Salp improved Northern Goshawk optimization algorithm and its application to robot path planning

The traditional Northern Goshawk optimization algorithm is prone to premature convergence and falling into local optima during the optimization process. In response to this problem, this paper integrates the leader strategy of the Salp Swarm Algorithm into the exploration stage of the Northern Gosha...

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Published in	Cluster computing Vol. 28; no. 12; p. 765
Main Authors	Wu, Changjun, Li, Qingzhen, Wang, Qiaohua, Zhang, Huanlong, Song, Xiaohui
Format	Journal Article
Language	English
Published	New York Springer US 01.11.2025 Springer Nature B.V
Subjects	Algorithms Collaboration Computer Communication Networks Computer Science Convergence Fault diagnosis Foraging behavior Operating Systems Optimization Optimization algorithms Path planning Population distribution Processor Architectures Robots Searching Strategy Leader strategy Crazy operator Northern Goshawk optimization Salp Swarm algorithm Good points
Online Access	Get full text
ISSN	1386-7857 1573-7543
DOI	10.1007/s10586-025-05500-z

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Abstract	The traditional Northern Goshawk optimization algorithm is prone to premature convergence and falling into local optima during the optimization process. In response to this problem, this paper integrates the leader strategy of the Salp Swarm Algorithm into the exploration stage of the Northern Goshawk optimization algorithm and proposes a Salp improved Northern Goshawk optimization algorithm (SANGO). Firstly, initialize the population using a set of good points to make the population distribution more uniform and improve the quality of the initial solution. Secondly, the leader strategy of the salp swarm algorithm is introduced to improve the exploration stage of the Northern Goshawk optimization algorithm, balancing the global and local search capabilities of the algorithm. The Levy flight strategy is added to perturb the current local optimal solution, increasing the search range to jump out of the local optimal solution, and improving the search efficiency and solving ability of the algorithm. Finally, in order to solve the premature convergence caused by the loss of population diversity in the later stage of iteration, the crazy operator is used to improve the development stage and enhance the convergence accuracy of the algorithm. Compare SANGO with DBO, GWO, POA, HHO, NGO, INGO, GODBO, DFPSO, ASFSSA, GMPBSA, MGLMRFO and HHNGO on 12 basic functions, CEC-2017, and CEC-2021 test sets. At the same time, the SANGO algorithm was applied to robot path planning, simulation experiments were conducted in different grid environments, as well as design applications in two engineering, to verify the effectiveness and practicality of the proposed algorithm.
AbstractList	The traditional Northern Goshawk optimization algorithm is prone to premature convergence and falling into local optima during the optimization process. In response to this problem, this paper integrates the leader strategy of the Salp Swarm Algorithm into the exploration stage of the Northern Goshawk optimization algorithm and proposes a Salp improved Northern Goshawk optimization algorithm (SANGO). Firstly, initialize the population using a set of good points to make the population distribution more uniform and improve the quality of the initial solution. Secondly, the leader strategy of the salp swarm algorithm is introduced to improve the exploration stage of the Northern Goshawk optimization algorithm, balancing the global and local search capabilities of the algorithm. The Levy flight strategy is added to perturb the current local optimal solution, increasing the search range to jump out of the local optimal solution, and improving the search efficiency and solving ability of the algorithm. Finally, in order to solve the premature convergence caused by the loss of population diversity in the later stage of iteration, the crazy operator is used to improve the development stage and enhance the convergence accuracy of the algorithm. Compare SANGO with DBO, GWO, POA, HHO, NGO, INGO, GODBO, DFPSO, ASFSSA, GMPBSA, MGLMRFO and HHNGO on 12 basic functions, CEC-2017, and CEC-2021 test sets. At the same time, the SANGO algorithm was applied to robot path planning, simulation experiments were conducted in different grid environments, as well as design applications in two engineering, to verify the effectiveness and practicality of the proposed algorithm.
ArticleNumber	765
Author	Song, Xiaohui Zhang, Huanlong Wu, Changjun Wang, Qiaohua Li, Qingzhen
Author_xml	– sequence: 1 givenname: Changjun surname: Wu fullname: Wu, Changjun organization: Zhengzhou University of Light Industry, Henan Key Laboratory of Intelligent Manufacturing of Mechanical Equipment – sequence: 2 givenname: Qingzhen surname: Li fullname: Li, Qingzhen organization: Zhengzhou University of Light Industry, Henan Key Laboratory of Intelligent Manufacturing of Mechanical Equipment – sequence: 3 givenname: Qiaohua surname: Wang fullname: Wang, Qiaohua email: wangqiaohua@zzuli.edu.cn organization: Zhengzhou University of Light Industry, Henan Key Laboratory of Intelligent Manufacturing of Mechanical Equipment – sequence: 4 givenname: Huanlong surname: Zhang fullname: Zhang, Huanlong organization: Zhengzhou University of Light Industry, College of Electrical and Information Engineering – sequence: 5 givenname: Xiaohui surname: Song fullname: Song, Xiaohui organization: Henan Academy of Sciences
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Snippet	The traditional Northern Goshawk optimization algorithm is prone to premature convergence and falling into local optima during the optimization process. In...
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SubjectTerms	Algorithms Collaboration Computer Communication Networks Computer Science Convergence Fault diagnosis Foraging behavior Operating Systems Optimization Optimization algorithms Path planning Population distribution Processor Architectures Robots Searching Strategy
Title	Salp improved Northern Goshawk optimization algorithm and its application to robot path planning
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