핵심 개념
This paper presents gradient-based and gradient-free optimization methods to solve design optimization problems involving deformable bodies in unilateral contact, subject to pressure constraints.
초록
The paper addresses the challenge of combining state-of-the-art contact finite element solvers with optimization algorithms for design optimization of contacting systems. Two main approaches are explored:
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Gradient-based optimization:
- The authors derive and implement sensitivities for design optimization problems with pressure objectives and constraints.
- They use the interior-point solver Ipopt to solve the optimization problems.
- The gradient-based approach is able to handle the nonsmoothness of the contact problems by carefully designing the bound constraints.
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Gradient-free optimization:
- The authors design and apply constrained Bayesian optimization with Gaussian Process surrogate models.
- Bayesian optimization treats the objective and constraint functions as black-box and does not require sensitivity information.
- The constrained Bayesian optimization algorithm is able to find improved designs, though the accuracy is reduced compared to the gradient-based approach.
The authors present two numerical examples inspired by real-life engineering applications, such as the design of high-current joints and Marman clamps, to demonstrate the effectiveness, strengths and limitations of both optimization methods for problems with changing contact regions and pressure constraints.
통계
The elastic modulus E is set to 200 and Poisson's ratio ν is 0.3 for the wedge problem.
The elastic modulus E is set to 2 × 10^6 and Poisson's ratio ν is 0.3 for the Marman clamp problem.