There is a need to develop a new low cost indigenous electronic cradle because the existing cradles are imported and costly. This paper presents the design and implementation of a new indigenous low cost E-Baby Cradle that swings automatically when baby cries, for this it has a cry analysing system which detects the baby cry voice and accordingly the cradle swings till the baby stops crying. The speed of the cradle can be controlled as per the user need. The system has inbuilt alarm that indicates the condition –when baby does not stop crying with in a stipulated time, which intimated that baby needs attention. This system helps parents and nurses to take care of babies without physical attention by already recorded voice input to FN-M16P model and at this same time Cradle also moves according to the user need.
IRJET - Home Monitoring System for SidsIRJET Journal
This document describes a home monitoring system designed to reduce Sudden Infant Death Syndrome (SIDS) by monitoring infants under 1 year of age. The system uses sensors integrated into wearable clothing to detect respiration, pulse, temperature, and smoke. It sends the sensor data to a microcontroller connected to the clothing, which then transmits the data via Wi-Fi to a mobile phone and cloud database. This allows parents to monitor the infant's vital signs from their phone. The system aims to be inexpensive, comfortable for infants to wear, and able to wirelessly transmit data to warn parents of any dangerous conditions like high temperature or smoke exposure.
Child Activity Recognition Using Accelerometer and RFID ReaderIJRES Journal
This paper presents a child activity recognition using a accelerometer and RFID reader. Usually children start walking between 8 months to 16 months and they are more dangerous during this age. So we place accelerometer and RFID on the body of child to prevent child accidents such as falling or any injuries at home. In this paper we determine the activity of child such as sitting down, standing still, walking, toddling, crawling, rolling, and wiggling. The accelerometer and RFID are placed on waist of babies which gives every movement of child. That determine whether the child is falling or in safe mode. The accuracy of each child activity recognition was 98% using accelerometer and RFID reader. The temperature at home and fire at home can be determined by smoke sensor and temperature sensor for safety of child. To recognize daily activities, mean, standard deviation, and slope of time-domain features are calculated over sliding windows.
IRJET- IoT based Smart Cradle System for Baby MonitoringIRJET Journal
This document describes a proposed IOT-based smart cradle system for baby monitoring. The system uses various sensors to monitor the baby's conditions and activities in the cradle. It uses a sound sensor to detect if the baby is crying and will automatically start swinging the cradle. It uses a wet sensor to detect if the baby's diaper is wet and sends an alert. It uses temperature sensors to monitor the baby's body temperature and room temperature, sending an alert if any large changes are detected. It uses a motion sensor to detect motion in the cradle for security purposes and will send an alert if excessive motion is detected. The system is designed to help parents monitor the baby remotely using their mobile phones and decrease their stress while allowing them to
IRJET- Smart Cradle by using Messaging & Sensing TechnologyIRJET Journal
This document summarizes several research papers on developing smart cradle technologies to assist parents in caring for babies. It describes smart cradles that can automatically swing or play music when a baby cries, detect if a baby's mattress is wet, and alert parents if a baby does not stop crying within a set time. The goal of these smart cradles is to help busy parents monitor and soothe babies without constant physical attention. Various technologies discussed include cry detection sensors, alarms, wireless control, and machine learning algorithms to classify baby sounds.
IRJET- Monitoring of Incubator using IotIRJET Journal
This document describes a project to monitor neonatal incubators using IoT technology. Sensors are connected to a NodeMCU to measure parameters like temperature, humidity, light levels, gas levels, and pulse rate of babies in incubators. If any parameters exceed safe levels, a notification is sent to doctors and nurses via an Ubidots cloud platform. This allows for remote monitoring of incubators and addresses issues like overheating or gas leaks that could endanger premature infants' lives. The goal is to provide safe, low-cost monitoring and reduce infant mortality rates.
Implementation Of Real Time IoT Based Health monitoring systemkchakrireddy
This is a project implemented by me and my friends during our final year. It is designed for doctors who are not able to be with the patients all the time. This improves the gap between the patients and the doctors.
IRJET - A Novel Health Monitoring System for Trance PatientsIRJET Journal
This document describes a novel health monitoring system for coma patients. The system monitors several vital health parameters of coma patients such as temperature, heart rate, body movement, eye movement, and blood oxygen saturation using various sensors. If any abnormalities are detected in the patient's readings, the data will be sent via GSM to doctors and relatives. Additionally, the system uses Wi-Fi and an IoT platform called Thingspeak to allow online monitoring of coma patients' conditions via mobile phones. This remote monitoring system reduces the need for continuous clinical staff presence at the patient's bedside.
IRJET - Home Monitoring System for SidsIRJET Journal
This document describes a home monitoring system designed to reduce Sudden Infant Death Syndrome (SIDS) by monitoring infants under 1 year of age. The system uses sensors integrated into wearable clothing to detect respiration, pulse, temperature, and smoke. It sends the sensor data to a microcontroller connected to the clothing, which then transmits the data via Wi-Fi to a mobile phone and cloud database. This allows parents to monitor the infant's vital signs from their phone. The system aims to be inexpensive, comfortable for infants to wear, and able to wirelessly transmit data to warn parents of any dangerous conditions like high temperature or smoke exposure.
Child Activity Recognition Using Accelerometer and RFID ReaderIJRES Journal
This paper presents a child activity recognition using a accelerometer and RFID reader. Usually children start walking between 8 months to 16 months and they are more dangerous during this age. So we place accelerometer and RFID on the body of child to prevent child accidents such as falling or any injuries at home. In this paper we determine the activity of child such as sitting down, standing still, walking, toddling, crawling, rolling, and wiggling. The accelerometer and RFID are placed on waist of babies which gives every movement of child. That determine whether the child is falling or in safe mode. The accuracy of each child activity recognition was 98% using accelerometer and RFID reader. The temperature at home and fire at home can be determined by smoke sensor and temperature sensor for safety of child. To recognize daily activities, mean, standard deviation, and slope of time-domain features are calculated over sliding windows.
