Arun Das scite author profile

Arun Das

4Publications

119Citation Statements Received

55Citation Statements Given

How they've been cited

121

119

How they cite others

Affiliations

S.N. Bose National Centre for Basic Sciences, Arizona State University, Decision Systems (United States)

Publications

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Identification of K most vulnerable nodes in multi-layered network using a new model of interdependency

Sen

Mazumder

Banerjee

et al. 2014

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The critical infrastructures of the nation including the power grid and the communication network are highly interdependent. Recognizing the need for a deeper understanding of the interdependency in a multi-layered network, significant efforts have been made by the research community in the last few years to achieve this goal. Accordingly a number of models have been proposed and analyzed. Unfortunately, most of the models are over simplified and, as such, they fail to capture the complex interdependency that exists between entities of the power grid and the communication networks involving a combination of conjunctive and disjunctive relations. To overcome the limitations of existing models, we propose a new model that is able to capture such complex interdependency relations. Utilizing this model, we provide techniques to identify the K most vulnerable nodes of an interdependent network. We show that the problem can be solved in polynomial time in some special cases, whereas for some others, the problem is NP-complete. We establish that this problem is equivalent to computation of a fixed point of a multilayered network system and we provide a technique for its computation utilizing Integer Linear Programming. Finally, we evaluate the efficacy of our technique using real data collected from the power grid and the communication network that span the Maricopa County of Arizona.

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Relay Node Placement Under Budget Constraint

Zhou

Mazumder

Das

et al. 2018

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Root Cause Analysis of Failures in Interdependent Power-Communication Networks

Das

Banerjee

Sen

2014

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On the Entity Hardening Problem in multi-layered interdependent networks

Banerjee

Das

Zhou

et al. 2015

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Abstract-The power grid and the communication network are highly interdependent on each other for their well being. In recent times the research community has shown significant interest in modeling such interdependent networks and studying the impact of failures on these networks. Although a number of models have been proposed, many of them are simplistic in nature and fail to capture the complex interdependencies that exist between the entities of these networks. To overcome the limitations, recently an Implicative Interdependency Model that utilizes Boolean Logic, was proposed and a number of problems were studied. In this paper we study the "entity hardening" problem, where by "entity hardening" we imply the ability of the network operator to ensure that an adversary (be it Nature or human) cannot take a network entity from operative to inoperative state. Given that the network operator with a limited budget can only harden k entities, the goal of the entity hardening problem is to identify the set of k entities whose hardening will ensure maximum benefit for the operator, i.e. maximally reduce the ability of the adversary to degrade the network. We show that the problem is solvable in polynomial time for some cases, whereas for others it is NP-complete. We provide the optimal solution using ILP, and propose a heuristic approach to solve the problem. We evaluate the efficacy of our heuristic using power and communication network data of Maricopa County, Arizona. The experiments show that our heuristic almost always produces near optimal results.

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Arun Das

Identification of K most vulnerable nodes in multi-layered network using a new model of interdependency

Relay Node Placement Under Budget Constraint

Root Cause Analysis of Failures in Interdependent Power-Communication Networks

On the Entity Hardening Problem in multi-layered interdependent networks

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