This paper presents an effective biased random-key genetic algorithm for the Tactical Berth Allocation Problem.
May 21, 2024 · In this research paper, we develop an adaptive Biased Random-Key Genetic Algorithm (A-BRKGA) to solve the TBAP. The A-BRKGA is a recent method ...
In order to obtain good quality solutions with considerably short computational effort, this paper proposes a biased random key genetic algorithm for solving ...
The Tactical Berth Allocation Problem (TBAP) aims to allocate incoming ships to berthing positions and assign quay crane profiles to them (i.e. number of ...
An adaptive Biased Random-Key Genetic Algorithm (A-BRKGA) is developed to solve the Tactical Berth Allocation Problem and computational results show that ...
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An adaptive Biased Random-Key Genetic Algorithm (A-BRKGA) is developed to solve the Tactical Berth Allocation Problem and computational results show that ...
Oct 10, 2024 · The algorithm consisted of the respective advantages of adaptive crossover mutation algorithm and elitist model algorithm. The best solution ...
The Tactical Berth Allocation Problem (TBAP) aims to allocate incoming ships to berthing positions andassign quay crane profiles to them (i.e. number of...
BRKGA is a metaheuristic that employs random-key-based chromosomes with biased, uniform, and elitist mating strategies in a genetic algorithm framework.
Mar 26, 2017 · A Biased Random-Key Genetic Algorithm for the Berth Allocation and Quay Crane Assignment Problem. Published: 2017/03/26 , Updated: 2024/02/12 ...
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