IRJET- IoT based Smart Cradle System for Baby MonitoringIRJET Journal
This document describes a proposed IOT-based smart cradle system for baby monitoring. The system uses various sensors to monitor the baby's conditions and activities in the cradle. It uses a sound sensor to detect if the baby is crying and will automatically start swinging the cradle. It uses a wet sensor to detect if the baby's diaper is wet and sends an alert. It uses temperature sensors to monitor the baby's body temperature and room temperature, sending an alert if any large changes are detected. It uses a motion sensor to detect motion in the cradle for security purposes and will send an alert if excessive motion is detected. The system is designed to help parents monitor the baby remotely using their mobile phones and decrease their stress while allowing them to
IRJET- Smart Cradle by using Messaging & Sensing TechnologyIRJET Journal
This document summarizes several research papers on developing smart cradle technologies to assist parents in caring for babies. It describes smart cradles that can automatically swing or play music when a baby cries, detect if a baby's mattress is wet, and alert parents if a baby does not stop crying within a set time. The goal of these smart cradles is to help busy parents monitor and soothe babies without constant physical attention. Various technologies discussed include cry detection sensors, alarms, wireless control, and machine learning algorithms to classify baby sounds.
IRJET- Monitoring of Incubator using IotIRJET Journal
This document describes a project to monitor neonatal incubators using IoT technology. Sensors are connected to a NodeMCU to measure parameters like temperature, humidity, light levels, gas levels, and pulse rate of babies in incubators. If any parameters exceed safe levels, a notification is sent to doctors and nurses via an Ubidots cloud platform. This allows for remote monitoring of incubators and addresses issues like overheating or gas leaks that could endanger premature infants' lives. The goal is to provide safe, low-cost monitoring and reduce infant mortality rates.
Implementation Of Real Time IoT Based Health monitoring systemkchakrireddy
This is a project implemented by me and my friends during our final year. It is designed for doctors who are not able to be with the patients all the time. This improves the gap between the patients and the doctors.
IRJET - A Novel Health Monitoring System for Trance PatientsIRJET Journal
This document describes a novel health monitoring system for coma patients. The system monitors several vital health parameters of coma patients such as temperature, heart rate, body movement, eye movement, and blood oxygen saturation using various sensors. If any abnormalities are detected in the patient's readings, the data will be sent via GSM to doctors and relatives. Additionally, the system uses Wi-Fi and an IoT platform called Thingspeak to allow online monitoring of coma patients' conditions via mobile phones. This remote monitoring system reduces the need for continuous clinical staff presence at the patient's bedside.
IRJET- Patient Health Monitoring with Health AssistantIRJET Journal
This document describes a patient health monitoring system using sensors, a Raspberry Pi, and cloud technology. The system measures a patient's vital signs like temperature, heart rate, and blood pressure using sensors. The sensor data is sent to a Raspberry Pi, which then uploads it to the cloud. Doctors and caregivers can access the patient's health data from the cloud to remotely monitor their status. If any readings go outside normal levels, alerts will be sent. The system aims to help patients monitor their health and ensure they take their medications on schedule.
Implementation Of Real Time IoT Based Health monitoring systemkchakrireddy
The main aim of this project is to interconnect the available medical resources and offer smart, reliable, and effective healthcare service to elderly people. Health monitoring for active and assisted living is one of the paradigms that can use the IOT advantages to improve the elderly lifestyle in this project we present an IOT architecture customized for healthcare applications. The proposed architecture collects the data and relays it to the cloud where it is processed and analyzed. Feedback actions based on the analyzed data can be sent back to the user.
IRJET- Patient Healthcare System using IoTIRJET Journal
This document proposes a patient healthcare system using IoT technology. The system would monitor patient health parameters like heartbeat, temperature, and blood pressure using sensors. The sensor data would be sent to the cloud and then to a remote doctor's location. It describes using an Arduino board connected to sensors to collect data, an ESP interface to transfer data to the cloud, and ThinkSpeak cloud platform for data analytics and monitoring. The system aims to remotely monitor patient health in real-time to improve healthcare access.
IRJET- Arduino Based Baby Incubator using GSM TechnologyIRJET Journal
This document describes a baby incubator system that uses an Arduino microcontroller to monitor temperature, humidity, and light conditions inside the incubator. Sensors measure these conditions and the Arduino controls fans, heaters and lights to maintain stable conditions for preterm babies. If conditions go outside safe ranges, the system sends an alert SMS using a GSM module to notify parents and medical staff. The goal is to create an environment similar to the womb to help preterm infants survive and allow remote monitoring of incubator conditions for caregivers.
Smart Water Monitoring System using Cloud Serviceijtsrd
This document describes a smart water monitoring system using cloud services and IoT technology. The system uses sensors to remotely monitor water flow and usage across nodes. If any abnormalities are detected, such as waste or excess usage, the sensor network can automatically cut water supply to that area. All the sensor data is uploaded to the cloud where it can be analyzed. This data allows authorities to better manage water resources, define policies, and calculate billing. The system aims to conserve water resources by efficiently monitoring usage from small villages to large urban areas using a flexible sensor network and cloud connectivity.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
IRJET- Health Monitoring system using IoTIRJET Journal
This document summarizes a research paper on a health monitoring system using IoT. The system measures body temperature and heart rate using sensors connected to an Arduino board. The Arduino transmits the sensor data wirelessly to a ThingSpeak platform using an ESP8266 WiFi module. This allows the sensor data to be stored, visualized, and accessed over time on the ThingSpeak server. The system aims to provide convenient remote health monitoring and storage of vital sign data over periods of time using IoT technology.
IRJET- Design and Implementation of IOT Based Health Monitoring System Using ...IRJET Journal
This document describes a health monitoring system using sensors and a Raspberry Pi device connected to the internet. The system monitors a patient's heart rate and body temperature using heartbeat and temperature sensors connected to the Raspberry Pi. The Raspberry Pi acts as a server, collecting sensor data and sending it over the internet to a web server. Doctors and others can then monitor the patient's vital signs from anywhere using devices connected to the internet like smartphones and laptops. The system provides low-cost remote patient monitoring without expensive medical facilities.
IRJET- Implementation of Cloud based Health Care Monitoring System using IoTIRJET Journal
This document describes a cloud-based health monitoring system using IoT. Sensors collect patients' body parameters like temperature, motion, eye blink, and moisture, and transfer the data to a PIC microcontroller, which then sends it to a cloud server via an Arduino, WiFi module, and ThinkSpeak application. This allows doctors to remotely monitor and track patient medical information in real-time. The proposed system aims to enable early detection of health issues for improved patient care.
Healthcare IoT and Analytics to treat Parkinsonsrcnossen
Rick Cnossen from Intel discussed transforming healthcare with the Internet of Things (IoT). IoT can help drive outcomes-based payment, wellness programs, reduce costs of chronic care, and help with clinical trials. Intel's vision is to connect computing technology to people worldwide. Wearable devices can help manage Parkinson's disease by continuously tracking symptoms, activity, sleep, and tremors to provide accurate reports between doctor visits. Big data analytics of information from many patients can provide insights to help research and pharmaceuticals. Challenges to address include the lack of objective measures between infrequent doctor visits and the high costs and small sizes of clinical trials.
