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Audio processing methods on marine mammal vocalizations Xanadu Halkias Laboratory for the Recognition and Organization of Speech and Audio

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Presentation on theme: "Audio processing methods on marine mammal vocalizations Xanadu Halkias Laboratory for the Recognition and Organization of Speech and Audio"— Presentation transcript:

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2 Audio processing methods on marine mammal vocalizations Xanadu Halkias Laboratory for the Recognition and Organization of Speech and Audio http://labrosa.ee.columbia.edu

3 Xanadu Halkias-www.ee.columbia.edu/~xanadu2 Sound to Signal sound is pressure variation of the medium (e.g. speech air pressure, marine mammals water pressure) Pressure waves in water Converting waves to voltage through a microphone Time varying voltage

4 Xanadu Halkias-www.ee.columbia.edu/~xanadu3 Analog to digital sampling quantizing + = digital signal

5 Xanadu Halkias-www.ee.columbia.edu/~xanadu4 Time to frequency and back… Fourier transform=decompose a signal as a sum of sinusoids and cosines Digital signalFourier spectrum Spectrum = the frequency content of the signal (energy/frequency band)

6 Xanadu Halkias-www.ee.columbia.edu/~xanadu5 Back to sampling… Sampling needs to obey the Nyquist limit: Ω Τ  2Ω Μ Signal has to be bandlimited eg. energy up to some frequency Ω Μ Audio is sampled at Ω Τ =2π44100Hz so spectrum has up to 22050Hz

7 Xanadu Halkias-www.ee.columbia.edu/~xanadu6 Looking at sounds-The Spectrogram Looking at energy in time and frequency

8 Xanadu Halkias-www.ee.columbia.edu/~xanadu7 More on spectrograms

9 Xanadu Halkias-www.ee.columbia.edu/~xanadu8 Overview of marine mammal research

10 Xanadu Halkias-www.ee.columbia.edu/~xanadu9 Call detection Detect different calls within the recording automatically Differentiate between species or identify the number of marine mammals in the region through overlapping of calls Tracking marine mammals through their calls Use calls to analyze and construct a possible language structure What is it good for… Problems Data, data, data…

11 Xanadu Halkias-www.ee.columbia.edu/~xanadu10 Call detection approaches Noise is the biggest problem D. K. Mellinger et all use the cross-correlation approach Cross-correlation is a way of measuring how similar two signals are

12 Xanadu Halkias-www.ee.columbia.edu/~xanadu11 Call detection-kernel cross- correlation This method requires manual interference and is performed on the signal waveform Image obtained by D. K. Mellinger and C. W. Clark. "Methods for automatic detection of mysticete sounds", Mar. Fresh. Behav. Physiol. Vol. 29, pp. 163-181, 1997

13 Xanadu Halkias-www.ee.columbia.edu/~xanadu12 Call detection-spectrogram correlation Image obtained by D. K. Mellinger and C. W. Clark. "Methods for automatic detection of mysticete sounds", Mar. Fresh. Behav. Physiol. Vol. 29, pp. 163-181, 1997

14 Xanadu Halkias-www.ee.columbia.edu/~xanadu13 “Voiced” calls Energy appears in multiples of some frequency (=pitch)

15 Xanadu Halkias-www.ee.columbia.edu/~xanadu14 Comments Both methods require manual measurements for the construction of the template The quality of the results depends highly on the noise present in the data Quality recordings at high sampling rates decide the course of action Correlation methods can’t capture all types of calls without constructing different kernels

16 Xanadu Halkias-www.ee.columbia.edu/~xanadu15 Linear Predictive Coding Idea: the signal, x[n], is formed by adding white noise, e[n], to previous samples weighted by the linear predictive coefficients, a X[z]E[z] 1/A[z] The number of coefficients defines the detail that we capture of the original signal

17 Xanadu Halkias-www.ee.columbia.edu/~xanadu16 Linear Predictive Coding Used in speech for transmission purposes Intuition: LPCs model the spectral peaks of your signal

18 Xanadu Halkias-www.ee.columbia.edu/~xanadu17 LPCs in marine mammal recordings Model the peaks in the recordings that likely belong to calls that way we alleviate the problem of noise Unveils harmonic structure not visible in original spectrogram

19 Xanadu Halkias-www.ee.columbia.edu/~xanadu18 Hidden Markov Models Machine learning involves training a general model based on your data in order to extract and predict desired features HMMs, M j are defined by:

20 Xanadu Halkias-www.ee.columbia.edu/~xanadu19 HMMs some more… Training: getting the parameters of the model, a, b, π Evaluating: we are given a sequence of states we want to know if the model produced them Decoding: we have some observations and we want to find out the hidden states

21 Xanadu Halkias-www.ee.columbia.edu/~xanadu20 HMMs in marine mammal vocalizations HMMs could provide a call detection tool The data has to be workable Use frequencies of the spectrogram as hidden states Observe the spectrogram and use it for learning Tracking the call in the spectrogram

22 Xanadu Halkias-www.ee.columbia.edu/~xanadu21 References D. P. Ellis www.ee.columbia.edu/~dpwe/e6820 www.ee.columbia.edu/~dpwe/e4810 D. K. Mellinger and C. W. Clark. "Methods for automatic detection of mysticete sounds", Mar. Fresh. Behav. Physiol. Vol. 29, pp. 163-181, 1997 R. O. Duda, P. E. Hart, D. G. Stork. Pattern Classification, John Wiley & sons, inc. 2001

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