Conference item
On the connectivity of two-hop networks in finite domains
- Abstract:
- In this paper, we study the direct (1-hop) and 2-hop connectivity, between two fixed terminal nodes, amongst N uniformly distributed relay nodes, confined to a finite convex geometry. We develop closed form expressions for average connection probability for special cases of circular and rectangular geometries and consider the case where communication paths are subject to Rayleigh fading. Our analysis shows that connectivity is defined by domain geometry, the mid-point location of the chord separating the terminal nodes and their spatial separation, yielding an interesting property of rotational invariance on the terminal node positions about their mid-point. We show that 2-hop connectivity yields appreciable connectivity gain, over the 1-hop case, with largest gains realised at the domain boundaries. We show that, under a condition of low relay node intensity, a simpler approximation can be employed to evaluate this connectivity metric in a finite domain. The analysis provides an insight into 2-hop connectivity in bounded wireless network domains and has application in many fields including wireless sensor networks, device-to-device communication in 5G networks, which are often modelled as having finite extent.
- Publication status:
- Published
- Peer review status:
- Peer reviewed
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(Preview, Accepted manuscript, pdf, 520.8KB, Terms of use)
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Authors
- Publisher:
- IEEE
- Host title:
- 11th International ITG Conference on Systems, Communications and Coding (SCC 2017)
- Journal:
- 11th International ITG Conference on Systems, Communications and Coding More from this journal
- Publication date:
- 2017-06-05
- Acceptance date:
- 2016-10-19
- ISBN:
- 9783800743629
- Pubs id:
-
pubs:668748
- UUID:
-
uuid:ba9a3072-a743-42dc-a779-0fe0965d5065
- Local pid:
-
pubs:668748
- Source identifiers:
-
668748
- Deposit date:
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2017-01-10
- ARK identifier:
Terms of use
- Copyright holder:
- VDE Verlag
- Copyright date:
- 2017
- Notes:
- Copyright © 2017 VDE VERLAG GMBH - Berlin - Offenbach. This is the accepted manuscript version of the paper. The final version is available online from IEEE at: https://ieeexplore.ieee.org/document/7938079
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