IRJET - Detection of Sleep Apnea using Pressure SensorIRJET Journal
This document describes a study that developed a system to detect sleep apnea using a pressure sensor. Sleep apnea is a common sleep disorder where breathing is interrupted during sleep and affects about 13.7% of the Indian population. The system uses a piezoresistive pressure sensor placed on the palate to detect changes in tongue pressure during sleep. The sensor data is acquired, processed using signal processing techniques, and transmitted wirelessly using an Internet of Things approach. The system provides a portable way to efficiently monitor and detect sleep apnea. The researchers conclude the system could help diagnose more people with sleep apnea and provide treatment.
The document describes a proposed smart health care system for rural areas in India using IoT and machine learning. Sensors would be attached to patients' bodies to monitor vitals like heart rate, blood pressure, blood sugar, and temperature. The sensor data would be sent to a health care app via an Arduino and node MCU. The app would analyze the data using machine learning algorithms and alert doctors if any readings require attention. This system aims to improve medical care in rural India by remotely monitoring patients and reducing strain on local hospitals and doctors.
IRJET- Sudden Infant Death Syndrome Detection and Prevention using Grid Eye S...IRJET Journal
This document discusses a system to detect and prevent Sudden Infant Death Syndrome (SIDS) using a Grid Eye sensor. SIDS is a mysterious disease that causes unexpected death in infants, often due to prone sleeping position which reduces oxygen intake. The proposed system uses a Grid Eye sensor, which is an 8x8 pixel infrared array, to monitor the infant's temperature, position, and detect any positional changes. If any abnormalities are detected, an alert is sent to caretakers via a push notification application. The system aims to reduce SIDS deaths by continuously and remotely monitoring infants.
IRJET - An Efficient Approach for Monitoring the Patient’s Condition usin...IRJET Journal
This document describes a system that uses augmented reality and sensors to monitor patient conditions in a hospital. Sensors attached to patients measure body parameters like temperature, heartbeat, respiratory rate, blood pressure, and activity levels. A PIC microcontroller collects the sensor data and sends it wirelessly via ZigBee protocol to an augmented reality glass worn by doctors. This allows doctors to view real-time patient data directly through the glasses to monitor for any abnormal conditions and take appropriate action to treat patients. The system aims to enhance the operating environment for doctors and help them more efficiently access latest patient information and diagnostics.
Survey of a Symptoms Monitoring System for Covid-19vivatechijri
The Internet of Things (IOT) depicts the organization of actual items that are implanted with sensors, programming, and different advances for the point of interfacing and trading information with different gadgets and frameworks over the web . In this day and age, there are numerous IOT based, these IOT based gadgets and machines range from wearable like brilliant watches to RFID stock following chips. IOT associated gadgets convey by means of organizations or cloud-based stages associated with the snare of Things. Among the applications that Internet of Things (IOT) encouraged to the planet , Healthcare applications are generally imperative . There are numerous wellbeing checking gadgets accessible. These framework comprises two sensors that is Heartbeat and blood heat sensor and furthermore contains Arduino UNO. This versatile gadget will screen heartbeat and blood heat utilizing sensors. The framework utilizes Arduino board which is associated with heart beat sensor and temperature sensor. The framework will take contribution from the guts beat and blood heat sensors and can send the data to Arduino. The Arduino will send the information of two sensors to LCD alphanumeric presentation . This presentation will show the perusing of the heartbeat sensor and blood heat sensor in BPM (Beats Per Minute) and in Celsius or Fahrenheit.
IRJET- IoT based Patient Health Monitoring System using Raspberry Pi-3IRJET Journal
This document describes an IoT-based patient health monitoring system using a Raspberry Pi 3. The system monitors a patient's temperature, humidity, and pulse rate using sensors and sends the real-time information over the internet. It can alert doctors and caregivers if any of the vital signs are outside normal ranges to help address critical health situations quickly. The system uses a Raspberry Pi 3 microcontroller connected to a temperature and humidity sensor, pulse rate sensor, piezo buzzer, and HDMI display. It sends the sensor data to an Adafruit webpage via WiFi so the patient's health status can be monitored remotely from any internet-connected device.
The UK's Whole System Demonstrator trial from 2008 was the largest randomized controlled study of telehealth and telecare in the world, involving over 6,000 patients across 238 general practices in three sites. The trial found reductions of 45% in mortality rates, 20% in emergency admissions, 15% in A&E and elective visits, and 14% in bed days and costs. It was evaluated by several UK universities and institutions.
IOT based Patient Health Monitoring System using Raspberry pi 3IRJET Journal
This document describes an IOT-based patient health monitoring system using a Raspberry Pi 3. The system monitors a patient's temperature and heartbeat in real-time using sensors. The sensor data is sent to the Raspberry Pi 3 and displayed locally. It is also sent over the internet to a web server where doctors and caregivers can access it from anywhere. If vital signs go outside normal ranges, an alert is sent and a buzzer sounds to notify caregivers. This allows for continuous remote patient monitoring to improve health outcomes.
IRJET- Motion Based Message Conveyor for Physically Disabled PeopleIRJET Journal
The document describes a motion-based message conveyor system for physically disabled people. The system uses an accelerometer placed on a movable body part of a disabled person. When the person moves their body in a particular direction due to a problem, the accelerometer detects the motion and sends a message like "Some Problem" to a receiver using an Arduino, RF transmitter, and LCD display. The receiver then displays the message and activates a buzzer for help. The system also continuously monitors and displays the person's temperature using a temperature sensor. The goal is to help physically disabled people communicate problems and emergency needs to caretakers through simple motions.
The document proposes a low-cost, wireless remote health monitoring system using sensors to measure vital signs like temperature, heart rate, blood pressure, and lung capacity. The sensor data is sent to a monitoring system via wireless communication networks and the Internet of Things (IoT), allowing doctors to remotely monitor patients and reducing the need for frequent in-person visits. The proposed system aims to make healthcare more accessible and affordable for chronic disease patients.
IRJET - Smart Maternal Real Time Monitoring using IoT-TechniqueIRJET Journal
This document describes a smart maternal real-time monitoring system using IoT techniques. The system includes sensors placed on an abdomen belt to measure the fetal heart rate, temperature, movement, and indicators of labor pain like sweat and contractions. The measured parameters are sent to the cloud for storage and analysis. An alert message will be sent via GSM if any parameters exceed thresholds. The system aims to improve prenatal care and reduce maternal mortality rates by enabling real-time remote monitoring of high-risk pregnancies.
