Mohsen Eftekhari scite author profile

Mohsen Eftekhari

5Publications

57Citation Statements Received

70Citation Statements Given

How they've been cited

101

How they cite others

Affiliations

Google (United States), Concordia University, Islamic Azad University Saveh

Publications

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Distributed algorithms for barrier coverage using relocatable sensors

et al. 2016

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We study the barrier coverage problem using relocatable sensor nodes. We assume each sensor can sense an intruder or event inside its sensing range. Sensors are initially located at arbitrary positions on the barrier and can move along the barrier. The goal is to find final positions for sensors so that the entire barrier is covered. In recent years, the problem has been studied extensively in the centralized setting. In this paper, we study a barrier coverage problem in the distributed and discrete setting. We assume that we have n identical sensors located at grid positions on the barrier, and that each sensor repeatedly executes a Look-Compute-Move cycle: based on what it sees in its vicinity, it makes a decision on where to move, and moves to its next position. We make two strong but realistic restrictions on the capabilities of sensors: they have a constant visibility range and can move only a constant distance in every cycle. In this model, we give the first two distributed algorithms that achieve barrier coverage for a line segment barrier when there are enough nodes in the network to cover the entire barrier. Our algorithms are An abbreviated version of this paper is published synchronous, and local in the sense that sensors make their decisions independently based only on what they see within their constant visibility range. One of our algorithms is oblivious whereas the other uses two bits of memory at each sensor to store the type of move made in the previous step. We show that our oblivious algorithm terminates within Θ(n 2 ) steps with the barrier fully covered, while the constant-memory algorithm is shown to take Θ(n) steps to terminate in the worst case. Since any algorithm in which a sensor can only move a constant distance in one step requires Ω(n) steps on some inputs, our second algorithm is asymptotically optimal.

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Complexity of barrier coverage with relocatable sensors in the plane

Dobrev

Durocher

Eftekhari

et al. 2015

Theoretical Computer Science

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On Multi-round Sensor Deployment for Barrier Coverage

Eftekhari

Narayanan

Opatrný

2013

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Complexity of Barrier Coverage with Relocatable Sensors in the Plane

Dobrev¹,

Durocher²,

Eftekhari³

et al. 2013

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We consider several variations of the problems of covering a set of barriers (modeled as line segments) using sensors that can detect any intruder crossing any of the barriers. Sensors are initially located in the plane and they can relocate to the barriers. We assume that each sensor can detect any intruder in a circular area of fixed range centered at the sensor. Given a set of barriers and a set of sensors located in the plane, we study three problems: (i) the feasibility of barrier coverage, (ii) the problem of minimizing the largest relocation distance of a sensor (MinMax), and (iii) the problem of minimizing the sum of relocation distances of sensors (MinSum). When sensors are permitted to move to arbitrary positions on the barrier, the MinMax problem is shown to be strongly NP-complete for sensors with arbitrary ranges. We also study the case when sensors are restricted to use perpendicular movement to one of the barriers.

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Distributed Barrier Coverage with Relocatable Sensors

Eftekhari

Flocchini

Narayanan

et al. 2014

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