A Batched Scalable Multi-Objective Bayesian Optimization Algorithm.
2018
The surrogate-assisted optimization algorithm is a promising approach for solving expensive multi-objective optimization problems. However, most existing surrogate-assisted multi-objective optimization algorithms have three main drawbacks: 1) cannot scale well for solving problems with high dimensional decision space, 2) cannot incorporate available gradient information, and 3) do not support batch optimization. These drawbacks prevent their use for solving many real-world large scale optimization problems. This paper proposes a batched scalable multi-objective Bayesian optimization algorithm to tackle these issues. The proposed algorithm uses the Bayesian neural network as the scalable surrogate model. Powered with Monte Carlo dropout and Sobolov training, the model can be easily trained and can incorporate available gradient information. We also propose a novel batch hypervolume upper confidence bound acquisition function to support batch optimization. Experimental results on various benchmark problems and a real-world application demonstrate the efficiency of the proposed algorithm.
Keywords:
- Machine learning
- Mathematical optimization
- Artificial intelligence
- Monte Carlo method
- Surrogate model
- Artificial neural network
- Bayesian optimization
- Algorithm
- Scalability
- Optimization problem
- Bayesian probability
- Computer science
- bayesian optimization algorithm
- high dimensional
- bayesian neural networks
- optimization algorithm
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