Gesture Gloves - For Speechless patientsNeha Udeshi
Patients with speech disorders often find it difficult to communicate their needs to the general audience. These patients include the mute, senior citizens, paralyzed, and patients with diseases such as dysarthria, aphasia, to name a few. To satisfy their requirements, the Gesture Gloves have been designed. These gloves ease the communication, without much ado, by engendering predefined gestures to voice. The input is in the form of hand gestures which are converted to text and speech. The gloves are equipped with multiple flex sensors that produce varying resistance for every gesture made by the person.
IRJET- Patient Health Monitoring with Health AssistantIRJET Journal
This document describes a patient health monitoring system using sensors, a Raspberry Pi, and cloud technology. The system measures a patient's vital signs like temperature, heart rate, and blood pressure using sensors. The sensor data is sent to a Raspberry Pi, which then uploads it to the cloud. Doctors and caregivers can access the patient's health data from the cloud to remotely monitor their status. If any readings go outside normal levels, alerts will be sent. The system aims to help patients monitor their health and ensure they take their medications on schedule.
Implementation Of Real Time IoT Based Health monitoring systemkchakrireddy
The main aim of this project is to interconnect the available medical resources and offer smart, reliable, and effective healthcare service to elderly people. Health monitoring for active and assisted living is one of the paradigms that can use the IOT advantages to improve the elderly lifestyle in this project we present an IOT architecture customized for healthcare applications. The proposed architecture collects the data and relays it to the cloud where it is processed and analyzed. Feedback actions based on the analyzed data can be sent back to the user.
IRJET- Patient Healthcare System using IoTIRJET Journal
This document proposes a patient healthcare system using IoT technology. The system would monitor patient health parameters like heartbeat, temperature, and blood pressure using sensors. The sensor data would be sent to the cloud and then to a remote doctor's location. It describes using an Arduino board connected to sensors to collect data, an ESP interface to transfer data to the cloud, and ThinkSpeak cloud platform for data analytics and monitoring. The system aims to remotely monitor patient health in real-time to improve healthcare access.
IRJET- Arduino Based Baby Incubator using GSM TechnologyIRJET Journal
This document describes a baby incubator system that uses an Arduino microcontroller to monitor temperature, humidity, and light conditions inside the incubator. Sensors measure these conditions and the Arduino controls fans, heaters and lights to maintain stable conditions for preterm babies. If conditions go outside safe ranges, the system sends an alert SMS using a GSM module to notify parents and medical staff. The goal is to create an environment similar to the womb to help preterm infants survive and allow remote monitoring of incubator conditions for caregivers.
Smart Water Monitoring System using Cloud Serviceijtsrd
This document describes a smart water monitoring system using cloud services and IoT technology. The system uses sensors to remotely monitor water flow and usage across nodes. If any abnormalities are detected, such as waste or excess usage, the sensor network can automatically cut water supply to that area. All the sensor data is uploaded to the cloud where it can be analyzed. This data allows authorities to better manage water resources, define policies, and calculate billing. The system aims to conserve water resources by efficiently monitoring usage from small villages to large urban areas using a flexible sensor network and cloud connectivity.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
IRJET- Health Monitoring system using IoTIRJET Journal
This document summarizes a research paper on a health monitoring system using IoT. The system measures body temperature and heart rate using sensors connected to an Arduino board. The Arduino transmits the sensor data wirelessly to a ThingSpeak platform using an ESP8266 WiFi module. This allows the sensor data to be stored, visualized, and accessed over time on the ThingSpeak server. The system aims to provide convenient remote health monitoring and storage of vital sign data over periods of time using IoT technology.
IRJET- Design and Implementation of IOT Based Health Monitoring System Using ...IRJET Journal
This document describes a health monitoring system using sensors and a Raspberry Pi device connected to the internet. The system monitors a patient's heart rate and body temperature using heartbeat and temperature sensors connected to the Raspberry Pi. The Raspberry Pi acts as a server, collecting sensor data and sending it over the internet to a web server. Doctors and others can then monitor the patient's vital signs from anywhere using devices connected to the internet like smartphones and laptops. The system provides low-cost remote patient monitoring without expensive medical facilities.
IRJET- Implementation of Cloud based Health Care Monitoring System using IoTIRJET Journal
This document describes a cloud-based health monitoring system using IoT. Sensors collect patients' body parameters like temperature, motion, eye blink, and moisture, and transfer the data to a PIC microcontroller, which then sends it to a cloud server via an Arduino, WiFi module, and ThinkSpeak application. This allows doctors to remotely monitor and track patient medical information in real-time. The proposed system aims to enable early detection of health issues for improved patient care.
Healthcare IoT and Analytics to treat Parkinsonsrcnossen
Rick Cnossen from Intel discussed transforming healthcare with the Internet of Things (IoT). IoT can help drive outcomes-based payment, wellness programs, reduce costs of chronic care, and help with clinical trials. Intel's vision is to connect computing technology to people worldwide. Wearable devices can help manage Parkinson's disease by continuously tracking symptoms, activity, sleep, and tremors to provide accurate reports between doctor visits. Big data analytics of information from many patients can provide insights to help research and pharmaceuticals. Challenges to address include the lack of objective measures between infrequent doctor visits and the high costs and small sizes of clinical trials.
IRJET - Detection of Sleep Apnea using Pressure SensorIRJET Journal
This document describes a study that developed a system to detect sleep apnea using a pressure sensor. Sleep apnea is a common sleep disorder where breathing is interrupted during sleep and affects about 13.7% of the Indian population. The system uses a piezoresistive pressure sensor placed on the palate to detect changes in tongue pressure during sleep. The sensor data is acquired, processed using signal processing techniques, and transmitted wirelessly using an Internet of Things approach. The system provides a portable way to efficiently monitor and detect sleep apnea. The researchers conclude the system could help diagnose more people with sleep apnea and provide treatment.
The document describes a proposed smart health care system for rural areas in India using IoT and machine learning. Sensors would be attached to patients' bodies to monitor vitals like heart rate, blood pressure, blood sugar, and temperature. The sensor data would be sent to a health care app via an Arduino and node MCU. The app would analyze the data using machine learning algorithms and alert doctors if any readings require attention. This system aims to improve medical care in rural India by remotely monitoring patients and reducing strain on local hospitals and doctors.
