2019
DOI: 10.3390/technologies7030061
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Unconventional GVNS for Solving the Garbage Collection Problem with Time Windows

Abstract: GVNS, which stands for General Variable Neighborhood Search, is an established and commonly used metaheuristic for the expeditious solution of optimization problems that belong to the NP-hard class. This paper introduces an expansion of the standard GVNS that borrows principles from quantum computing during the shaking stage. The Traveling Salesman Problem with Time Windows (TSP-TW) is a characteristic NP-hard variation in the standard Traveling Salesman Problem. One can utilize TSP-TW as the basis of Global P… Show more

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Cited by 11 publications
(7 citation statements)
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“…This quantum-inspired procedure was also applied successfully to the solution of real-life problems that can be modeled as TSP instances [15]. More recently, [37] applied a quantum-inspired metaheuristic for tackling the practical problem of garbage collection with time windows that produced particularly promising experimental results, as further comparative analysis demonstrated in [38]. A thorough statistical and computational analysis on asymmetric, symmetric, and national TSP benchmarks from the well known TSPLIB benchmark library was conducted in [39].…”
Section: Related Workmentioning
confidence: 99%
“…This quantum-inspired procedure was also applied successfully to the solution of real-life problems that can be modeled as TSP instances [15]. More recently, [37] applied a quantum-inspired metaheuristic for tackling the practical problem of garbage collection with time windows that produced particularly promising experimental results, as further comparative analysis demonstrated in [38]. A thorough statistical and computational analysis on asymmetric, symmetric, and national TSP benchmarks from the well known TSPLIB benchmark library was conducted in [39].…”
Section: Related Workmentioning
confidence: 99%
“…A quantum-inspired procedure for solving the TSP with Time Windows was also presented in [44]. More recently, [45] applied a quantum-inspired metaheuristic for tackling the practical problem of garbage collection with time windows that produced particularly promising experimental results, as further comparative analysis demonstrated in [46]. A thorough statistical and computational analysis on asymmetric, symmetric, and national TSP benchmarks from the well known TSPLIB benchmark library, was conducted in [47].…”
Section: The Travelling Salesman Problemmentioning
confidence: 99%
“…A quantum-inspired procedure for solving the TSP with Time Windows was also presented in [44]. More recently, [45] applied a quantum-inspired metaheuristic for tackling the practical problem of garbage collection with time windows, with particularly promising experimental results, as further comparative analysis demonstrated in [46]. A thorough statistical and computational analysis on asymmetric, symmetric, and national TSP benchmarks from the well known TSPLIB benchmark library, was conducted in [47].…”
Section: The Travelling Salesman Problemmentioning
confidence: 99%