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- Title
Synergistic Design of the Bipedal Lower-Limb through Multiobjective Differential Evolution Algorithm.
- Authors
Pantoja-García, Jesús S.; Villarreal-Cervantes, Miguel G.; García-Mendoza, Consuelo V.; Silva-García, Víctor M.
- Abstract
The complexity in the design of bipedal robots has motivated the use of simple mechanisms to accomplish the desired locomotion task with a minimum control effort. Nevertheless, a diverse set of conflictive design criteria must be met to develop the bipedal gait. In this paper, the synergy in the eight-bar mechanism design criteria to satisfy the bipedal lower-limb behavior is promoted by proposing a Pareto-based Nonlinear Mixed Discrete-Continuous Constrained Multiobjective Optimization Problem and by improving the search in the optimizer through the inclusion of the Multiselection Strategy into the multiobjective differential evolution algorithm, where the conflictive design objectives are the continuous path generation based on an approximation error to track twenty precision points of the bipedal gait and also the force transmission exerted when the foot reaches the ground. The manufacture of a prototype with a specific design trade-off experimentally validates the obtained synergistic design with the proposed design approach. In addition, the empirical analysis in simulation through a statistical validation indicates that the Multiselection Strategy explores and exploits the design solutions promoting the diversity, convergence, and capacity features of the obtained Pareto front with respect to other four multiobjective optimizers and consequently improves the reconfigurability in the design such that more alternatives result to the designer decision making.
- Subjects
DIFFERENTIAL evolution; APPROXIMATION error; ROBOTICS; CONSTRAINED optimization; ROBOT design &; construction; LEG
- Publication
Mathematical Problems in Engineering, 2019, p1
- ISSN
1024-123X
- Publication type
Article
- DOI
10.1155/2019/2301714