masking and its type

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Masking and its Types by Kavindra krishna Research Scholar AMU Department of Electronics Engineering 1

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Page 1: Masking and its type

Masking and its Types

by

Kavindra krishna

Research Scholar

AMU

Department of Electronics Engineering

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Page 2: Masking and its type

Topics

• What is Masking

• Types of Masking

• Some special definition used in Masking

• Measuring of Masking curves

• Model for spreading of Masking

• Summary

• Refrences

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Page 3: Masking and its type

What is Masking

• It is a process to make, weaker signal inaudible, in the presence of louder signal.[7]

Louder signal = Masker

Weaker signal = Maskee

• Also we can say that-Masking of soft sound by louder ones.[7]

• Masking basically a part of our everyday experience.[7]

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Page 4: Masking and its type

Example of Masking

• Suppose that, if we are engaged in a conversation while walking on the street, we typically cease conversation when a loud truck passes, since we are not able to hear speech over the truck noise.

this can be seen as an example of masking. Here-

Truck sound = Masker

Conversation = Maskee

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Page 5: Masking and its type

Types of Masking

• Two types of Masking[7,5]

– Simultaneous Masking

• Also called as frequency masking

– Non-simultaneous Masking

• Also called as temporal masking

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Page 6: Masking and its type

Simultaneous Masking

• When both masker and maskee occurs at ,same time/close in frequency, and it is no longer possible to hear the normally audible maskee, then this phenomenon is called simultaneous or frequency masking.[5]

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Page 7: Masking and its type

Temporal Masking

• Also called it as,Non-simultaneous masking

• Because the masker and maskee sound are not present simultaneously.[4,5,7]

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Page 8: Masking and its type

Temporal Masking(Con’d)

• Example

– If we hear a very loud sound then it stops and our ear feel a little time gap , to hear a near by soft tone.

– Such as thunder sound.

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Page 9: Masking and its type

Temporal Masking(Con’d)

• Generally two types of temporal masking.

1) Pre masking

2) Post masking

• Pre masking takes place before the on-set of the masker.

• Post masking takes place after the masker is removed. 9

Page 10: Masking and its type

Pre masking

• Pre-masking is some what an unexpected phenomenon since it takes place before the masker is switched on.

• Basically an important issue in the design of perceptual audio codecs because of reducing the effect of pre-eco or pre-noise.

• This effect taken into consideration when dealing with design of audio coding system, in terms of psychoacoustic model and analysis/synthesis signal adaptive filter design.

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Page 11: Masking and its type

Post Masking

• Well defined and not an unexpected phenomenon. • Post masking is a clear cut example of temporal

masking.

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Page 12: Masking and its type

Some Special Definition

S tore lots of lo vely

1) SNR-Signal to Noise ratio

2) SMR-Signal to Masking Th.ratio

3) NMR-Noise to Masking Th.ratio

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Page 13: Masking and its type

Measuring of Masking Curves

• Basically of 3 types of masking curve measurement :

1) Narrow band noise Masking Tone(NMT).

2) Tone Masking Tone(TMT).

3) Narrow band Noise or Tone Masking Narrow band Noise(TMN).

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Page 14: Masking and its type

1) Narrow band noise masking tone Masker = Narrow band Noise

Maskee = Tone

• Narrow band means signal bandwidth is less than or equal to bandwidth of critical band(CB).

• The masking Th.for narrow band noise centred at 1kHz is shown for different masker SPL’s-[05]

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Page 15: Masking and its type

NMT(Con’d)

Observation :-

1) At frequency lower than the masker , each of the measured masking curve has a very steep slope(that seems to be independent of the masker SPL ).

2) But at the same, if we see towards higher frequency than slope gets shallower but under the condition is that if masking level is increases.

3) Minimum SMR 3dB , stay constant around for all levels.[5,1,6]

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Page 16: Masking and its type

2) Tone Masking Tone(TMT)

Masker = Tone

Maskee = Tone

• The masking Th.for tone centred at 1kHz is shown for different masker SPL’s-[05]

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Page 17: Masking and its type

TMT(Con’d) Observation :-

1) greater spreading of masking curves towards lower frequency than higher frequency, when masking level is low (at maximum SPL = 50dB).

2) The situation gets reversed , when we increases the masking level (greater than 50dB) means greater spreading towards high frequency.

