED SYSTEM PROJECTS, EMBEDDED PROJECTS TAMBARAM,
IEEE PROJECTS, IEEE PROJECTS TAMBARAM,
In this research, the design and simulation of an automatic system for temperature control using embedded system in order to automatically control of multi appliances depend on the temperature value. The appliances will be controlled are ventilation, cooling, heating and alert. this is an order to avoid or reduce to human intervention and increase system reliability. An important feature of this automation process is to reduce or eliminate the possibility of relying on the human factor operator for industries, warehouses and laboratories, and to improve working and performance environments. The system in this paper used the microcontroller PIC16F887 as the central control unit, LM35 temperature sensor as a temperature source,16x2 liquid crystal display (LCD) as indicator to display the different system working status an addition to some of drivers, relay and light emitting diodes (LED) as indicators to display the corresponding working appliance driver. The implementation and simulation of the system work has been achieved by using proteus professional software v8.0 and mikroc pro for pic v .6.6.1 software to write the equivalent program and generate .hex file for system working. The result shows in figures 5, 6, 7, and 8 that explain the system working cases.
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.
Design and Implementation of Real Time Remote Supervisory SystemIJERA Editor
In today’s fast growing communication environment and rapid exchange of data in networking field has triggered us to develop a home based remote supervisory monitoring system. In the present paper the physiological parameters of the patient such as body temperature, ECG, Pulse rate and Oxygen Saturation is displayed in MATLAB graphical user interface which is processed using ARM7 LPC2138. In case any emergency persist and parameters goes abnormal over the optimum level then a buzzer will ring to alert the caretaker. And the vital parameters will be displayed on the patient side computer and an automatic SMS will be sent to the doctor using GSM interface.
A Wireless Physiological Monitoring System for Hyperbaric Oxygen ChamberIJRES Journal
This paper introduces a system which can monitor multi-physiological parameters in the hyperbaric oxygen chamber. The monitoring system was designed as a star wireless sensor network and the system’s transmission protocol based on the IEEE802.15.4 were programmed. The signals can be collected with the sensor network working under network synchronization. The system can be used to monitor physiological parameters such as blood pressure, pulse rate and temperature. A prototype of the monitoring system has been fabricated and extensively tested with very good results.
WHEELZ TRACKER is a provider of GPS based vehicle tracking system for transportation, Utility vehicles, Public transit, Logistics and delivery. Our GPS technology solution designed for vehicle owners and managers with a personalized digital dashboard with live-tracking, Fuel monitoring and alert features.
The sensor housed on the patient’s finger, detects the pumping of the heart and produces a voltage output. This is then transferred to the Microcontroller.
In the Microcontroller the output is plotted with respect to real time to the heart beat rate.
This information can be stored on the computer and can be used to analyze a status of the patient.
Nowadays numerous persons are mislaying their life owing to heart attack and shortage of medical attention to patient at correct stage.We all know heart attack can kill your life in 3 attempts but now days it can be dangerous in first attempt also. If checking our health regularly on daily basis then we can detect so many different diseases by detecting them previously, Life is precious. Many people among us lose their life to heart attack. Heart attack is not easy to detect, To overcome and help our society from heart diseases and attack, we are developing such a system which will help to decrease the death rate and early detection a heart attack. Hence, in this project we are implementing heart rate monitoring and heart attack recognition system . The sensor is then interfaced to a micro-controller that allows checking heart rate readings and transmitting them over Internet. The user may set the high as well as low level of heart beat limit. Once these limits are set the system can start monitoring the patient’s heartbeat and as soon as the heart beat readings goes above or below the limit set by the user the system will send an alert about high or low heartbeat as well about chances of heart attack . For this the system uses two circuits. One is the transmitting circuit which is with the patient and the other is the receiver circuit which is being supervised by the doctor or nurse. The system makes use of heart beat sensor to find out the current heart beat level and display it on the LCD screen.
