Simulation-validated generative design of acoustical arrays with diffusion and absorption

Abstract

This paper presents several new results for on-going efforts in combining computational design methods and acoustical needs. Past investigations employed rule-based design strategies that expanded upon current monolithic deployment of quadratic residue diffusers (QRD) in the field. The algorithm generated novel, and visually diverse arrays of N = 7 QRD panels. The arrays generated visually strayed from the typical appearance of QRD arrays; appearing more expressive as rules were applied. Furthermore, evaluation metrics including a visual complexity coefficient and 3-D polar plots from PML-FEM simulations provided visual evidence that a relationship exists between the appearance of an array and its corresponding acoustical response. Building on this previous work, representative arrays generated by the output of the algorithms with expanded parameters will be presented alongside updated evaluation metrics. The algorithm uses an expanded set of simulation-validated rules that include non-square grid configurations, multiple design frequencies, a varying number of wells, and incorporate zones of absorption. These new arrays, along with results and discussion of acoustical response to these rules, will be presented. Using these expanded parameters absorption, field of room acoustics design is opened up to wide-ranging visual design possibilities that are fully cooperative and incorporated with the acoustic response.