TY - GEN
T1 - Demo of the medical device dongle
T2 - 2nd Wireless Health Conference, WH'11
AU - Asare, Philip
AU - Cong, Danyang
AU - Vattam, Santosh G.
AU - Kim, Baek Gyu
AU - Sokolsky, Oleg
AU - Lee, Insup
AU - Lin, Shan
AU - Mullen-Fortino, Margaret
PY - 2011
Y1 - 2011
N2 - Emerging medical applications require networked coordination between medical devices. However, most of the medical devices in use today do not support wireless communication or network connectivity. Currently, hospitals interested in coordinated medical care would have replace existing devices with expensive new devices. We believe that existing medical devices can be extended to support interoperable network connectivity. We demonstrate the Medical Device Dongle (MDD), an open-source platform that enables such extensions to current medical devices. The MDD can attach to any device that has a data output interface (RS-232 or USB) and enables it to connect wirelessly and in an interoperable manner for various applications. We show how multiple medical devices, including pulse oximeters and infusion pumps, can be connected and controlled together using an open-source platform, standards-based connectivity protocols, and model-driven software. The demo setup consists of medical devices attached to an MDD Agent, an MDD Manager device, and a mobile phone running monitoring applications. The MDD components can communicate over Bluetooth, WiFi and Ethernet.
AB - Emerging medical applications require networked coordination between medical devices. However, most of the medical devices in use today do not support wireless communication or network connectivity. Currently, hospitals interested in coordinated medical care would have replace existing devices with expensive new devices. We believe that existing medical devices can be extended to support interoperable network connectivity. We demonstrate the Medical Device Dongle (MDD), an open-source platform that enables such extensions to current medical devices. The MDD can attach to any device that has a data output interface (RS-232 or USB) and enables it to connect wirelessly and in an interoperable manner for various applications. We show how multiple medical devices, including pulse oximeters and infusion pumps, can be connected and controlled together using an open-source platform, standards-based connectivity protocols, and model-driven software. The demo setup consists of medical devices attached to an MDD Agent, an MDD Manager device, and a mobile phone running monitoring applications. The MDD components can communicate over Bluetooth, WiFi and Ethernet.
KW - Design
UR - https://www.scopus.com/pages/publications/84862968851
U2 - 10.1145/2077546.2077565
DO - 10.1145/2077546.2077565
M3 - Conference contribution
AN - SCOPUS:84862968851
SN - 9781450309820
T3 - Proceedings - Wireless Health 2011, WH'11
BT - Proceedings - Wireless Health 2011, WH'11
Y2 - 10 October 2011 through 13 October 2011
ER -