Litcius/Paper detail

CVAE-based inverse design of two-dimensional honeycomb pentamode metastructure for acoustic cloaking

Gen Li, Lihua Tang, Vladislav Sorokin, Shao‐Hua Wang

2024Thin-Walled Structures17 citationsDOIOpen Access PDF

Abstract

• Applying a Conditional Variational Auto-Encoder (CVAE) to the inverse design of honeycomb pentamode unit cells. • Conducting the inverse design of metamaterials based on generative models with the application background of acoustic cloaking. • Satisfying the extreme anisotropic mechanical conditions for acoustic cloaking with the generative model. In this work, a method for inverse design of two-dimensional honeycomb pentamode metastructures (HPM) based on the Conditional Variational Auto-Encoder (CVAE) is proposed to achieve acoustic cloaking. The parameter distribution of the perfect acoustic cloak with two-dimensional cylindrical Kohn-Shen-Vogelius-Weinstein (KSVW) mapping is first derived. The CVAE model framework is then established along with its loss function in terms of the design parameters of the HPM. The inverse design performance of the deep generative model is evaluated using a large number of random test samples based on finite element simulations, showing that the equivalent mechanical parameters obtained from inverse design are highly consistent with the target parameters of the perfect acoustic cloak. For the HPM cloak design given by the trained deep generative model, the total scattering cross section (TSCS) is significantly reduced as compared to the case without a cloak, thereby demonstrating the effectiveness of the CVAE-based inverse design of acoustic cloak.

Topics & Concepts

CloakingInverseHoneycombAcousticsMathematicsInverse methodComputer sciencePhysicsApplied mathematicsMetamaterialGeometryOpticsAcoustic Wave Phenomena ResearchCellular and Composite StructuresMetamaterials and Metasurfaces Applications