Download - MS Hard Case Pres
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THE HARD CASE
Small room acoustics
Magne SkålevikBrekke & Strand, Oslo, Norway
www.akutek.info
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The Hard Case
Cuboid room, dimensions given, take it or leave it
Hard walls
Hard floor
Soft material elements not wanted
Ceiling – the only possible absorbing surface
Sources with harmonic spectra
Speech, music, media playback, etc
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The Hard Case
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The Hard Case
Sound absorbing ceiling
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The Hard Case
Sound absorbing ceiling
Horizontal (tangential) modes untreated2-D reverberant field
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Disturbing speech response
ohEh?
Pitch fluctuation in various positions reveals uneven vowel response
Inherent pitch fluctuations (intonation) in speech
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Flutter-echo
He-he-he-he-
Flutter echo is a temporal feature of a complex mode, thus accompanied by tones
Lo-lo-lo-lo-
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Discriminating pitch response
Intonation can be HARD, since room-modes often are ”out-of-key”
Some notes (tones) are emphasised, others are not
Fast passages blurred out due to long tonal decays
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Hard Case fundamental modes
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Hard Case harmonic modes
f
1 2 3
ANY cuboid mode = the fundamental of a harmonic spectrum -> Pitch
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Periodic response, period T
dB dB
t(s) f(Hz)
Pulse train RT>>T Line spectrum
T 1/T
dB dB
t(s) f(Hz)
Decay 60dB per RTDf=2.2/RT
dB dB
t(s) f(Hz)
DF1/DF
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Periodic response measuredLine spectrum spacing 17Hz Reverberation phase spectrum
Pitch detection 17Hz (EAC) Flutter period T 1/17 s =59ms
Bandpass envelope 150-250Hz
200Hz
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Cuboid acoustic highlights
Any cubiod mode Fi,j,k defines a periodic response with period T=1/ Fi,j,k
Complex mode = the harmonic series of modes with fundamental frequency Fi,j,k = 1/T
Periodic room response can be perceived as Pitch response
Supported pitch (musical notes) are defined by the harmonic series 1/T, 2/T, ...
Flutter-echo of period T is the temporal percetion of a harmonic series with spectral spacing 1/T and at least two audible components
Audible effect above the Schroeder limit, too
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The Hard Case is very common
Many rooms are used for speech
Music may be less common, but more sensitive
Minimalistic interior styles
Carpets often unwanted or forbidden
Acoustic wall-treatment conflict with furniture, fixtures, aesthetics or economy
Cubiod geometry is encouraged by gravity and the tempting simplicity of right angles
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Hard Case Tonal Response Cuboids’ respond to the PITCH of vowels and musical tones
Human perception sensitive to pitch, pitch draws attention
Problem easy to perceive, but...
Hard to measure with blind methods
Hard to predict (slanted walls makes prediction harder)
Hard to avoid
Hard to accept
Hard to handle
Smallest dimension of hard treatment > l/4 It takes >50cm thickness to control response down to 170Hz (E3) Horizontal modes ignores ceiling absorbers
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Measurement case
Parallel walls 6.5m apart (26Hz)
One wall 28cm deep zig-zagshape (=l/4 at 300Hz )
Schroeder region above 125Hz
Disturbing voice response heard in the 150-300Hz range
...together with a flutter-echo
Hard to detect with blind measurement
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Measured voice response
Voice sweep
Line spectrum spacing 26Hz
Pitch detection 26Hz (EAC)
Spectrogram
300Hz
300Hz
Reverberation phase
Reverberation phase spectrum
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0,2
0,4
0,6
0,8
1
1,2
1,4
1,6
1,8
2
0 100 200 300 400 500 600
RT
(s)
frequency (Hz)
narrowband RT voice
broadband RT voice
Decays in 5.3Hz narrowband vs 1/3 oct broadband, RT(s)
Wall zig-zag depth > l/4
Narrowband decay deviates normal-distributed from broadband decay: s=26%
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Softening the Hard Case
Smallest dimension > l/4
Element density depends on wall-to-wall distance and RT requirement.
With walls distance D and scattering s=0.5, reverberation times RT> D/17 kan be acheived
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Conclusions
Hard case cuboids respond strongly and unevenly to speech and music, due to coinciding harmonic spectra
Walls should be treated with sound scattering elements
Obtainable RT’s depend on longest wall-to-wall distance D, and the scattering coefficient
RT’s down to D/17 can be obtained Treatment thickness > l/4 in problem range, e.g.
50cm at 170Hz Audibility is more than loudness; Tonal RT is
important
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Further work
Narrowband RT distribution to be investigated further
Lower limit of problem range remains to determine
Methods for predicting, measuring and assessing Tonal Response in rooms
Criteria for music and speech
More insight in horizontal 2D-acoustics
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www.akutek.info
Thank you
The www center for search, research and open sources in acoustics
More info?
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A semi-hard case
66m2 floor, 3.8m high, ceiling a=0.7
Schroeder region above 125Hz
3 walls with average alfa=0.25
Hard Zig-zag wall deviates from by 28cm (=l/4 at 300Hz )
wall to wall distance 6.5m (mode=26Hz)
Prolonged narrowband RT’s are heard in the 150-300Hz range
...together with a flutter-echo
Plan view
a=0.25
a=0.25
a=0.25 a=0.05