Lyrai:

At Lyrai, we utilize advanced LiDAR (Light Detection and Ranging) technology to capture the intricate details of architectural spaces. LiDAR uses laser pulses to create precise 3D maps of environments, allowing us to accurately model the physical structure of a venue. This high-resolution spatial data forms the foundation of our digital acoustic twins, ensuring that every surface, angle, and material is accounted for in our acoustic simulations.

LiDAR scanning is incredibly quick and generates dense, highly detailed data, making it an efficient way to map physical environments. However, recording audio measurements at a much lower resolution is a much more time-consuming process. At Lyrai, we have done the legwork in multiple venues, recording impulse responses every six cubic feet, in order to build a custom dataset, combining both detailed LiDAR scans and comprehensive acoustic measurements. This allows us to deliver the most accurate and immersive digital acoustic twins, saving clients time and providing an unparalleled level of insight into the acoustics of their spaces.

At Lyrai, we have done the legwork in multiple venues, recording impulse responses every six cubic feet, in order to build a custom dataset, Lyrai uses Bayesian AI to determine the optimal points for recording acoustic measurements, significantly reducing the time and effort required to create accurate digital twins. By analyzing spatial data from LiDAR scans, our Bayesian models identify the most informative locations for recording, allowing us to gather high-quality acoustic data with fewer measurements. This approach not only saves time and money but also ensures that our digital acoustic twins are precise and comprehensive, providing clients with the best possible foundation for their sound design needs.