PROJECTS SYNOPSIS BIOMEDICAL:Bed side patient monitoring system with automati...ASHOKKUMAR RAMAR
PROJECT CENTER TAMBARAM,PROJECT CENTER GUINDY, PROJECT CENTER PALLAVARAM,
PROJECT CENTER VELACHERRY, PROJECT CENTER CHROMPET, PROJECT CENTER VADAPALANI,PROJECT CENTER CHENNAI,
FINAL YEAR PROJECTS TAMBARAM,BEST PROJECT CENTER TAMBARAM,EMBEDDED SYSTEM PROJECTS, EMBEDDED PROJECTS TAMBARAM,
IEEE PROJECTS, IEEE PROJECTS TAMBARAM,
In this research, the design and simulation of an automatic system for temperature control using embedded system in order to automatically control of multi appliances depend on the temperature value. The appliances will be controlled are ventilation, cooling, heating and alert. this is an order to avoid or reduce to human intervention and increase system reliability. An important feature of this automation process is to reduce or eliminate the possibility of relying on the human factor operator for industries, warehouses and laboratories, and to improve working and performance environments. The system in this paper used the microcontroller PIC16F887 as the central control unit, LM35 temperature sensor as a temperature source,16x2 liquid crystal display (LCD) as indicator to display the different system working status an addition to some of drivers, relay and light emitting diodes (LED) as indicators to display the corresponding working appliance driver. The implementation and simulation of the system work has been achieved by using proteus professional software v8.0 and mikroc pro for pic v .6.6.1 software to write the equivalent program and generate .hex file for system working. The result shows in figures 5, 6, 7, and 8 that explain the system working cases.
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.
Design and Implementation of Real Time Remote Supervisory SystemIJERA Editor
In today’s fast growing communication environment and rapid exchange of data in networking field has triggered us to develop a home based remote supervisory monitoring system. In the present paper the physiological parameters of the patient such as body temperature, ECG, Pulse rate and Oxygen Saturation is displayed in MATLAB graphical user interface which is processed using ARM7 LPC2138. In case any emergency persist and parameters goes abnormal over the optimum level then a buzzer will ring to alert the caretaker. And the vital parameters will be displayed on the patient side computer and an automatic SMS will be sent to the doctor using GSM interface.
A Wireless Physiological Monitoring System for Hyperbaric Oxygen ChamberIJRES Journal
This paper introduces a system which can monitor multi-physiological parameters in the hyperbaric oxygen chamber. The monitoring system was designed as a star wireless sensor network and the system’s transmission protocol based on the IEEE802.15.4 were programmed. The signals can be collected with the sensor network working under network synchronization. The system can be used to monitor physiological parameters such as blood pressure, pulse rate and temperature. A prototype of the monitoring system has been fabricated and extensively tested with very good results.
WHEELZ TRACKER is a provider of GPS based vehicle tracking system for transportation, Utility vehicles, Public transit, Logistics and delivery. Our GPS technology solution designed for vehicle owners and managers with a personalized digital dashboard with live-tracking, Fuel monitoring and alert features.
Automatic semantic content extraction in videos using a fuzzy ontology and ru...
Bed side patients monitoring system with emergency alert
1. BED SIDE PATIENTS MONITORING SYSTEM WITH
EMERGENCY ALERT
ABSTRACT
In this project, we propose a medical monitoring system for temperature data. The portable
medical monitoring unit consists of microcontroller with the embedded operating system, a
custom sensor board, and information processing system which realizes information
management, real-time analysis, a warning mechanism for emergency and diagnosis.
From the medical monitoring unit patient’s temperature data is taken and given to the ADC.
ADC converts this analog data into digital format and sends to the controller, controller will
process this data and whenever threshold value exceeds than buzzer sound is provided for
indication purpose.
2. BLOCK DIAGRAM
LCD DISPLAY
POWER
SUPPLY
(16 X 2 LINES)
MICRO
CONTROLLER
ADC 0804
BUZZER
(AT89S52)
TEMPERATURE
SENSOR
LCD DISPLAY
POWER
SUPPLY
(16 X 2 LINES)
MICRO
CONTROLLER
ADC 0804
BUZZER
(AT89S52)
TEMPERATURE
SENSOR
