The Wireless Body Area Sensor Networks and Routing Strategies: Nomenclature and Review of Literature

The Wireless Body Area Sensor Networks and Routing Strategies: Nomenclature and Review of Literature

V.T. Venkateswarlu

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Dr. P. V. Naganjaneyulu

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Dr. D.N.Rao

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Jawaharlal Nehru Technological University, Kakinada

The Wireless Body Area Sensor Networks and Routing Strategies: Nomenclature and Review of Literature

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Abstract

WBASN devices and the other significant condition like the coexistence of the systems among varied other wireless networks that are constituted in the proximity. In this study, scores of models that has been proposed pertaining to is an effective solution that has been proposed in terms of improving the solutions and there are varied benefits that have been achieved from the usage of WBASN solutions in communication, healthcare domain. From the review of stats on rising number of wireless devices and solutions that are coming up which is embraced by the people as wearable devices, implants for medical diagnostic solutions, etc. reflect upon the growing demand for effective models.

References

73 Cites in Article

Reference Format

(2006). IEEE Standard for Information technology-- Local and metropolitan area networks-- Specific requirements-- Part 15.4: Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Low Rate Wireless Personal Area Networks (WPANs).
(2012). IEEE Standard for Local and metropolitan area networks - Part 15.6: Wireless Body Area Networks.
(2010). Specification of the Bluetooth System version 4.0. Bluetooth SIG.
M Chen,S Gonzalez,A Vasilakos,H Cao,V Leung (2011). Body area networks: A survey.
C Otto,A Milenkovic,C Sanders,E Jovanov (2006). System architecture of a wireless body area sensor network for ubiquitous health monitoring.
S Ullah,B Shen,S Riazul Islam,P Khan,S Saleem,K Sup Kwak (2009). A study of MAC protocols for WBANs.
H Kwon,S Lee (2009). Energyefficient multi-hop transmission in body area networks.
B Latré,B Braem,I Moerman,C Blondia,P Demeester (2011). A survey on wireless body area networks.
M Hanson,H Powell,A Barth,K Ringgenberg,B Calhoun,J Aylor,J Lach (2009). Body area sensor networks: Challenges and opportunities.
Song Wang,Jong-Tae Park (2010). Modeling and analysis of multi-type failures in wireless body area networks with semi-Markov model.
J Xing,Y Zhu (2009). A survey on body area network.
K Yazdandoost,K Sayrafian-Pour (2009). Channel model for body area network (BAN).
(2007). Holt, Prof. David, (Tim), (29 Oct. 1943–15 Nov. 2022), President, Royal Statistical Society, 2005–07 (Vice-President, 2003–04); Chair, UK Data Forum, 2012–17.
(2010). IEEE Draft Standard for Local and metropolitan area networks--Virtual Bridged Local Area Networks--Bridge Port Extension.
D Lewis (2010). IEEE P802. 15.6 D04 Draft Trial-Use Standard for Body Area Network.
(2011). IEEE Standard 802.15.4.
B Zhen,M Patel,S Lee,E Won,A Astrin (2008). Tg6 technical requirements document.
Andrew Zhang,David Smith,Dino Miniutti,Leif Hanlen,David Rodda,Ben Gilbert (2010). Performance of Piconet Co-Existence Schemes in Wireless Body Area Networks.
L Hanlen,D Miniutti,D Smith,D Rodda,B Gilbert (2010). Cochannel interference in body area networks with indoor measurements at 2.4 GHz: Distance-to-interferer is a poor estimate of received interference power.
T Zasowski,F Althaus,M Stager,A Wittneben,G Troster (2003). UWB for noninvasive wireless body area networks: channel measurements and results.
C Tachtatzis,F Di Franco,D Tracey,N Timmons,J Morrison (2010). An energy analysis of IEEE 802.15. 6 scheduled access modes.
