A study of semirandom arrays of silicon nanoresonators revealed different contributions of lowest-order electric and magnetic Mie modes to both redshift and reducing extinction for the detection of PSA binding68. In the context of BIC in dielectric metasurfaces69, breaking the in-plane symmetry of the unit cell with a controllable asymmetry parameter can provide quasi-BIC modes with a very high Q. Recently, a BIC-type dielectric metasurface
Entropy search and its derivative methods are one class of Bayesian Optimization methods that achieve active exploration of black-box functions. They maximize the information gain about the position in the input space where the black-box function gets the global optimum. However, existing entropy search methods suffer from harassment caused by high dimensional optimization problems. On the one hand, the computation for estimating entropies increases exponentially as dimensions increase, which limits the applicability of entropy search to high dimensional problems. On the other hand, many high-dimensional problems have the property that a large number of dimensions have little influence on the objective function, but currently there is no compress mechanism to exclude these redundant dimensions. In this work, we propose Active Compact Entropy Search (AcCES) to fix the above two defects. Under the guidance of historical evaluation, we bring forward a novel acquisition function that considers the correlation between dimensions in entropy search, which is ignored by existing Bayesian Optimization methods. The correlation term added in the acquisition function will help discover the potential correlation between dimensions. In order to build a more compact input space, redundant dimensions are compressed by exploiting inter-dimensional correlations. We use Pearson Correlation Coefficient and curve fitting to represent the inter-dimensional correlations. Extensive experiments on several benchmarks demonstrate that AcCES achieves higher query efficiency as well as optimal results after convergence than existing entropy search methods.