IRJET- Sudden Infant Death Syndrome Detection and Prevention using Grid Eye S...IRJET Journal
This document discusses a system to detect and prevent Sudden Infant Death Syndrome (SIDS) using a Grid Eye sensor. SIDS is a mysterious disease that causes unexpected death in infants, often due to prone sleeping position which reduces oxygen intake. The proposed system uses a Grid Eye sensor, which is an 8x8 pixel infrared array, to monitor the infant's temperature, position, and detect any positional changes. If any abnormalities are detected, an alert is sent to caretakers via a push notification application. The system aims to reduce SIDS deaths by continuously and remotely monitoring infants.
IRJET - An Efficient Approach for Monitoring the Patient’s Condition usin...IRJET Journal
This document describes a system that uses augmented reality and sensors to monitor patient conditions in a hospital. Sensors attached to patients measure body parameters like temperature, heartbeat, respiratory rate, blood pressure, and activity levels. A PIC microcontroller collects the sensor data and sends it wirelessly via ZigBee protocol to an augmented reality glass worn by doctors. This allows doctors to view real-time patient data directly through the glasses to monitor for any abnormal conditions and take appropriate action to treat patients. The system aims to enhance the operating environment for doctors and help them more efficiently access latest patient information and diagnostics.
Survey of a Symptoms Monitoring System for Covid-19vivatechijri
The Internet of Things (IOT) depicts the organization of actual items that are implanted with sensors, programming, and different advances for the point of interfacing and trading information with different gadgets and frameworks over the web . In this day and age, there are numerous IOT based, these IOT based gadgets and machines range from wearable like brilliant watches to RFID stock following chips. IOT associated gadgets convey by means of organizations or cloud-based stages associated with the snare of Things. Among the applications that Internet of Things (IOT) encouraged to the planet , Healthcare applications are generally imperative . There are numerous wellbeing checking gadgets accessible. These framework comprises two sensors that is Heartbeat and blood heat sensor and furthermore contains Arduino UNO. This versatile gadget will screen heartbeat and blood heat utilizing sensors. The framework utilizes Arduino board which is associated with heart beat sensor and temperature sensor. The framework will take contribution from the guts beat and blood heat sensors and can send the data to Arduino. The Arduino will send the information of two sensors to LCD alphanumeric presentation . This presentation will show the perusing of the heartbeat sensor and blood heat sensor in BPM (Beats Per Minute) and in Celsius or Fahrenheit.
IRJET- IoT based Patient Health Monitoring System using Raspberry Pi-3IRJET Journal
This document describes an IoT-based patient health monitoring system using a Raspberry Pi 3. The system monitors a patient's temperature, humidity, and pulse rate using sensors and sends the real-time information over the internet. It can alert doctors and caregivers if any of the vital signs are outside normal ranges to help address critical health situations quickly. The system uses a Raspberry Pi 3 microcontroller connected to a temperature and humidity sensor, pulse rate sensor, piezo buzzer, and HDMI display. It sends the sensor data to an Adafruit webpage via WiFi so the patient's health status can be monitored remotely from any internet-connected device.
The UK's Whole System Demonstrator trial from 2008 was the largest randomized controlled study of telehealth and telecare in the world, involving over 6,000 patients across 238 general practices in three sites. The trial found reductions of 45% in mortality rates, 20% in emergency admissions, 15% in A&E and elective visits, and 14% in bed days and costs. It was evaluated by several UK universities and institutions.
IOT based Patient Health Monitoring System using Raspberry pi 3IRJET Journal
This document describes an IOT-based patient health monitoring system using a Raspberry Pi 3. The system monitors a patient's temperature and heartbeat in real-time using sensors. The sensor data is sent to the Raspberry Pi 3 and displayed locally. It is also sent over the internet to a web server where doctors and caregivers can access it from anywhere. If vital signs go outside normal ranges, an alert is sent and a buzzer sounds to notify caregivers. This allows for continuous remote patient monitoring to improve health outcomes.
IRJET- Motion Based Message Conveyor for Physically Disabled PeopleIRJET Journal
The document describes a motion-based message conveyor system for physically disabled people. The system uses an accelerometer placed on a movable body part of a disabled person. When the person moves their body in a particular direction due to a problem, the accelerometer detects the motion and sends a message like "Some Problem" to a receiver using an Arduino, RF transmitter, and LCD display. The receiver then displays the message and activates a buzzer for help. The system also continuously monitors and displays the person's temperature using a temperature sensor. The goal is to help physically disabled people communicate problems and emergency needs to caretakers through simple motions.
The document proposes a low-cost, wireless remote health monitoring system using sensors to measure vital signs like temperature, heart rate, blood pressure, and lung capacity. The sensor data is sent to a monitoring system via wireless communication networks and the Internet of Things (IoT), allowing doctors to remotely monitor patients and reducing the need for frequent in-person visits. The proposed system aims to make healthcare more accessible and affordable for chronic disease patients.
IRJET - Smart Maternal Real Time Monitoring using IoT-TechniqueIRJET Journal
This document describes a smart maternal real-time monitoring system using IoT techniques. The system includes sensors placed on an abdomen belt to measure the fetal heart rate, temperature, movement, and indicators of labor pain like sweat and contractions. The measured parameters are sent to the cloud for storage and analysis. An alert message will be sent via GSM if any parameters exceed thresholds. The system aims to improve prenatal care and reduce maternal mortality rates by enabling real-time remote monitoring of high-risk pregnancies.
Gesture Gloves - For Speechless patientsNeha Udeshi
Patients with speech disorders often find it difficult to communicate their needs to the general audience. These patients include the mute, senior citizens, paralyzed, and patients with diseases such as dysarthria, aphasia, to name a few. To satisfy their requirements, the Gesture Gloves have been designed. These gloves ease the communication, without much ado, by engendering predefined gestures to voice. The input is in the form of hand gestures which are converted to text and speech. The gloves are equipped with multiple flex sensors that produce varying resistance for every gesture made by the person.
IRJET- An Efficient Health Care System for Human Anatomy using IoTIRJET Journal
This document presents a proposed system for an efficient healthcare system using IoT (Internet of Things) technology. The system would allow for continuous remote monitoring of patients' health conditions through sensors that collect data like temperature, pulse, and alcohol levels. The sensor data would be sent to the cloud and shared with doctors and family members. If an emergency is detected based on the health data, an alert would be sent via GSM to notify the doctor. The doctor could then send any prescriptions through the cloud system to the patient. The goal is to provide better healthcare access for patients by allowing remote health monitoring and emergency detection/response through an IoT-based system.
