DocumentCode
1904865
Title
Double Mobility: Coverage of the Sea Surface with Mobile Sensor Networks
Author
Luo, Ji ; Wang, Dan ; Zhang, Qian
Author_Institution
Hong Kong Univ. of Sci. & Tech, Hong Kong
fYear
2009
fDate
19-25 April 2009
Firstpage
118
Lastpage
126
Abstract
We are interested in the sensor networks for scientific applications to cover and measure statistics on the sea surface. Due to flows and waves, the sensor nodes may gradually lose their positions; leaving the points of interest uncovered. Manual readjustment is costly and cannot be performed in time. We argue that a network of mobile sensor nodes which can perform self-adjustment is the best candidate to maintain the coverage of the surface area. In our application, we face a unique double mobility coverage problem. That is, there is an uncontrollable mobility, U-Mobility, by the flows which breaks the coverage of the sensor network. Moreover, there is also a controllable mobility, C-Mobility, by the mobile nodes which we can utilize to reinstall the coverage. Our objective is to build an energy efficient scheme for the sensor network coverage issue with this double mobility behavior. A key observation of our scheme is that the motion of the flow is not only a curse but should also be considered as a fortune. The sensor nodes can be pushed by free to some locations that potentially help to improve the overall coverage. With that taken into consideration, more efficient movement decision can be made. To this end, we present a dominating set maintenance scheme to maximally exploit the U-Mobility and balance the energy consumption among all the sensor nodes. We prove that the coverage is guaranteed in our scheme. We further propose a fully distributed protocol that addresses a set of practical issues. Through extensive simulation, we demonstrate that the network lifetime can be significantly extended, compared to a straight forward back-to-original reposition scheme.
Keywords
mobility management (mobile radio); wireless sensor networks; C-Mobility; U-Mobility; controllable mobility; dominating set maintenance scheme; double mobility coverage problem; energy consumption; fully distributed protocol; mobile sensor networks; sea surface coverage; uncontrollable mobility; Batteries; Communications Society; Energy consumption; Mechanical sensors; Monitoring; Ocean temperature; Peer to peer computing; Sea measurements; Sea surface; Sensor systems;
fLanguage
English
Publisher
ieee
Conference_Titel
INFOCOM 2009, IEEE
Conference_Location
Rio de Janeiro
ISSN
0743-166X
Print_ISBN
978-1-4244-3512-8
Electronic_ISBN
0743-166X
Type
conf
DOI
10.1109/INFCOM.2009.5061913
Filename
5061913
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