QPRD: QoS-Aware Peering Routing Protocol for Delay-Sensitive Data in Hospital Body Area Network

QPRD: QoS-Aware Peering Routing Protocol for Delay-Sensitive Data in Hospital Body Area Network

Consistent performance, energy efficiency, and reliable transfer of data are critical factors for real-time monitoring of a patient’s data, especially in a hospital environment. In this paper, a routing protocol is proposed by considering the QoS requirements of the Body Area Network (BAN) data pack...

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Main Authors: Zahoor A. Khan, Shyamala Sivakumar, William Phillips, Bill Robertson, Nadeem Javaid
Format: Article
Language:English
Published: Hindawi Limited 2015-01-01
Series:Mobile Information Systems
Online Access:http://dx.doi.org/10.1155/2015/153232
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spelling doaj-9a9f70e66bfd4e5a8c133fc93b1014732021-07-02T08:41:25ZengHindawi LimitedMobile Information Systems1574-017X1875-905X2015-01-01201510.1155/2015/153232153232QPRD: QoS-Aware Peering Routing Protocol for Delay-Sensitive Data in Hospital Body Area NetworkZahoor A. Khan0Shyamala Sivakumar1William Phillips2Bill Robertson3Nadeem Javaid4CIS, Higher Colleges of Technology, Fujairah Campus, P.O. Box 4114, Fujairah, UAESaint Mary’s University, Halifax, NS, B3H 3C3, CanadaInternetworking Program, FE, Dalhousie University, Halifax, NS, B3H 4R2, CanadaInternetworking Program, FE, Dalhousie University, Halifax, NS, B3H 4R2, CanadaCOMSATS Institute of Information Technology, Islamabad 44000, PakistanConsistent performance, energy efficiency, and reliable transfer of data are critical factors for real-time monitoring of a patient’s data, especially in a hospital environment. In this paper, a routing protocol is proposed by considering the QoS requirements of the Body Area Network (BAN) data packets. A mechanism for handling delay-sensitive packets is provided by this protocol. Moreover, linear programming based modeling along with graphical analysis is also done. Extensive simulations using the OMNeT++ based simulator Castalia 3.2 illustrate that the proposed algorithm provides better performance than other QoS-aware routing protocols in terms of higher successful transmission rates (throughputs), lower overall network traffic, no packets dropped due to MAC buffer overflow, and fewer numbers of packet time outs in both the mobile and static patient scenarios. The scalability of the protocol is demonstrated by simulating a 24-bed real hospital environment with 49 nodes. It is shown that, even in the larger real hospital scenario requiring the transmission of delay-sensitive data packets with stringent delay requirements, QPRD outperforms comparable protocols.http://dx.doi.org/10.1155/2015/153232
collection DOAJ
language English
format Article
sources DOAJ
author Zahoor A. Khan
Shyamala Sivakumar
William Phillips
Bill Robertson
Nadeem Javaid
spellingShingle Zahoor A. Khan
Shyamala Sivakumar
William Phillips
Bill Robertson
Nadeem Javaid
QPRD: QoS-Aware Peering Routing Protocol for Delay-Sensitive Data in Hospital Body Area Network
Mobile Information Systems
author_facet Zahoor A. Khan
Shyamala Sivakumar
William Phillips
Bill Robertson
Nadeem Javaid
author_sort Zahoor A. Khan
title QPRD: QoS-Aware Peering Routing Protocol for Delay-Sensitive Data in Hospital Body Area Network
title_short QPRD: QoS-Aware Peering Routing Protocol for Delay-Sensitive Data in Hospital Body Area Network
title_full QPRD: QoS-Aware Peering Routing Protocol for Delay-Sensitive Data in Hospital Body Area Network
title_fullStr QPRD: QoS-Aware Peering Routing Protocol for Delay-Sensitive Data in Hospital Body Area Network
title_full_unstemmed QPRD: QoS-Aware Peering Routing Protocol for Delay-Sensitive Data in Hospital Body Area Network
title_sort qprd: qos-aware peering routing protocol for delay-sensitive data in hospital body area network
publisher Hindawi Limited
series Mobile Information Systems
issn 1574-017X
1875-905X
publishDate 2015-01-01
description Consistent performance, energy efficiency, and reliable transfer of data are critical factors for real-time monitoring of a patient’s data, especially in a hospital environment. In this paper, a routing protocol is proposed by considering the QoS requirements of the Body Area Network (BAN) data packets. A mechanism for handling delay-sensitive packets is provided by this protocol. Moreover, linear programming based modeling along with graphical analysis is also done. Extensive simulations using the OMNeT++ based simulator Castalia 3.2 illustrate that the proposed algorithm provides better performance than other QoS-aware routing protocols in terms of higher successful transmission rates (throughputs), lower overall network traffic, no packets dropped due to MAC buffer overflow, and fewer numbers of packet time outs in both the mobile and static patient scenarios. The scalability of the protocol is demonstrated by simulating a 24-bed real hospital environment with 49 nodes. It is shown that, even in the larger real hospital scenario requiring the transmission of delay-sensitive data packets with stringent delay requirements, QPRD outperforms comparable protocols.
url http://dx.doi.org/10.1155/2015/153232
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