Rahul Shah,Mark Yarvis (2006). Characteristics of on-body 802.15.4 networks.
Marina Sukor,Sharifah Ariffin,Norsheila Fisal,S Yusof,Adel Abdallah (2008). Performance Study of Wireless Body Area Network in Medical Environment.
A Natarajan,M Motani,B De Silva,K Yap,K Chua (2007). Investigating network architectures for body sensor networks.
Kyung Kwak,Sana Ullah,Niamat Ullah (2010). An overview of IEEE 802.15.6 standard.
M Abolhasan,T Wysocki,E Dutkiewicz (2004). A review of routing protocols for mobile ad hoc networks.
K Akkaya,M Younis (2005). A survey on routing protocols for wireless sensor networks.
S Cheng,C Huang (2013). Coloringbased inter-WBAN scheduling for mobile wireless body area networks.
Sana Ullah,Henry Higgins,Bart Braem,Benoit Latre,Chris Blondia,Ingrid Moerman,Shahnaz Saleem,Ziaur Rahman,Kyung Kwak (2012). A Comprehensive Survey of Wireless Body Area Networks.
(2011). Wireless Body Area Networks.
Athanassios Boulis,David Smith,Dino Miniutti,Lavy Libman,Yuriy Tselishchev (2012). Challenges in body area networks for healthcare: the MAC.
K Akkaya,M Younis (2005). A survey on routing protocols for wireless sensor networks.
Mehran Abolhasan,Tadeusz Wysocki,Eryk Dutkiewicz (2004). A review of routing protocols for mobile ad hoc networks.
Sana Ullah,Henry Higgins,Bart Braem,Benoit Latre,Chris Blondia,Ingrid Moerman,Shahnaz Saleem,Ziaur Rahman,Kyung Kwak (2012). A Comprehensive Survey of Wireless Body Area Networks.
Benoît Latré,Bart Braem,Ingrid Moerman,Chris Blondia,Piet Demeester (2011). A survey on wireless body area networks.
Q Tang,N Tummala,S Gupta,L Schwiebert (2005). Communication scheduling to minimize thermal effects of implanted biosensor networks in homogeneous tissue.
A Bag,M Bassiouni (2007). Hotspot preventing routing algorithm for delay-sensitive biomedical sensor networks.
A Bag,M Bassiouni (2006). Energy efficient thermal aware routing algorithms for embedded biomedical sensor networks.
Samaneh Movassaghi,Mehran Abolhasan,Justin Lipman (2013). A Review of Routing Protocols in Wireless Body Area Networks.
T Watteyne,I Augé-Blum,M Dohler,D Barthel (2007). Anybody: a self-organization protocol for body area networks.
W Heinzelman,A Chandrakasan,H Balakrishnan (2000). Energy-efficient communication protocol for wireless microsensor networks.
M Moh,B Culpepper,Lan Dung,Teng-Sheng Moh,T Hamada,Ching-Fong Su (2005). On data gathering protocols for in-body biomedical sensor networks.
Benjamin Culpepper,Lan Dung,Melody Moh (2004). Design and analysis of Hybrid Indirect Transmissions (HIT) for data gathering in wireless micro sensor networks.
M Moh,B Culpepper,L Dung,T Moh,T Hamada,C Su (2005). On data gathering protocols for in-body biomedical sensor networks.
Samaneh Movassaghi,Mehran Abolhasan,Justin Lipman (2012). Energy efficient thermal and power aware (ETPA) routing in Body Area Networks.
Xiaohui Liang,Xu Li,Qinghua Shen,Rongxing Lu,Xiaodong Lin,Xuemin Shen,Weihua Zhuang (2012). Exploiting prediction to enable Secure and Reliable routing in Wireless Body Area Networks.
M Quwaider,S Biswas (2009). Probabilistic routing in on-body sensor networks with postural disconnections.
Muhannad Quwaider,Subir Biswas (2010). DTN routing in body sensor networks with dynamic postural partitioning.
B Braem,B Latre,I Moerman,C Blondia,P Demeester (2006). The wireless autonomous spanning tree protocol for multihop wireless body area networks.
Bart Braem,Benoît Latré,Chris Blondia,Ingrid Moerman,Piet Demeester (2008). Improving Reliability in Multi-hop Body Sensor Networks.
A Ruzzelli,R Jurdak,G O'hare,P Van Der Stok (2007). Energy-efficient multi-hop medical sensor networking.
A Bag,M Bassiouni (2009). Biocomm-A cross-layer medium access control (MAC) and routing protocol co-design for biomedical sensor networks.
D Djenouri,I Balasingham (2009). New QoS and geographical routing in wireless biomedical sensor networks.