Eating Habit and Health Monitoring System using Android Based Machine LearningIRJET Journal
This document describes a proposed system called the Eating Habit and Health Monitoring System Using Android Based Machine Learning. The system uses a wearable device with a vibration sensor that is worn around the neck to collect acoustic signals during eating. The signals are processed by an embedded hardware prototype and sent via Bluetooth to a smartphone. The smartphone application analyzes the signals using hidden Markov models to detect chewing and swallowing events and recognize food types. It provides notifications to the user about their food intake and suggests healthier habits based on their calorie consumption goals. The overall goal is to develop an easy-to-use, non-invasive solution for continuously monitoring daily food intake using machine learning techniques.
A Healthcare Monitoring System Using Wifi ModuleIRJET Journal
This document presents a healthcare monitoring system using WiFi modules. The system uses sensors like a temperature sensor and heart rate sensor connected to an Arduino microcontroller to monitor patients' vital signs. The sensor data is sent wirelessly to a monitoring center using a WiFi module. Doctors can access the continuously recorded medical data to diagnose patients remotely. The system aims to provide constant monitoring without confining patients to beds and reduce human errors in manual data logging. It allows for broader use among patients, medical professionals and in rural areas with limited access to healthcare.
Android Based Patient Health Monitoring SystemIRJET Journal
1) This document describes an Android-based patient health monitoring system that uses wearable sensors and a mobile application.
2) The system includes sensors that measure a patient's temperature, pulse, blood pressure, and humidity. The sensor data is sent via Bluetooth to an Android application on the patient's phone and from there to a server via WiFi.
3) The system allows doctors to monitor a patient's vital signs in real-time from their desktop. It also tracks the patient's location using latitude and longitude. An alert is triggered if the vital signs exceed preset thresholds.
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
SMART PRENATAL HEALTH CARE MONITORING SYSTEM FOR PREGNANCY WOMEN IN RURAL ARE...IRJET Journal
The document describes a smart prenatal health care monitoring system for rural pregnant women using IoT. It aims to address the lack of access to medical care in rural areas. The system uses sensors to measure the fetal heartbeat, kicks and the mother's blood pressure, temperature. These parameters are transmitted via IoT and displayed on a mobile phone. The system is lightweight and sensitive. It is intended to help reduce maternal and infant mortality rates in rural areas by enabling remote health monitoring.
Infant Care Assistant with Emotion Detection-Using Machine Learning, Image Pr...IRJET Journal
This document describes an infant care assistant device that uses sensors, machine learning, and IoT technology to monitor infants and help soothe them. The device collects data on temperature, humidity, noise levels, and moisture using sensors connected to a microcontroller. It can automatically rock a baby cradle and turn on a fan based on the sensor readings. It also includes a Raspberry Pi with camera for real-time emotion detection using machine learning to analyze the infant's face. The system aims to help busy parents remotely monitor and care for their children.
This document proposes a mobile ICU system using an Android device that allows for continuous remote patient monitoring and treatment. The system measures various vital signs like heart rate, body temperature, ECG, blood glucose levels, and more using sensors. The data is sent to a doctor's Android device, allowing them to remotely monitor and treat patients from home or during disasters when medical resources are limited. The system aims to ease the workload of hospitals and allow patients to be monitored even after discharge to prevent reinfection.
IOT Based Anesthesia Parameters Monitoring with Doctor Decision Assistance us...IRJET Journal
The document proposes an IOT-based system using sensors and a Raspberry Pi to monitor anesthesia parameters during surgery, transmitting data to ThingSpeak cloud and providing a predictive risk analysis and alerts to medical staff. It aims to help anesthesia doctors by collecting data on temperature, heart rate, oxygen levels and other vital signs, applying machine learning to predict risks, and sending alerts if readings exceed thresholds. Key challenges addressed developing such a system for real-time use across multiple patients and devices while maintaining data privacy in the medical domain.
IOT Based Patient Health Monitoring System Using WIFIijtsrd
Health is given the extreme importance now a days by each country with the advent of the novel corona virus. So in this aspect, an IOT based patient health monitoring system is the best solution for such an epidemic. With an 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. As a result, this project is an attempt to solve a health care problem currently society is facing covid 19.The main objective of the project was to design for to reduce the corona virus, reduce the components and man power. The framework can be utilized to constantly screen the wellbeing parameters of a patient. The body temperature, heart rate and spo2 can be measured from anyplace on the globe utilizing IOT Internet of Things . IOT monitoring of health helps in preventing the spread of disease as well as to get a proper diagnosis of the state of health, even if the doctor is at far distance. We proposed a nonstop checking and control instrument to screen the patient condition and store the patient information’s in server utilizing Wi Fi Module based remote correspondence. Hence the proposed architecture collects the sensor data through ESP32 microcontroller and relays it to the WIFI where it is processed and analyzed for remote viewing. Feedback actions based on the analyzed data can be sent back to the doctor or guardian through Google sheet and or SMS alerts in case of any emergencies. Marupuri Usha Priya | Muthu Pandi K | Priya S | Dr. Kishore Kumar Arjunsingh "IOT Based Patient Health Monitoring System Using WIFI" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-5 | Issue-5 , August 2021, URL: https://www.ijtsrd.com/papers/ijtsrd45143.pdf Paper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/45143/iot-based-patient-health-monitoring-system-using-wifi/marupuri-usha-priya
Mediminder: IoT Based Smart Medicine BoxIRJET Journal
This document describes a smart medicine box called Mediminder that uses IoT technology to help patients take medications on time. It has multiple compartments with color LED lights above to indicate which medication to take when an alarm sounds. Timing for medication intake can be set through a website. The box is airtight to keep medicines fresh. It uses a WiFi module, LCD display, buzzer, and other hardware integrated through a PCB. Literature on similar smart pill boxes is also reviewed, covering reminders, temperature control, and monitoring through mobile apps. The proposed system will allow medication schedules to be set remotely and remind patients through lights and sounds based on the set times.
Elderly care is one of the many applications
supported by real-time activity recognition systems. We have
slightly modified the project based on suggestions of the previous
examiner and replaced the RFID Card with NFC.Studies show
that aged persons experience steady decline in cognitive, visual
and physical functions caused by different age-related diseases.
New applications are under active development to provide daily
support for elderlies with different types and degrees of
impairments.
Sensors Wield to Detect the Behavior of HumansIRJET Journal
The document describes a device that uses sensors to detect human behavior by measuring heart rate, breathing rate, and body temperature. The device has three sensors - one to measure heart rate and two to measure body temperature and breathing rate. The sensors send data to a central computing unit which transmits the data to a smartphone via GSM module. The device aims to continuously monitor patients and alert doctors if measurements exceed thresholds. Experiments test the device on subjects in hospitals and normal populations.
