Indushree Banerjee scite author profile

Indushree Banerjee

5Publications

15Citation Statements Received

78Citation Statements Given

How they've been cited

How they cite others

127

Affiliations

Delft University of Technology, Maulana Abul Kalam Azad University of Technology, West Bengal

Publications

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Introducing participatory fairness in emergency communication can support self-organization for survival

Banerjee

Warnier

Brazier

et al. 2021

Sci Rep

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Participatory resilience of disaster-struck communities requires reliable communication for self-organized rescue, as conventional communication infrastructure is damaged. Disasters often lead to blackouts preventing citizens from charging their phones, leading to disparity in battery charges and a digital divide in communication opportunities. We propose a value-based emergency communication system based on participatory fairness, ensuring equal communication opportunities for all, regardless of inequality in battery charge. The proposed infrastructure-less emergency communication network automatically and dynamically (i) assigns high-battery phones as hubs, (ii) adapts the topology to changing battery charges, and (iii) self-organizes to remain robust and reliable when links fail or phones leave the network. The novelty of the proposed mobile protocol compared to mesh communication networks is demonstrated by comparative agent-based simulations. An evaluation using the Gini coefficient demonstrates that our network design results in fairer participation of all devices and a longer network lifetime, benefiting the community and its participants.

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Educating users for disaster management: An exploratory study on using immersive training for disaster management

Perera

Meedeniya

Banerjee

et al. 2013

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Self-organizing topology for energy-efficient ad-hoc communication networks of mobile devices

Banerjee

Warnier

Brazier

2020

Complex Adapt Syst Model

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Connectivity is essential to today's society, and relies heavily on the availability and reliability of physical network infrastructures (Sterbenz et al. 2010). There are, however, periods of time when physical network infrastructures fail, for example due to cascading failures, extreme weather events, humanitarian crises or intentional shutdown of communication infrastructures (Howard et al. 2011;Pidd 2012). In these periods mobile ad-hoc networks (MANETs), i.e., infrastructure-less communication networks, can provide an alternative (Rabbi and Arefin 2006;Gunasekaran and Harmantzis 2007;George et al. 2010;Lu et al. 2017). The performance of MANETs depends on its dynamic context characterized by the mobility of devices, changing density of devices, and depleting

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Incorporating Smart Software-defined Networks to Enhance Resilience and Survivability in the Cloud: Survey of Current Challenges and Future Research Scopes

Banerjee¹,

Perera²,

Nag³

et al. 2015

SmartCR

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Self-organizing topology for energy-efficient ad-hoc communication networks of mobile devices

Banerjee

Warnier

Brazier

2020

Preprint

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When physical communication network infrastructures fail, infrastructure-less communication networks such as mobile ad-hoc networks (MANET), can provide an alternative. This, however, requires MANETs to be adaptable to dynamic contexts characterized by the changing density and mobility of devices and availability of energy sources. To address this challenge, this paper proposes a decentralized context-adaptive topology control protocol. The protocol consists of three algorithms and uses preferential attachment based on the energy availability of devices to form a loop-free scale-free adaptive topology for an ad-hoc communication network. The proposed protocol has a number of advantages. First, it is adaptive to the environment, hence applicable in scenarios where the number of participating mobile devices and their availability of energy resources is always changing. Second, it is energy-efficient through changes in the topology. This means it can be flexibly be combined with different routing protocols. Third, the protocol requires no changes on the hardware level. This means it can be implemented on all current phones, without any recalls or investments in hardware changes. The evaluation of the protocol in a simulated environment confirms the feasibility of creating and maintaining a self-adaptive ad-hoc communication network, consisting of multitudes of mobile devices for reliable communication in a dynamic context.

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