Soundsource ed11/19/2023 While digital audio had been around for decades, it was not until the '90s that it started to mature, and it was only after the turn of the millennium that it began seriously penetrating sound reinforcement. Constellation was now officially launched. The system made a characteristically low-profile debut at the gala in Zellerbach Hall on and received enthusiastic responses. ![]() Meyer Sound had a long association with Zellerbach, and the timing was perfect, as Zellerbach faced an acoustical challenge in the variety of program material on the bill of their upcoming centennial gala. The first Constellation system was installed into Zellerbach Hall, on the University of California Berkeley campus. The result of this holistic upgrade was dubbed " Constellation" by Grammy-winning classical music recording and live sound engineer John Pellowe, who became involved in its development. The tuning process underwent transformation to increase its efficiency and methods. Meyer envisioned the next step for the technology as being that customers who purchase a system would receive a turnkey system, a complete package of design and tuning services from trained specialists in acoustics and digital audio, as well as hardware components designed specifically for the needs of electroacoustic architecture. When Meyer Sound acquired LCS Audio, VRAS was one of his strongest interests and a VRAS system had been installed in the company's Pearson Theatre. In addition, this information complements what computer vision can sense, as sound can include information about events that are not easily visible, such as sources that are small (e.g., insects), far away (e.g., a distant jackhammer), or simply hidden behind another object (e.g., an incoming ambulance around a building’s corner).The VRAS variable room acoustic system fascinated John Meyer, who saw much potential for its use in multipurpose venues. ![]() For ecologists, this technology can help them more accurately monitor and study wildlife. ![]() For city agencies, acoustic sensors will be able to more accurately quantify traffic, construction, and other activities in urban environments. For hearing impaired individuals, the developed technologies have the potential to alert them to dangerous situations in urban or domestic environments. ![]() smartphones, headphones, smart speakers, hearing-aids, home camera, and mixed-reality headsets. By not only identifying which sound sources are present but also estimating the spatial location and movement of each sound source, sound sensing technology will be able to better describe our environments with microphone-enabled everyday devices, e.g. This project will build innovative technologies to allow computers to extract this rich information out of sound. In addition, you will also likely be able to perceive the location of each sound source, where it’s going, and how fast it’s moving. If you stand on a city sidewalk with your eyes closed and listen, you will hear the sounds of events happening around you: birds chirping, squirrels scurrying, people talking, doors opening, an ambulance speeding, a truck idling. Sound is rich with information about the surrounding environment. Computational approaches for describing real-world spatial sound scenes
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