|
The San Francisco chapter held its April meeting at Dolby Laboratories. Thirty-seven people met to hear Dr. Mei Wu, principal of Mei Wu Acoustics, give a presentation on speech intelligibility. The goal of speech intelligibility research is to understand how physical environments influence people’s ability to communicate and to predict speech intelligibility of spaces. Wu outlined the evolution of four standards over the past four decades: Speech Interference Level (SIL), Articulation Index (AI), Speech Intelligibility Index (SII), and Speech Transmission Index (STI). STI measurements make use of a modulation transfer function in which the human voice is characterized by 7 bands of frequencies from 125 Hz to 8 kHz that are modulated in a range of 0.63 Hz to 12.5 Hz. The STI value reveals the depth of modulation. That is, if no noise or reverberation alters the sound, then the speech intelligibility is considered excellent at 1.0. As distortion reduces the depth of modulation, falling STI scores reflect lower speech intelligibility. An STI value of 0 indicates that the communication is totally unintelligible. Because early speech intelligibility assessment involved time-consuming human listening tests and manual calculations, technology has been developed to automate the measuring process. The first of these was a meter made by Brüel & Kjær in 1985. The current test procedure makes use of a CD containing synthetic voice sounds played through a 3 inch speaker. A meter positioned in various locations in the space is used to measure the STI. Wu’s case studies involving teleconference rooms and operating/observation rooms have led to following guidelines:
Thomas Merklein |
|
|