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An improved multi-strategy beluga whale optimization for global optimization problems.

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Summary
This summary is machine-generated.

An improved beluga whale optimization (IBWO) algorithm enhances global problem-solving by balancing exploration and exploitation. This novel approach improves convergence speed and accuracy for complex engineering challenges.

Keywords:
beluga whale optimizationdynamic pinhole imaging strategyengineering problemsgroup actionquadratic interpolation strategy

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Area of Science:

  • Computational Intelligence
  • Optimization Algorithms
  • Nature-Inspired Computing

Background:

  • Traditional beluga whale optimization (BWO) faces challenges with exploration-exploitation balance, leading to suboptimal convergence speed and accuracy.
  • Global optimization and complex engineering problems require robust algorithms capable of efficient and accurate solutions.

Purpose of the Study:

  • To introduce an improved beluga whale optimization (IBWO) algorithm designed to overcome the limitations of the original BWO.
  • To enhance the balance between exploration and exploitation, and improve convergence accuracy and speed.

Main Methods:

  • The IBWO algorithm incorporates a novel Group Action Strategy (GAS), inspired by beluga whale hunting behavior, to replace the BWO exploration phase.
  • Dynamic Pinhole Imaging Strategy (DPIS) and Quadratic Interpolation Strategy (QIS) are integrated to boost global optimization capabilities, search rate, and maintain population diversity.
  • Performance evaluation utilized CEC2017 and CEC2020 benchmark functions across various dimensions, alongside statistical Wilcoxon rank sum tests.

Main Results:

  • Experimental results demonstrate that IBWO exhibits superior optimization performance and robustness compared to existing methods.
  • Analysis of convergence curves and box plots confirms the enhanced efficiency and stability of the IBWO algorithm.
  • The Wilcoxon rank sum test validated the significant improvements offered by IBWO.

Conclusions:

  • The IBWO algorithm effectively addresses the limitations of BWO, offering improved performance for global optimization tasks.
  • The integration of GAS, DPIS, and QIS strategies significantly enhances the algorithm's ability to solve complex optimization problems.
  • IBWO proves its applicability and effectiveness in solving practical engineering problems, showcasing its robust performance.