3-D Sound and Spatial Audio MUS_TECH 348. Multi-Loudspeaker Reproduction: Surround Sound.

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3-D Sound and Spatial Audio MUS_TECH 348

Multi-Loudspeaker Reproduction: Surround Sound

Understanding Dialog? L R Yes No Delay causes echo- like disturbance Stereo film Multi-loudspeaker Reproduction Experience with stereo sound for film revealed that the intelligibility of dialog range from good to bad across seating positions.

L R Center Channel Understanding Dialog? C Dialog Music / effects Yes Multi-loudspeaker Reproduction A center channel for dialog provides intelligible speech for all seats even it the dialog doesn’t shift right or left with the movement of the character on the screen. Music and sound effects are able to utilize the left and right channels without problems.

Dolby Surround Sound (Dolby ProLogic) first surround system standard L R C S S S S S S S S S S S S S Multi-loudspeaker Reproduction Surround Sound 4 : 2: 4 Encode / Decode Authored in 4 channels Encoded on film or video in 2 channels Can be reproduced in 4 channels

S S S S SS S S S S S S Surround Channel? Despite the name, a single channel surround didn’t produce diffuse soundfield! Multi-loudspeaker Reproduction

Home Theater Version L C R S S Why center channel? Surrounds still don’t work! Sizing of sound vs. picture! Multi-loudspeaker Reproduction

Dolby AC-3 / Dolby Digital second dominate surround standard L R C S1 S2 SW S1 (Subwoofer is low-frequency only) 5.1 channels Multi-loudspeaker Reproduction

Two surround channels can produce a diffuse field! L R C S1 S2 SW S1 Much better for Home Theater too! Multi-loudspeaker Reproduction

5.1 has become an audio standard desktop computer / entertainment music forced along! How does one reproduce 5.1 source material over headphones or stereo loudspeakers? Multi-loudspeaker Reproduction

5.1 Reproduction Settings Beyond the Theater L ( C ) R SL SR Home Theater Systems (SW) Multi-loudspeaker Reproduction Desktop Systems: Reproduction can be limited to four loudspeakers Virtual loudspeakers provide a bridge to headphone and stereo loudspeaker reproduction.

How well does localization work in 5.1? Multi-loudspeaker Reproduction “Sound Source Localization in a Five-Channel Surround Sound Reporduction System” Martin, Woszczyk, Corey and Quesnal (1999) Phantom image direction evaluated for a home surround sound system. Both amplitude differences and time delays between adjacent pairs of loudspeakers are evaluated. Listener is in the sweet spot.

Front pairs of adjacent loudspeakers. Multi-loudspeaker Reproduction The range of responses is contained within the whiskers. The box contains the 50th percentile. The median is indicated within the box. Angles for both pairs of front loudspeakers are collapsed onto one range from 0- to 35- degrees.

Front pairs of adjacent loudspeakers. Multi-loudspeaker Reproduction Using interchannel time difference!

Remember localization blur! Multi-loudspeaker Reproduction

Side pair of adjacent loudspeakers. Multi-loudspeaker Reproduction Angles for both sets of side loudspeakers are collapsed onto one range from 20- to 130-degrees.

Side pair of adjacent loudspeakers. Multi-loudspeaker Reproduction Angles for both sets of side loudspeakers are collapsed onto one range from 20- to 130-degrees. Also, produced timbral coloration due to combing

Rear pair of adjacent loudspeakers. Multi-loudspeaker Reproduction Angles for rear loudspeakers are in the range from 80- to 280-degrees. Also, rear images appeared closer to the head both with amplitude and time differences.

Rear pair of adjacent loudspeakers. Multi-loudspeaker Reproduction Angles for rear loudspeakers are in the range from 80- to 280-degrees.