Affiliation:
1. Department of Computer Science, Missouri University of Science and Technology, Rolla, MO, USA
2. Department of Fundamentals of Computer Science, Wrocław University of Science and Technology, Poland
Abstract
This article deals with reliable and unreliable mobile sensors having identical sensing radius
r
, communication radius
R
, provided that
r
≤
R
and initially randomly deployed
on the plane
by dropping them from an aircraft according to general random process. The sensors have to move from their initial random positions to the final destinations to provide greedy path
k
1
-coverage simultaneously with
k
2
-connectivity. In particular, we are interested in assigning the sensing radius
r
and communication radius
R
to minimize
the time required
and
the energy consumption
of transportation cost for sensors to provide the desired
k
1
-coverage with
k
2
-connectivity. We prove that for both of these optimization problems, the optimal solution is to assign the sensing radius equal to
r
=
k
1
||
E
[S]||/2 and the communication radius
R
=
k
2
||
E
[S]||/2, where ||
E
[S]|| is the characteristic of general random process according to which the sensors are deployed. When
r
<
k
1
||
E
[S]||/2 or
R
<
k
2
||
E
[S]||/ 2, and sensors are reliable, we discover and explain
the sharp increase
in the time required and the energy consumption in transportation cost to ensure the desired
k
1
-coverage with
k
2
-connectivity.
Funder
NSF
Polish National Science Center
Publisher
Association for Computing Machinery (ACM)
Subject
Computer Networks and Communications
Cited by
15 articles.
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