Biped robot stability based on an A–C parametric Whale Optimization Algorithm

•Proposing a new variant of WOA which focuses on balancing between exploration and exploitation is proposed.•The proposed algorithm named as the A-C parametric WOA targets the A and C parameters of the standard WOA specifically through variation of “a” parameter, as well as updating parameter “C” by...

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Published inJournal of computational science Vol. 31; pp. 17 - 32
Main Authors Elhosseini, Mostafa A., Haikal, Amira Y., Badawy, Mahmoud, Khashan, Nour
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2019
Subjects
Biped robot
Genetic Algorithm (GA)
Stability
Trajectory planning
Whale Optimization Algorithm(WOA)
Zero moment point (ZMP)
Whale Optimization Algorithm(WOA)
Zero moment point (ZMP)
Genetic Algorithm (GA)
Biped robot
Stability
Trajectory planning
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Abstract •Proposing a new variant of WOA which focuses on balancing between exploration and exploitation is proposed.•The proposed algorithm named as the A-C parametric WOA targets the A and C parameters of the standard WOA specifically through variation of “a” parameter, as well as updating parameter “C” by applying inertia weight strategy.•The parametric A-C WOA is applied on a biped robot to find the optimal settings of the hip parameters that make ZMP stays in the middle of the support polygon as much as possible.•A comparative study has been held between the proposed algorithm and various well-known algorithms (PSO, DE, GA, WOA, and SSA) resulting in the best convergence characteristic with a reduction in STD of 47.9% compared to the standard WOA. The easy gait stability of biped robot is an important issue and has been mentioned in different works in literature. To evaluate the walking stability, we performed zero moment point (ZMP) analysis for the obtained trajectory model. Whale Optimization Algorithm (WOA) has been gained more interest, due to the fewer number of control parameters, and easy implementation of the code. However, WOA has low convergence speed and accuracy. In this paper, a new variant of WOA which focuses on balancing between exploration and exploitation is proposed. The proposed algorithm named as the A–C parametric WOA targets the A and C parameters of the standard WOA specifically through variation of “a” parameter non-linearly and randomly, as well as updating parameter “C” by applying inertia weight strategy. To verify the performance of the proposed A–C parametric WOA, we at first test it against the standard WOA using 41 benchmark functions from CEC’2005 and CEC’2017. The results show a success rate of 38 out of 41 functions, while the T-test and Wilcoxon analyses succeeded in 33 and 37 out of 41 respectively. Secondly, a comparative study has been held between the A–C parametric WOA and the most well-known state-of-art soft computing techniques (PSO, DE, CS, GWO, WOA, and AGWO) through the standard deviation (STD) and the average resulting in a success rate of 6 out of 8 common benchmark functions. Thirdly, the parametric A–C WOA is applied on a biped robot to find the optimal settings of the hip parameters that make ZMP stays in the middle of the support polygon as much as possible. A comparative study has been held between the proposed algorithm and various well-known algorithms (PSO, DE, GA, WOA, and SSA) resulting in the best convergence characteristic with a reduction in STD of 47.9% compared to the standard WOA. Results show that the proposed A–C parametric WOA has the best results with the lowest STD and minimum error.
AbstractList •Proposing a new variant of WOA which focuses on balancing between exploration and exploitation is proposed.•The proposed algorithm named as the A-C parametric WOA targets the A and C parameters of the standard WOA specifically through variation of “a” parameter, as well as updating parameter “C” by applying inertia weight strategy.•The parametric A-C WOA is applied on a biped robot to find the optimal settings of the hip parameters that make ZMP stays in the middle of the support polygon as much as possible.•A comparative study has been held between the proposed algorithm and various well-known algorithms (PSO, DE, GA, WOA, and SSA) resulting in the best convergence characteristic with a reduction in STD of 47.9% compared to the standard WOA. The easy gait stability of biped robot is an important issue and has been mentioned in different works in literature. To evaluate the walking stability, we performed zero moment point (ZMP) analysis for the obtained trajectory model. Whale Optimization Algorithm (WOA) has been gained more interest, due to the fewer number of control parameters, and easy implementation of the code. However, WOA has low convergence speed and accuracy. In this paper, a new variant of WOA which focuses on balancing between exploration and exploitation is proposed. The proposed algorithm named as the A–C parametric WOA targets the A and C parameters of the standard WOA specifically through variation of “a” parameter non-linearly and randomly, as well as updating parameter “C” by applying inertia weight strategy. To verify the performance of the proposed A–C parametric WOA, we at first test it against the standard WOA using 41 benchmark functions from CEC’2005 and CEC’2017. The results show a success rate of 38 out of 41 functions, while the T-test and Wilcoxon analyses succeeded in 33 and 37 out of 41 respectively. Secondly, a comparative study has been held between the A–C parametric WOA and the most well-known state-of-art soft computing techniques (PSO, DE, CS, GWO, WOA, and AGWO) through the standard deviation (STD) and the average resulting in a success rate of 6 out of 8 common benchmark functions. Thirdly, the parametric A–C WOA is applied on a biped robot to find the optimal settings of the hip parameters that make ZMP stays in the middle of the support polygon as much as possible. A comparative study has been held between the proposed algorithm and various well-known algorithms (PSO, DE, GA, WOA, and SSA) resulting in the best convergence characteristic with a reduction in STD of 47.9% compared to the standard WOA. Results show that the proposed A–C parametric WOA has the best results with the lowest STD and minimum error.
Author Haikal, Amira Y.
Badawy, Mahmoud
Khashan, Nour
Elhosseini, Mostafa A.
Author_xml – sequence: 1
  givenname: Mostafa A.
  surname: Elhosseini
  fullname: Elhosseini, Mostafa A.
  email: mmaoustafa@taibahu.edu.sa, melhosseini@mans.edu.eg
  organization: Taibah university, College of computer science and Engineering in Yanbu, Madinah, Saudi Arabia
– sequence: 2
  givenname: Amira Y.
  surname: Haikal
  fullname: Haikal, Amira Y.
  email: amirayh@gmail.com
  organization: Mansoura university, Computer Engineering and control systems Dept., Faculty of Engineering, Egypt
– sequence: 3
  givenname: Mahmoud
  surname: Badawy
  fullname: Badawy, Mahmoud
  email: engbadawy@mans.edu.eg
  organization: Mansoura university, Computer Engineering and control systems Dept., Faculty of Engineering, Egypt
– sequence: 4
  givenname: Nour
  surname: Khashan
  fullname: Khashan, Nour
  email: nour.khashan@gmail.com
  organization: Mansoura university, Computer Engineering and control systems Dept., Faculty of Engineering, Egypt
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Keywords Whale Optimization Algorithm(WOA)
Zero moment point (ZMP)
Genetic Algorithm (GA)
Biped robot
Stability
Trajectory planning
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Snippet •Proposing a new variant of WOA which focuses on balancing between exploration and exploitation is proposed.•The proposed algorithm named as the A-C parametric...
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elsevier
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StartPage 17
SubjectTerms Biped robot
Genetic Algorithm (GA)
Stability
Trajectory planning
Whale Optimization Algorithm(WOA)
Zero moment point (ZMP)
Title Biped robot stability based on an A–C parametric Whale Optimization Algorithm
URI https://dx.doi.org/10.1016/j.jocs.2018.12.005
Volume 31
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