Velocity controlled sound field reproduction by non-uniformly spaced loudspeakers

Shin, Mincheol; Nelson, P.A.; Fazi, Filippo Maria; Seo, Jeongil

doi:10.1016/j.jsv.2016.02.002

Cited by 22 publications

(24 citation statements)

References 13 publications

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“…When loudspeakers, as electronic devices, are distributed evenly and sufficiently, the particular reproduction of the pressure field on the bounding surface of the control volume clearly provides an effective method of reproduction. Most of similar findings have analyzed many hybrid factors technically (Poletti, 2011;Shin et al, 2016;Zhao et al, 2017) or for small or non-vertical spaces (Spaeth, 2015;Iswati, 2016;Lu et al, 2016;Shih et al, 2016;). However, there were no specific results of them related to the requirements for architectural acoustics, especially for vertical mezzanines.…”

Section: Introductionmentioning

confidence: 94%

Optimization of Architectural Electroacoustics Design for the Interior Mezzanines of Vertical Buildings

Samodra¹

2018

IJTech

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The science that deals with the transformation of electrical energy into acoustic energy or vice versa, electroacoustics, generates an increased intensity and loudness of sound by mechanical and/or electrical means. It should be designed simultaneously with the consideration of room acoustics. A vertical building is usually designed separately from the architectural aspect and other technical considerations. An interior mezzanine has unique sound propagating characteristics because its balconies could be an element of the room acoustic reflectors and absorbers, shelters from noise and barriers to sound propagation. For optimum music and speech activities, a hybrid active design strategy using electroacoustics combined with a passive method is used. This research optimizes the room acoustic criteria of different building models as building systems integrated with loudspeakers. Ecotect Analysis and additional audio programming determine the overall process by simulating all potential variables. The results show that 5 m is the recommended minimum distance of column-loudspeaker placement for mezzanine floors. With the same loudspeaker power and frequency specifications, the vertical structure, as the armature of electroacoustic orientation, and the interior materials are the most critical variables in determining reverberation time optimization.

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Section: Introductionmentioning

confidence: 94%

Optimization of Architectural Electroacoustics Design for the Interior Mezzanines of Vertical Buildings

Samodra¹

2018

IJTech

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“…Sound pressure [5]

p false(r, ξ false)

and particle velocity [6]

u false(r, ξ false)

at the receiving point

r = false(r_{x}, r_{y}, r_{z} false)

produced by a point source locating at

ξ = false(ξ_{x}, ξ_{y}, ξ_{z} false)

are, respectively,

p false(r, ξ false) = \frac{e^{i k falsefalse| r - ξ falsefalse|}}{4 π falsefalse| r - ξ falsefalse|} s (bold-italicξ) \overset{def}{=} d (bold-italicr, bold-italicξ) s (bold-italicξ)

\begin{matrix} right leftthickmathspace.5em \\ u (bold-italicr, bold-italicξ) & = (1 + \frac{1}{i k | bold-italicr - bold-italicξ |}) \frac{i k e^{- i k | bold-italicr - bold-italicξ |}}{4 π | bold-italicr - bold-italicξ {falsefalse|}^{2}} ()(, \begin{matrix} 1em4pt \\ r_{x} - ξ_{x} \\ r_{y} - ξ_{y} \\ r_{z} - ξ_{z} \end{matrix}) \end{matrix}

…”

Section: Definitionmentioning

confidence: 99%

mentioning

confidence: 99%

“…Pressure matching in a same zone method (PMSZ) [4,5] and particle velocity matching in a same zone method (PVMSZ) [6] matches sound pressure or particle velocity in a same zone between original system and reproduced system respectively. Though tests are only made in central zone sound field reproduction in [4][5][6], PMSZ and PVMSZ could be used for non-central zone sound field reproduction from their theories. But PMSZ and PVMSZ have following theoretical defects: (1) in non-central zone sound field reproduction, the best case is that a noncentral zone of original sound field is recovered, whose listening experience is worse than the listening experience in the central zone of original system; (2) sound pressure and particle velocity are two main factors to describe sound [7], but PMSZ and PVMSZ just maintain one of them.…”

mentioning

confidence: 99%

“…Definition: Sound pressure [5] p(r, j) and particle velocity [6] u(r, j) at the receiving point r = (r x , r y , r z ) produced by a point source locating at…”

mentioning

confidence: 99%

See 2 more Smart Citations

3D sound field reproduction in arbitrary listening zone for multichannel system

Wang

Chen

et al. 2016

Electron. lett.

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22.2 system and its simplified systems could only perfectly reproduce 3D sound field at the central listening point, but listeners may not always stay at the central listening point. Existing non-central zone sound field reproduction methods are of theoretical defects. To solve this problem, this paper proposes a universal arbitrary listening zone sound field reproduction method basing on sound physical property, experimental results prove that it performs better than traditional methods.

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3D Sound Field Reproduction at Non Central Point for NHK 22.2 System

Wang

Chen

et al. 2016

MultiMedia Modeling

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Velocity controlled sound field reproduction by non-uniformly spaced loudspeakers

Cited by 22 publications

References 13 publications

Optimization of Architectural Electroacoustics Design for the Interior Mezzanines of Vertical Buildings

Optimization of Architectural Electroacoustics Design for the Interior Mezzanines of Vertical Buildings

3D sound field reproduction in arbitrary listening zone for multichannel system

3D Sound Field Reproduction at Non Central Point for NHK 22.2 System

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