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Enhanced artificial hummingbird algorithm with chaotic traversal flight.

Juan Du1, Jilong Zhang2, Shouliang Li1

  • 1School of Information Science and Engineering, Lanzhou University, Lanzhou, 730000, China.

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|October 30, 2024
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Summary
This summary is machine-generated.

This study introduces the enhanced artificial hummingbird algorithm with chaotic traversal flight (CEAHA), improving meta-heuristic optimization by using chaotic motion for thorough search and preventing local optima entrapment.

Keywords:
Artificial hummingbird algorithmChaosMechanical design optimizationMeta-heuristic optimization

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Area of Science:

  • Computational Intelligence
  • Optimization Algorithms
  • Meta-heuristics

Background:

  • Traditional meta-heuristic algorithms suffer from slow convergence, imprecision, and local optima entrapment.
  • The artificial hummingbird algorithm (AHA) is a meta-heuristic inspired by hummingbird foraging behavior.

Purpose of the Study:

  • To enhance the artificial hummingbird algorithm (AHA) by incorporating chaotic ergodicity for improved optimization performance.
  • To analyze the impact of different chaotic mappings on optimization efficiency and explore the solution space thoroughly.

Main Methods:

  • The enhanced artificial hummingbird algorithm with chaotic traversal flight (CEAHA) was developed by integrating chaotic motion into the AHA framework.
  • Eight different chaotic mappings were analyzed for their effects on invariant measures and traversal efficiency.
  • CEAHA was benchmarked against 21 other meta-heuristic algorithms on CEC2014, CEC2019, and CEC2022 test suites across various dimensions.

Main Results:

  • CEAHA demonstrated superior optimization performance compared to 21 other meta-heuristic algorithms.
  • The study confirmed the effectiveness of chaotic motion in ensuring non-repetitive traversal of search states and preventing local optima entrapment.
  • The influence of eight distinct chaotic mappings on optimization outcomes was systematically evaluated.

Conclusions:

  • CEAHA effectively addresses the limitations of traditional meta-heuristic algorithms, offering improved convergence, precision, and global search capabilities.
  • The algorithm's practicability and robustness were validated through applications in mechanical engineering design problems.
  • The integration of chaotic ergodicity represents a significant advancement in meta-heuristic optimization techniques.