A Working Prototype Using DS18B20 Temperature Sensor and Arduino for Health Monitoring

Due to the successful emergence of internet of things, sensor-based real-time health monitoring is getting popularized. A usable health-monitoring system is required for prolonged monitoring of the patient with reduced cost. This paper describes a working prototype system for real-time health-monito...

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Vydáno v:SN computer science Ročník 2; číslo 1; s. 33
Hlavní autoři: Ramesh Saha, Biswas, Suparna, Sarmah, Satyajit, Karmakar, Sushanta, Das, Pranesh
Médium: Journal Article
Jazyk:angličtina
Vydáno: Singapore Springer Singapore 01.02.2021
Springer Nature B.V
Témata:
Body temperature
Caregivers
Computer Imaging
Computer Science
Computer Systems Organization and Communication Networks
Data acquisition
Data Structures and Information Theory
Electrocardiography
Emergency communications systems
Health care networks
Heart rate
Human mechanics
Information Systems and Communication Service
Internet of Things
Monitoring systems
Older people
Original Research
Patients
Pattern Recognition and Graphics
Personal computers
Physiology
Prototypes
Real time
Sensors
Signal processing
Smartphones
Software
Software Engineering/Programming and Operating Systems
Surveillance
Temperature sensors
Vision
Wireless communications
Health monitoring
Mobility
Temperature sensor
Prototype
Arduino
Zigbee
ISSN:2662-995X, 2661-8907, 2661-8907
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Popis
Shrnutí:Due to the successful emergence of internet of things, sensor-based real-time health monitoring is getting popularized. A usable health-monitoring system is required for prolonged monitoring of the patient with reduced cost. This paper describes a working prototype system for real-time health-monitoring system using DS18B20 temperature sensor, Arduino Nano with micro-controller ATmega328 where Zigbee module is used for wireless communication. In this prototype sensor data gets acquired and analyzed to give proper feedback to the patient with or without mobility support at indoor. The sensor vitals are collected and sent to the computing device using shielded cable and ZigBee, i.e., through wired and wireless communication, respectively. Analysis of patient vitals based on medical definitions gives patient’s real-time health condition so that if condition is not normal, then timely preventive measures can be taken to avoid further complication. Per user data can be saved in the system database for further reference.
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ISSN:2662-995X
2661-8907
2661-8907
DOI:10.1007/s42979-020-00434-2