Title:
Efficient, Fast, and Fair Voting Through Dynamic Resource Allocation in a Secure Election Physical Intranet
Efficient, Fast, and Fair Voting Through Dynamic Resource Allocation in a Secure Election Physical Intranet
Author(s)
Zhang, Tiankuo
Montreuil, Benoit
Barenji, Ali V.
Muthukrishnan, Praveen
Montreuil, Benoit
Barenji, Ali V.
Muthukrishnan, Praveen
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Abstract
Resource allocations in an election system, often with hundreds of polling locations over a territory such as a county, with the aim that voters receive fair and efficient services, is a challenging problem, as election resources are limited and the number of expected voters can be highly volatile through the voting period. This paper develops two propositions to ensure efficiency, fairness, resilience, and security. The first is to leverage Physical Internet (PI) principles, notably setting up a “secure election physical intranet” (SEPI) based on open resource sharing and flow consolidation between election facilities in the territory. The second is to adopt a smart dynamic resource allocation methodology within the SEPI based on queueing networks and lexicographic optimization. A queueing model is developed to provide feasible combinations of resources and individual performances for each polling location by considering layout and utilization constraints. A two-stage lexicographic optimizer receives the queueing model’s outputs and finds an optimal solution that is less expensive, fast, and fair. A scenario-based case study validates the proposed methodology based on data from the 2020 US Presidential Election in Fulton County, Georgia, USA.
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Date Issued
2024-05
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Paper