W Ye,J Heidemann,D Estrin (2002). An energy-efficient MAC protocol for wireless sensor networks.
Tijs Van Dam,Koen Langendoen (2003). An adaptive energy-efficient MAC protocol for wireless sensor networks.
Joseph Polastre,Jason Hill,David Culler (2004). Versatile low power media access for wireless sensor networks.
Nabeel Khan,Charles Boncelet (2006). PMAC: Energy Efficient Medium Access Control Protocol for Wireless Sensor Networks.
G Lu,B Krishnamachari,C Raghavendra (2004). An adaptive energy-efficient and lowlatency MAC for data gathering in wireless sensor networks.
G Pei,C Chien (2001). Low power TDMA in large wireless sensor networks.
W Heinzelman,A Chandrakasan,H Balakrishnan (2002). An application-specific protocol architecture for wireless microsensor networks.
V Rajendran,J Garcia-Luna-Aceves,K Obraczka (2005). Energy-efficient, application-aware medium access for sensor networks.
O Younis,S Fahmy (2004). HEED: a hybrid, energy-efficient, distributed clustering approach for ad hoc sensor networks.
Huaming Li,Jindong Tan (2007). Heartbeat driven medium access control for body sensor networks.
L Changle,L Huan-Bang,R Kohno (2009). Reservation-based dynamic TDMA protocol for medical body area networks.
Begonya Otal,Luis Alonso,Christos Verikoukis (2009). Highly reliable energy-saving mac for wireless body sensor networks in healthcare systems.
Hang Su,Xi Zhang (2009). Battery-dynamics driven tdma mac protocols for wireless body-area monitoring networks in healthcare applications.
Changle Li,Lingling Wang,Jiandong Li,Bin Zhen,Huan-Bang Li,Ryuji Kohno (2009). Scalable and robust medium access control protocol in wireless body area networks.
C Li,J Li,B Zhen,H Li,R Kohno (2010). Hybrid unified-slot access protocol for wireless body area networks.
O Omeni,A Wong,A Burdett,C Toumazou (2008). Energy efficient medium access protocol for wireless medical body area sensor networks.
N Timmons,W Scanlon (2009). An adaptive energy efficient MAC protocol for the medical body area network.
Stevan Marinkovic,Emanuel Popovici,Christian Spagnol,Stephen Faul,William Marnane (2009). Energy-Efficient Low Duty Cycle MAC Protocol for Wireless Body Area Networks.
W Ye,F Silva,J Heidemann (2006). Ultra-low duty cycle MAC with scheduled channel polling.
Gengfa Fang,Eryk Dutkiewicz (2009). BodyMAC: Energy efficient TDMA-based MAC protocol for Wireless Body Area Networks.

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Funding

No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

Ethical Approval

No ethics committee approval was required for this article type.

Data Availability

Not applicable for this article.

How to Cite This Article

V.T. Venkateswarlu. 2017. \u201cThe Wireless Body Area Sensor Networks and Routing Strategies: Nomenclature and Review of Literature\u201d. Global Journal of Computer Science and Technology - E: Network, Web & Security GJCST-E Volume 16 (GJCST Volume 16 Issue E7): .

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GJCST Volume 16 Issue E7
Pg. 19- 30

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Journal Specifications

Crossref Journal DOI 10.17406/gjcst

Print ISSN 0975-4350

e-ISSN 0975-4172

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C.2.1, I.2.9

Submission ReceivedDecember 13, 2015
Peer Review Double Blind
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Accepted January 4, 2016
Published January 15, 2016

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January 24, 2017

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Article Matrices

Total Score: 113

Country: India

Subject: Global Journal of Computer Science and Technology - E: Network, Web & Security

Authors: V.T. Venkateswarlu, Dr. P. V. Naganjaneyulu, Dr. D.N.Rao (PhD/Dr. count: 2)

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