Geographic routing in duty-cycled industrial wireless sensor networks with radio irregularity

Shu, Lei, Mukherjee, Mithun, Hu, Likun, Bergmann, Neil and Zhu, Chunsheng (2017) Geographic routing in duty-cycled industrial wireless sensor networks with radio irregularity. IEEE Access, 4 9043-9052. doi:10.1109/ACCESS.2016.2638441


Author Shu, Lei
Mukherjee, Mithun
Hu, Likun
Bergmann, Neil
Zhu, Chunsheng
Title Geographic routing in duty-cycled industrial wireless sensor networks with radio irregularity
Journal name IEEE Access   Check publisher's open access policy
ISSN 2169-3536
Publication date 2017-04-01
Year available 2016
Sub-type Article (original research)
DOI 10.1109/ACCESS.2016.2638441
Open Access Status DOI
Volume 4
Start page 9043
End page 9052
Total pages 10
Place of publication Piscataway, NJ, United States
Publisher Institute of Electrical and Electronics Engineers
Collection year 2018
Language eng
Abstract Industrial wireless sensor networks (IWSNs) are required to provide highly reliable and real-time transmission. Moreover, for connected K-neighborhood (CKN) sleep scheduling-based duty-cycled IWSNs in which the network lifetime of IWSNs can be prolonged, the two-phase geographic greedy forwarding (TPGF) geographic routing algorithm has attracted attention due to its unique transmission features: multi path, shortest path, and hole bypassing. However, the performance of TPGF in CKN-based duty-cycled IWSNs with radio irregularity is not well investigated in the literature. In this paper, we first evaluate the impact of radio irregularity on CKN-based duty-cycled IWSNs. Furthermore, we investigate the routing performance of TPGF in CKN-based duty-cycled IWSNs with radio irregularity, in terms of the number of explored routing paths as well as the lengths of the average and shortest routing paths. Particularly, we establish the upper bound on the number of explored routing paths. The upper bound is slightly relaxed with radio irregularity compared with without radio irregularity; however, it is bounded by the number of average 1-hop neighbors in always-on IWSNs. With extensive simulations, we observe that the cross-layer optimized version of TPGF (i.e., TPFGPlus) finds reliable transmission paths with low end-to-end delay, even in CKN-based duty-cycled IWSNs with radio irregularity.
Keyword Geographic routing
Industrial wireless sensor networks
Radio irregularity
Sleep scheduling
Q-Index Code C1
Q-Index Status Provisional Code
Institutional Status UQ

Document type: Journal Article
Sub-type: Article (original research)
Collections: HERDC Pre-Audit
School of Information Technology and Electrical Engineering Publications
 
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