2 research outputs found
A Non-invasive Wireless Monitoring Device for Children and Infants in Pre-hospital and Acute Hospital Environments
This paper describes the design and development
of a wireless monitoring system for use within a pediatric
environment. The current wired methods used to provide noninvasive
sensing are not best suited to their end user, and there is
a development need for platform independent data transmission.
The main goal has been to develop a practical and flexible
proof-of-concept prototype suitable for the transmission of sensor
data. This prototype consists of an Arduino based multi-input
sensor system with wireless transmission, and an Android
monitoring station with the facility to rebroadcast the collected
data via email/web as a data file. This was achieved using
commercially available hardware platforms. The software
produced for the Android device allows for full control of the
functionality provided by the sensor platform developed on the
Arduino system, as well as storing the data within a relational
database. The data can also be graphically represented in realtime
on the Android device
A Non-invasive Wireless Monitoring Device for Children and Infants in Pre-hospital and Acute Hospital Environments
This paper describes the design and development of a wireless monitoring system for use within a pediatric environment. The current wired methods used to provide noninvasive sensing are not best suited to their end user, and there is a development need for platform independent data transmission. The main goal has been to develop a practical and flexible proof-of-concept prototype suitable for the transmission of sensor data. This prototype consists of an Arduino based multi-input sensor system with wireless transmission, and an Android monitoring station with the facility to rebroadcast the collected data via email/web as a data file. This was achieved using commercially available hardware platforms. The software produced for the Android device allows for full control of the functionality provided by the sensor platform developed on the Arduino system, as well as storing the data within a relational database. The data can also be graphically represented in realtime on the Android device