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Nombre de programmes trouvés : 4858
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le (4m55s)

Relative transfer function

Part 2 : Methodological Foundations2.1. Robot heads and acoustic laboratories     2.2. Binaural Processing Pipeline     2.3. Continuous-time Fourier transform     2.4. Continuous short-time Fourier transform     2.5. Discrete-time signals     2.6. Discrete short-time Fourier transform     2.7. Spectrogram of an acoustic signal     2.8. Cross-correlation     2.9. Relative transfer function     2.10. Binaural features
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le (4m37s)

Time difference of arrival (TDOA)

Part 3 : Sound-Source Localization3.1. Time difference of arrival (TDOA)3.2. Estimation of TDOA by cross-correlation3.3. Estimation of TDOA in the spectral domain3.4. The geometry of two microphones3.5. Direction of arrival3.6. Using more than two microphones3.7. Embedding the microphones in a robot head3.8. Learning a sound propagation model3.9. Predicting direction of a sound with a robot head3.10. Example of sound direction estimation
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le (4m21s)

Estimation of TDOA by cross-correlation

Part 3 : Sound-Source Localization3.1. Time difference of arrival (TDOA)3.2. Estimation of TDOA by cross-correlation3.3. Estimation of TDOA in the spectral domain3.4. The geometry of two microphones3.5. Direction of arrival3.6. Using more than two microphones3.7. Embedding the microphones in a robot head3.8. Learning a sound propagation model3.9. Predicting direction of a sound with a robot head3.10. Example of sound direction estimation
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le (4m32s)

Estimation of TDOA in the spectral domain

Part 3 : Sound-Source Localization3.1. Time difference of arrival (TDOA)3.2. Estimation of TDOA by cross-correlation3.3. Estimation of TDOA in the spectral domain3.4. The geometry of two microphones3.5. Direction of arrival3.6. Using more than two microphones3.7. Embedding the microphones in a robot head3.8. Learning a sound propagation model3.9. Predicting direction of a sound with a robot head3.10. Example of sound direction estimation
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le (4m21s)

The geometry of two microphones

Part 3 : Sound-Source Localization3.1. Time difference of arrival (TDOA)3.2. Estimation of TDOA by cross-correlation3.3. Estimation of TDOA in the spectral domain3.4. The geometry of two microphones3.5. Direction of arrival3.6. Using more than two microphones3.7. Embedding the microphones in a robot head3.8. Learning a sound propagation model3.9. Predicting direction of a sound with a robot head3.10. Example of sound direction estimation
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le (3m0s)

Direction of arrival

Part 3 : Sound-Source Localization3.1. Time difference of arrival (TDOA)3.2. Estimation of TDOA by cross-correlation3.3. Estimation of TDOA in the spectral domain3.4. The geometry of two microphones3.5. Direction of arrival3.6. Using more than two microphones3.7. Embedding the microphones in a robot head3.8. Learning a sound propagation model3.9. Predicting direction of a sound with a robot head3.10. Example of sound direction estimation
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le (4m59s)

Using more than two microphones

Part 3 : Sound-Source Localization3.1. Time difference of arrival (TDOA)3.2. Estimation of TDOA by cross-correlation3.3. Estimation of TDOA in the spectral domain3.4. The geometry of two microphones3.5. Direction of arrival3.6. Using more than two microphones3.7. Embedding the microphones in a robot head3.8. Learning a sound propagation model3.9. Predicting direction of a sound with a robot head3.10. Example of sound direction estimation
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le (4m8s)

Embedding the microphones in a robot head

Part 3 : Sound-Source Localization3.1. Time difference of arrival (TDOA)3.2. Estimation of TDOA by cross-correlation3.3. Estimation of TDOA in the spectral domain3.4. The geometry of two microphones3.5. Direction of arrival3.6. Using more than two microphones3.7. Embedding the microphones in a robot head3.8. Learning a sound propagation model3.9. Predicting direction of a sound with a robot head3.10. Example of sound direction estimation
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le (4m7s)

Learning a sound propagation model

Part 3 : Sound-Source Localization3.1. Time difference of arrival (TDOA)3.2. Estimation of TDOA by cross-correlation3.3. Estimation of TDOA in the spectral domain3.4. The geometry of two microphones3.5. Direction of arrival3.6. Using more than two microphones3.7. Embedding the microphones in a robot head3.8. Learning a sound propagation model3.9. Predicting direction of a sound with a robot head3.10. Example of sound direction estimation
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le (5m55s)

Predicting direction of a sound with a robot head

Part 3 : Sound-Source Localization3.1. Time difference of arrival (TDOA)3.2. Estimation of TDOA by cross-correlation3.3. Estimation of TDOA in the spectral domain3.4. The geometry of two microphones3.5. Direction of arrival3.6. Using more than two microphones3.7. Embedding the microphones in a robot head3.8. Learning a sound propagation model3.9. Predicting direction of a sound with a robot head3.10. Example of sound direction estimation
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