This document describes an IoT-based patient health monitoring system using Node MCU-ESP8266. The proposed system uses sensors to monitor vital signs like temperature, heart rate, and oxygen levels and sends this data to a server via Node MCU. If any parameter goes outside normal ranges, an alert is sent to doctors. This allows remote monitoring of patients and faster emergency response. The system aims to reduce healthcare costs by enabling continuous monitoring without needing as many in-person doctor visits.
IRJET- IoT based Hypoxia Detection SystemIRJET Journal
This document presents a wireless system for remotely monitoring a patient's blood oxygen saturation levels and pulse rate using IoT. Sensors including a pulse oximeter, temperature sensor, and IR sensor are used to monitor a patient's vital signs. The data is transmitted wirelessly via Bluetooth to a smartphone and to the cloud. If the oxygen level or other readings fall outside normal ranges, an alert is sent. The system was tested on real patients and performed satisfactorily in continuously transmitting health data and sending alerts during emergencies to help provide timely medical care from remote locations.
IRJET- Medicine Box which Serves Patient using IoTIRJET Journal
The document proposes a medicine box connected to sensors and the internet to help patients take their medication properly and communicate their health status to doctors. The medicine box uses sensors to monitor vital signs and alerts patients through their phone if they forget to take medication. It also sends emergency messages to guardians if abnormal vital signs are detected. The system is intended to improve medication adherence for chronic disease patients and allow for 24/7 monitoring between doctors and patients through an Android app.
This document discusses mobile phone sensing for affordable healthcare and wellness solutions. It outlines the status of research being conducted using sensors in mobile phones to measure physiological parameters like heart rate, blood pressure, activity levels, and lung function. Algorithms are presented for extracting these parameters from the phone's camera, microphone, accelerometer and other sensors. Initial results from trials of these algorithms are encouraging. The document argues that mobile phone based remote healthcare monitoring can improve access to healthcare in India by reducing costs and expanding reach, especially in rural areas.
Utilizing communication techniques in IoT-based healthcare monitoring systems...ssuser7256f7
This document reviews communication techniques used in IoT-based healthcare monitoring systems. It discusses technologies like Wi-Fi, Bluetooth, Zigbee and LoRaWAN that have been used in various healthcare monitoring applications. The key findings are:
1) Wi-Fi, Bluetooth and Zigbee have shorter ranges limited to indoor use, while LoRaWAN enables long-range communication for both indoor and outdoor monitoring.
2) Many systems integrate short-range technologies like Bluetooth with LoRaWAN to obtain longer communication ranges.
3) While Arduino Uno is commonly used, it has limitations like higher power consumption and need for external boards. ESP32 is presented as an alternative with integrated Wi
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Automatic Cradle System with Measurement of Baby’s Vital Biological Parameters
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Automatic Cradle System with Measurement of
Baby’s Vital Biological Parameters
Vijayamahantesh Hiremath1
, Dr. P Venkataratnam2
VTU Extension Centre, UTL Technologies Ltd Bengaluru
ABSTRACT
There is a need to develop a new low cost
indigenous electronic cradle because the
existing cradles are imported and costly.
This paper presents the design and
implementation of a new indigenous low
cost E-Baby Cradle that swings
automatically when baby cries, for this it
has a cry analysing system which detects
the baby cry voice and accordingly the
cradle swings till the baby stops crying.
The speed of the cradle can be controlled
as per the user need. The system has
inbuilt alarm that indicates the condition –
when baby does not stop crying with in a
stipulated time, which intimated that baby
needs attention. This system helps parents
and nurses to take care of babies without
physical attention by already recorded
voice input to FN-M16P model and at this
same time Cradle also moves according to
the user need.
1. INTRODUCTION
To describe and validate a non-contacting
sensor that used reflected ultrasound to
separately monitor respiratory, on-
respiratory, and caretaker movements of
infants. Anin-phase and quadrature (I &
Q) detection scheme provided adequate
bandwidth, in conjunction with post
detection filtering, to separate the three
types of movement.
The respiratory output was validated
by comparing it to the electrical
activity of the diaphragm(Edi) obtained
from an infant ventilator.
The non-respiratory movement output
was compared to movement detected
by miniature accelerometers attached
to the wrists, ankles, and heads of
infant.
Caretaker movement was compared to
Audio observations annotated in the
recordings.
The respiratory rate determined by the
sensor was equivalent to that from the Edi
signal. The sensor could detect the
increase and decrease movement of chest
of infant while breathing. Non-respiratory
movement was identified with an
agreement of 0.9with the accelerometers.
It potentially interfered with the
respiratory output an average of
4.7+/−4.5% and 14.9+/15% of the time in
infant not requiring or on ventilator
support, respectively. Caretaker
movements were identified with 98%
sensitivity and specificity. The sensor
outputs were independent of body
coverings or position.
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This single, non-contacting sensor can
independently quantify these three types of
movement.
Fig1: diagram for infant and sensor.
2. BLOCK DIAGRAM &
DESCRIPTION
Parents in the present world are busy in their
professional life, so they do not get sufficient
time to take care of their babies. It may be
expensive for the household to afford a
nanny. Today’s woman has to manage home
along with their office work simultaneously.
After long working hours, they have to take
care of the home along with the baby. They
may not get enough time to swing the cradle
manually and sooth the baby.
Also Hospitals have neonatal and
maternity units. Nurses in these units have
to take care of many babies.
Working:The system is microcontroller
based that is being designed is aimed to
help parents and nurses in infants care.
Features being:
1. Cradle starts swinging
automatically when baby cry and
swings till the baby stops crying
and at the same time recorded
voice ( jogula or laalihaadu or
voice of mother to console the
infant) will play through the FN-
M16P model. A sound detector is
interfaced to the controller which
senses sound when baby cries and
activates the controller with its
digital output.
2. Selection of different voices from
Free Android app if baby cries for
more than a stipulated time
indicating that baby needs
attention.
3. Single motor are interfaced via a
DC motor driver to the controller.
That motor is to swing the cradle
when baby cries.
4. Bluetooth interface Receives alert
from android app based handsets to
change the voice of parents/nurses.
An ALCD is interfaced to the
controller which keeps displaying
the status as messages.
5. Ultrasonic Sensor – interfaced to a
microcontroller – as Respiratory
Sensor the respiratory rate
determined by the sensor was
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equivalent to that from the Edi
signal. The sensor could detect the
increase and decrease movement of
chest of infant while breathing.
