Manisha J. Nene

Work place: Department of Computer Science and Engineering, Defence Institute of Advanced Technology, Pune 411025, India

E-mail: mj.nene@diat.ac.in

Website:

Research Interests: Information Security, Network Architecture, Network Security

Biography

Manisha Nene received M.E. degree from University of Pune, Ph.D. degree in Computer Science and Engineering from the Defence Institute of Advanced Technology (DIAT), Pune; a Defence Research and Development Organization (DRDO) Establishment under the Ministry of Defence, India. She is currently a Faculty Member with the Department of Computer Science and Engineering, DIAT, Pune. Her areas of interest are wireless sensor networks, cyber physical systems, cognitive radios, analysis of algorithms, high performance computing, modeling, and simulations. She published many reputed journal and conference papers. She is professional member of ACM, IEEE, CSI.

Author Articles
Strategies for Searching Targets Using Mobile Sensors in Defense Scenarios

By Tanmoy Hazra CRS Kumar Manisha J. Nene

DOI: https://doi.org/10.5815/ijitcs.2017.05.08, Pub. Date: 8 May 2017

Target searching is one of the challenging research areas in defense. Different types of sensor networks are deployed for searching targets in critical zones. The selection of optimal strategies for the sensor nodes under certain constraints is the key issue in target searching problem. This paper addresses a number of target searching problems related to various defense scenarios and introduces new strategic approaches to facilitate the search operation for the mobile sensors in a two-dimensional bounded space. The paper classifies the target searching problems into two categories: preference-based and traversal distance based. In the preference based problems, the strategies for the mobile sensors are determined by Stable Marriage Problem, College Admission Problem, and voting system; they are analyzed with suitable examples. Alternatively, traversal distance based problems are solved by our proposed graph searching approaches and analyzed with randomly chosen examples. Results obtained from the examples signify that our proposed models can be applied in defense-related target searching problems.

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