Surrogate Based Co-Design for Combined Structure and Control Design Problems

In autonomous excavation, design and optimization of the unmanned cable shovels (UCS) are important issues in the full life cycle of the equipments. However, the design of physical structure and control system of the UCS are preformed at different stage, which makes it difficult for traditional sequential optimization strategy to generate global optimal solution. To enhance the working performance of the UCS, in this paper, a multi-stage multi-objective (MSMO) Co-design optimization strategy is proposed to perform global optimization considering excavation and loading processes by simultaneous optimization for the structure and control parameters of UCS. Under this framework, first, a point-to-point motion model based on 4-5-4 piecewise polynomial is proposed to describe the motion trajectory and the dynamical model of the working device is established to predict the energy consumption in working process. Then, the physical and geometric constraints in actual working are analyzed and a multi-objective optimization model considering excavation and loading processes is established to improve mining efficiency and reduce energy consumption in unmanned excavation scenarios. Finally, the structural and control parameters are optimized synchronously to generate optimal physical structure, excavation and loading trajectory. Numerical results show that the proposed MSMO Co-design method can further improve the operational performance of UCS compared with the traditional optimization strategy.

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Surrogate Based Co-Design for Combined Structure and Control Design Problems

Cited by 5 publications

References 40 publications

Co-design of an unmanned cable shovel for structural and control integrated optimization: A highly heterogeneous constrained multi-objective optimization algorithm

Co-design of an unmanned cable shovel for structural and control integrated optimization: A highly heterogeneous constrained multi-objective optimization algorithm

Evolutionary Semi-Vectorial Bilevel Optimization in the mechanical and control design of systems

Design of Unmanned Cable Shovel Based on Multiobjective Co-Design Optimization of Structural and Control Parameters

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