6. Non-respiratory movement was
identified with the accelerometers.
Software:R5F102AA microcontrollers
from Renesas is used to implement this
project. Microcontroller acts as the
heart of this project, which controls the
whole system. It contains of Flash
ROM 16KB, RAM 2KB and Data
Flash 2KB, and it has High speed on
chip oscillator, Self-reprogrammable
under software control, 23 GPIO’s, 3
UART’s, Simplified I2C, 10 bit
resolution ADC, 28 Interrupt Sources,
ISP programming support etc.
3. SOFTWARES & HARDWARE
USED.
Software:
1. Embedded C
2. Cube Suits++ Compiler
3. Renesas Flash Programmer V2
R5F100LEA microcontroller from
Renesas RL78 series which is a 16-bit
microcontroller is used to implement this
project. Microcontroller acts as the heart of
this project, which controls the whole
system. It contains of Flash ROM 64KB,
RAM 4KB and Data Flash 4KB, and it has
High speed on-chip oscillator, Self-
reprogrammable under software control,
58 GPIO’s, 3 UART’s, Simplified I2C, 10
bit resolution ADC, 28 Interrupt Sources,
ISP programming support etc.
Hardware:
1. Mobile
2. Bluetooth/Wi-Fi
3. RL78 series 16-bit Microcontroller
4. LM95 – Temperature sensor
5. Sound sensor
6. L293 DC Motor driver
7. DC Motors
8. OrCAD tools for Schematic and
PCB
4. LITERATURE SURVEY
The most common methods for measuring
respiratory activity involve contacting
systems, such as impedance
plethysmography or an attachment of a
sensor of flow to the airway. Non-
contacting methods are useful when no
contact is desired or possible. These
include the use of pressure mattresses,
radar, infrared imaging of warm expired
gas, ultrasound methods of detecting
airflow at the face, or reflected ultrasound
from the underside of a mattress.
Non-contacting sensors are
especially useful for sleep apnea detection,
and have been used in infants for
synchronization of a mechanical ventilator
with spontaneous breathing efforts even
when a patient has an artificial airway or
must wear nasal prongs with largeleaks in
the airway-infant interface.
Description of the Sensor, Circuitry,
and Algorithm
The ultrasonic sensor head consisted of a
transmitter and a receiver placed 15–50 cm
above the infant, approximatelycentred
over the torso of the infant, mounted either
on the ceiling of the isolate with silicone
suction cupsor on a bracket attached to an
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open crib or radiant warmer bed. The
sensor could be moved several centimetres
toward the head or the toes without a
change in function. The infant was nursed
in the usual coverings or bundled in
blankets. The sensor head was attached to
an electronics unit by shielded cables, and
data were acquired with a laptop computer.
Respiratory effort: We compared the
sensor respiratory output, to the electrical
activity of the diaphragm, or Edi, as
determined by a commercially available
mechanical ventilator(Servo-i, Maquet
Corporation, Solna, Sweden) as an
independent reference for respiratory
effort.
Non-respiratory Movement:
We compared the sensor movement output
of the algorithm to non-respiratory
movements as detected by an independent
system of miniature accelerometers.
The summed signal from each of
the five accelerometers attached to the four
limbs and head were then summed, so that
a single signal represented any non-
respiratory movement in any of the
accelerometers.
TOOLS:
Embedded C
• The basic code development done
in Embedded C programming
environment. Components used in
embedded system typically uses
smaller, less power consuming
components. Embedded systems
are more tied to the hardware.
Cube suit++ IDE
• Integrated Development
Environment (IDE) CubeSuite
offers the ultimate in simplicity,
usability, and security for the
repetitive editing, building and
debugging of codes. Easy to Install
and operate. CubeSuite offers a
highly user-friendly development
environment featuring significantly
shorter build times.
Renesas Flash Programmer V
• Helps to download hex code to
microcontroller R5F100LE
Movement of the Caretaker:
Today’s woman has to manage
home along with their office work
simultaneously. After long working hours,
they have to take care of the home along
with the baby. They may not get enough
time to swing the cradle manually and
sooth the baby when the infant start crying
if mother is working in kitchen, the mother
can console that infant by giving input
signal from android app by voice input or
selection procedure of different recorded
voices. Also Hospitals have neonatal and
maternity units. Nurses in these units have
to take care of many babies.
5. METHODOLOGY:
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Architectural schematic
• Sound Detector interface to MCU
• Single Motor interface via DC
Motor driver to MCU
• GSM Interface Rx alert from
Android app Mobile to MCU
• LCD interface with MCU
• Ultrasonic Sensor interface with
MCU
• Accelerometer sensor interface
with MCU
• Designed and developed overall
schematic diagram as per
specifications
6. ADVANTAGES
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It saves time.
Manual operation has been reduced
to major extent.
Less man power required.
Efficient distribution system.
Easy to use.
Efficient and reliable.
My main motive is to eliminate the
paper based records using smart
phone.
24/7 security and peace of mind for
mothers and staff.
Prevents kidnap in hospitals.
All time protection even if the baby
moves around without being
noticed by elders, since if it goes
near any electric items the sensors
help in sending alarms.
CONCLUSION
The project is designed using structured
modelling and is able to provide the
desired results. It can be successfully
implemented as a Real Time system with
certain modifications. Science is
discovering or creating major
breakthrough in various fields, and hence
technology keeps changing from time to
time. Going further, most of the units can
be fabricated on a single along with
microcontroller thus making the system
compact thereby making the existing
system more effective. To make the
system applicable for real time purposes
components with greater range needs to be
implemented. We have described and
validated a single, ultrasonic sensor for
respiratory, accelerometer sensor for non-
respiratory, and caretaker movement in
infants in an intensive care setting by using
FN-M16P. The cry detector sensor could
detect crying of the infant. The non-
respiratory movement output had an
agreement of 0.9 with an independent
measure of movement by accelerometers.
The detection of caretaker movement had a
sensitivity and specificity of 0.98
compared to visual annotation of caretaker
movements during our recordings. The
separate outputs for the non-respiratory
and caretaker movements may be useful
for a number ofother applications for the
clinical assessment of infants and their
care.
The sensor described was used in
infants for this validation. With
modifications in the design of the sensor
head and postdetectionfiltering, it could be
used in older children and adults.
The sensor, as part of a synchronizer for
adult and paediatric ventilators, could
promote the present trend to use non-
invasive ventilation as an alternative to
invasive ventilation.
Cube Suits++ Compiler
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Renesas Flash Programmer V2
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[4] Gim Wong, “Automatic baby crib
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