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KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh...
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Transcript of KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh...
![Page 1: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/1.jpg)
KAIST
Deploying Wireless Sensors to Achieve Both Coverage and Connectivity
Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai
MobiHoc 2006
Hong Nan-Kyoung
Network & Security LAB at KAIST
2006.10.19
![Page 2: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/2.jpg)
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The Optimal Connectivity and Coverage Problem
What is the optimal number of sensors needed to achieve
p-coverage and q-connectivity in WSNs?
An important problem in WSNs:Connectivity is for information transmission Coverage is for information collection
To save cost
To help design topology control algorithms and protocols
Other practical benefits
![Page 3: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/3.jpg)
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Outline
p-coverage and q-connectivity
Previous work
Main results
On optimal patterns to achieve coverage and connectivity
On regular patterns to achieve coverage and connectivity
Conclusion
![Page 4: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/4.jpg)
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p- Coverage and q-Connectivity
p-coverageEvery point in the plane is covered by at least p different sensors
q-connectivity
There are at least q disjoint paths between any two sensors
rs
rc
Node ANode B
Node C
Node D For example, nodes A, B, C andD are two connected
![Page 5: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/5.jpg)
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Relationship between rs and rc
Most existing work is focused on
In reality, there are various values of
sc rr 3
sc rr /
![Page 6: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/6.jpg)
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Previous Work
Research on Asymptotically Optimal Number of Nodes
[1] R. Kershner. The number of circles covering a set. American Journal of Mathematics, 61:665–671, 1939, reproved by Zhang and Hou recently.[2] R. Iyengar, K. Kar, and S. Banerjee. Low-coordination topologies for redundancy in sensor networks. MobiHoc2005.
![Page 7: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/7.jpg)
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Well Known Results: Triangle Lattice Pattern [1]
Triangle Lattice Pattern ( )sc rr 3
sr3
4
22 ss rr
sr2
3
![Page 8: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/8.jpg)
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Strip-based Pattern[2]
Strip-based Pattern( )
/2
sc rr 3,min
4
22 ss rr
sc rr 3
![Page 9: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/9.jpg)
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Focuses
Research on Asymptotically Optimal Number of Nodes
![Page 10: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/10.jpg)
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Main Results
1-connectvityProve that a strip-based deployment pattern is asymptotically optimal for
achieving both 1-coverage and 1-connectivity for all values of rc and rs
2-connectvityProve that a slight modification of this pattern is asymptotically optimal for achieving 1-coverage and 2-connectivity
Triangle lattice pattern
Special case of strip-based deployment pattern
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Theorem on Minimum Number of Nodes for 1-Connectivity
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Sketch of the proof :
Basic ideas for both 1-connectivity and 2-connectivity
1. Show that, when 1-connectivity is achieved, the whole area is maximized when the Voronoi Polygon for each sensor is a hexagon.
2. Get the lower bound:
3. Prove the upper bound by construction
![Page 13: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/13.jpg)
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Optimal Pattern for 1-Connectivity
Place enough disks between the strips to connect them
The number is disks needed is negligible asymptotically
sc rr 3,min
4
22 ss rr
![Page 14: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/14.jpg)
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Theorem on
Minimum Number of Nodes for 2-Connectivity
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Optimal Pattern for 2-Connectivity
Connect the neighboring horizontal strips at its two ends
sc rr 3,min
4
22 ss rr
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Regular Patterns
Triangular Lattice (can achieve 6 connectivity)
Square Grid (can achieve 4 connectivity)
Hexagonal (can achieve 3 connectivity)
Rhombus Grid (can achieve 4 connectivity)
![Page 17: KAIS T Deploying Wireless Sensors to Achieve Both Coverage and Connectivity Xiaole Bai, Santosh Kumar, Dong Xuan, Ziqiu Yun and Ten H.Lai MobiHoc 2006.](https://reader036.fdocuments.net/reader036/viewer/2022070403/56649f2c5503460f94c46fbf/html5/thumbnails/17.jpg)
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Efficiency of Regular Patterns
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Efficiency of Regular Patterns to Achieve Coverage and Connectivity
Hexagon
Square
Rhombus
Triangle
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Conclusions
Proved the optimality of the strip-based deployment pattern
for achieving both coverage and connectivity in WSNs
(For proof details, please see the paper)
Different regular patterns are the best
in different communication and sensing range.
The results have applications
to the design and deployment of wireless sensor networks
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