3) Minimum SMR 15dB , it is larger than, in the experiment of NMT

so implication seems to be that, Noise is a better masker than tone .[2][1][6][5]

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Page 18: Masking and its type

TMT(Con’d) • This concept is known as Asymmetry of Masking.[5]

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Page 19: Masking and its type

3) Narrow band noise or Tone Masking Narrow band noise(TMN)

Masker = Narrow band Noise/Tone Maskee = Narrow band Noise

• According to Hall[03], if masker is wide band noise,then minimum SMR of about 26dB.

• According to Early & Zwicker[04] suggest that,the minimum SMR level in between 20-30dB,if masker signal is Narrow band Noise/Tone masked the Narrow band Noise.

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Page 20: Masking and its type

Model of Spreading of Masking

• Spreading of masking , determines the shape of masking pattern of a masker to the lower frequency and to the higher frequency of the masker.

• These spreading/curves are much simpler, when describe on Bark-scale.

bark scale converts the non-linear scale into

Linear scale.

• The very first model for spreading function(SF(Δz)), is

proposed by schroder[119]-

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Page 21: Masking and its type

Model of Spreading of Masking

where

= difference in bark scale between masker &

maskee.

• The beauty of this model is,it is independent of masker level (LM ).

• The 2nd spreading function (SF(Δz)) is known as MODEL-2[53],proposed by ISO/IEC.

this is basically derived from schroeder spreading function.

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Page 22: Masking and its type

Model of Spreading of Masking

• The 3rd spreading function (SF(Δz)) is known as MODEL-1[53],proposed by ISO/IEC.

This model depend upon masker level (LM).

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Page 23: Masking and its type

Model of Spreading of Masking • The figure shown below shows the comparison of

three spreading functions.

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Summary • In this talk, the Masking has been discussed including

two types of masking, i.e. simultaneous and temporal masking, have been reviewed. Two masker types have been described in case of simultaneous masking, including narrow-band noise and pure tone maskers. Moreover, several models of the spreading of masking have been examined.

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Page 25: Masking and its type

References [1] B. Moore, J. Alcantara, and T. Dau, “Masking patterns for sinusoidal and narrowband noise maskers,” Journal of the Acoustical Society of America, vol. 104, pp. 1023–1038, August 1998. 19

[2] J. Alcantara, B. Moore, and D. Vickers, “The relative role of beats and combination tones in determining the

shapes of masking patterns at 2 kHz: I. Normal-hearing listeners,” Hearing Research, vol. 148, pp. 63–73, October 2000. 09.

[3] J. Hall, “Auditory Psychophysics for Coding Applications,” in The Digital Signal Processing Handbook (V. M. Williams and D., eds.), pp. 39.1–39.25, CRC Press, 1998. 21

[4] M. R. Schroeder, B. S. Atal, and J. L. Hall, “Optimizing digital speech coders by exploiting masking properties of the human ear,” Journal of Acoustic Society of America, vol. 66, pp. 1647–1652, December 1979. 1, 21, 118

[5] E. Zwicker and H. Fastl, Psychoacoutics: Facts and Models. Berlin, Germany: Springer-Verlag, 1999. vii, xii, 2, 16, 17, 18, 19, 20, 21, 26, 128, 141

[6] B. C. J. Moore, An Introduction to the Psychology of Hearing 5th Edition. Academic Press, 2003. vii, 2, 11, 12, 14, 17, 19, 21, 24, 25, 58, 128.

[7] Wia.C.Chu, Speech coding algorithm : foundation and evoluation of standardized coders 5th Edition. Academic Press, 2003. vii, 21,22,23, 24, 25,26,27,28, 58, 128.

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References [8] ISO/IEC/JTC1, “IS11172-3 (MPEG-1), Coding of moving pictures and associated audio for digital storage media at up to about 1.5 Mbit/s, Part 3: Audio,” ISO/IEC, 1991. 2, 21, 22, 36, 41, 42, 58, 64, 80, 83.

[9] M. R. Schroeder, B. S. Atal, and J. L. Hall, “Optimizing digital speech coders by exploiting masking properties

of the human ear,” Journal of Acoustic Society of America, vol. 66, pp. 1647–1652, December 1979. 1, 21, 118.

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Page 27: Masking and its type

Thank-You

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