Abstract
An audio decoder (200; 400) for providing a decoded audio information (220; 412) on the basis of an encoded audio information (210; 410). The audio decoder comprises an error concealment (240; 480; 600) configured to provide an error concealment audio information (242; 482; 612) for concealing a loss of an audio frame wherein the error concealment is configured to modify a time domain excitation signal (452 456; 610) obtained for one or more audio frames preceding a lost audio frame in order to obtain the error concealment audio information.
An audio decoder (200; 400) for providing a decoded audio information (220; 412) on the basis of an encoded audio information (210; 410). The audio decoder comprises an error concealment (240; 480; 600) configured to provide an error concealment audio information (242; 482; 612) for concealing a loss of an audio frame wherein the error concealment is configured to modify a time domain excitation signal (452 456; 610) obtained for one or more audio frames preceding a lost audio frame in order to obtain the error concealment audio information.
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| 4G,3G | 06/03/2016 | ISLD-201512-009 | FRAUNHOFER SOCIETY | No | Family Member | ||||
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Technologies
Signal Processing
Product
Use Cases
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Services
Claim
1. An audio decoder (200; 400) for providing a decoded audio information (220; 412) on the basis of an encoded audio information (210;410), the audio decoder comprising: an error concealment (240; 480; 600) configured to provide an error concealment audio information (242;482;612) for concealing a loss of an audio frame, wherein the error concealment is configured to modify a time domain excitation signal (452,456;610) obtained for one or more audio frames preceding a lost audio frame, in order to obtain the error concealment audio information.
2. The audio decoder according to claim 1 , wherein the error concealment is configured to modify a time domain excitation signal (452,456;610) derived from one or more audio frames encoded in frequency domain representation preceding a lost audio frame, in order to obtain the error concealment audio information.
3. The audio decoder (200;400) according to claim 1 or claim 2, wherein the error concealment (240;480;600) is configured to use one or more modified copies of the time domain excitation signal (452,456;610) obtained for one or more audio frames preceding a lost audio frame, in order to obtain the error concealment information (242;482;612).
4. The audio decoder (200;400) according to one of claims 1 to 3, wherein the error concealment (240;482;612) is configured to modify the time domain excitation signal (452,456;610) obtained for one or more audio frames preceding a lost audio frame, or one or more copies thereof, to thereby reduce a periodic component of the error concealment audio information (242;482;612) over time.
5. The audio decoder (200;400) according to one of claims 1 to 4, wherein the error concealment (240;480;600) is configured to scale the time domain excitation signal (452,456;610) obtained for one or more audio frames preceding the lost audio
frame, or one or more copies thereof, to thereby modify the time domain excitation signal.', 'The audio decoder (200;400) according to claim 4 or 5, wherein the error concealment (240;480;600) is configured to gradually reduce a gain applied to scale the time domain excitation signal (452,456;610) obtained for one or more audio frames preceding a lost audio frame, or the one or more copies thereof.', 'The audio decoder (200;400) according to one of claims 4 to 6, wherein the error concealment (240;480;600) is configured to adjust a speed used to gradually reduce a gain applied to scale the time domain excitation signal (452,456;610) obtained for one or more audio frames preceding a lost audio frame, or the one or more copies thereof, in dependence on one or more parameters of one or more audio frames preceding the lost audio frame, and/or in dependence on a number of consecutive lost audio frames.', 'The audio decoder (200;400) according to claim 6 or claim 7, wherein the error concealment (240;480;600) is configured to adjust the speed used to gradually reduce a gain applied to scale the time domain excitation signal (452,456;610) obtained for one or more audio frames preceding a lost audio frame, or the one or more copies thereof, in dependence on a length of a pitch period of the time domain excitation signal, such that a deterministic component of time domain excitation signal (672) input into an LPC synthesis (680) is faded out faster for signals having a shorter length of the pitch period when compared to signals having a larger length of the pitch period.', 'The audio decoder (200;400) according to one of claims 6 to 8, wherein the error concealment (240;480;600) is configured to adjust the speed used to gradually reduce a gain applied to scale the time domain excitation signal (452,456:610) obtained for one or more audio frames preceding a lost audio frame, or the one or more copies thereof, in dependence on a result of a pitch analysis or a pitch prediction. such that a deterministic component of the time domain excitation signal (572) input into an LPC synthesis (580) is faded out faster for signals having a larger
pitch change per time unit when compared to signals having a smaller pitch change per time unit, and/or such that a deterministic component of a time domain excitation signal (572) input into an LPC synthesis (580) is faded out faster for signals for which a pitch prediction fails when compared to signals for which the pitch prediction succeeds
10. The audio decoder (200;400) according to one of claims 1 to 9, wherein the error concealment (240;480;600) is configured to time-scale the time domain excitation signal (452,456;610) obtained on the basis of one or more audio frames preceding a lost audio frame, or the one or more copies thereof, in dependence on a prediction of a pitch for the time of the one or more lost audio frames.1. The audio decoder (200;400) according to one of claims 1 to 10, wherein the error concealment (240;480;600) is configured to obtain a time domain excitation signal', '(452,456;610), which has been used to decode one or more audio frames preceding the lost audio frame, and to modify said time domain excitation signal, which has been used to decode one or more audio frames preceding the lost audio frame, to obtain a modified time domain excitation signal (652, 672), and wherein the error concealment is configured to provide the error concealment audio information (242;482;612) on the basis of the modified time domain excitation (652,672) signal
12. The audio decoder (200;400) according to one of claims 1 to 1 1 , wherein the error concealment (240;480;600) is configured to obtain a pitch information, which has been used to decode one or more audio frames preceding the lost audio frame, and wherein the error concealment is configured to provide the error concealment audio information (242;482;612) in dependence on said pitch information
13. The audio decoder (200;400) according to claim 12, wherein the error concealment (240;480;600) is configured to obtain the pitch information on the basis of the time domain excitation signal derived from the audio frame encoded in the frequency domain representation preceding the lost audio frame
14. The audio decoder (200;400) according to claim 13, wherein the error concealment is configured to evaluate a cross correlation of the time domain excitation signal, to determine a coarse pitch information, and wherein the error concealment is configured to refine the coarse pitch information using a closed loop search around a pitch determined by the coarse pitch information
15. The audio decoder according to one of claims 1 to 14, wherein the error concealment is configured to obtain a pitch information on the basis of a side information of the encoded audio information
16. The audio decoder according to one of claims 1 to 15, wherein the error concealment is configured to obtain a pitch information on the basis of a pitch information available for a previously decoded audio frame
17. The audio decoder according to one of claims 1 to 16, wherein the error concealment is configured to obtain a pitch information on the basis of a pitch search performed on a time domain signal or on a residual signal
18. The audio decoder (200;400) according to one of claims 1 to 17, wherein the error concealment (240;480;600) is configured to obtain a set of linear prediction coefficients (462,466), which have been used to decode one or more audio frames preceding the lost audio frame, and wherein the error concealment is configured to provide the error concealment audio information (242;482;612) in dependence on said set of linear prediction coefficients
19. The audio decoder (200;400) according to claim 18, wherein the error concealment (240;480;600) is configured to extrapolate a new set of linear prediction coefficients on the basis of the set of linear prediction coefficients (462,466), which have been used to decode one or more audio frames preceding the lost audio frame, and
wherein the error concealment is configured to use the new set of linear prediction coefficients to provide the error concealment audio information (242;482;612).', 'The audio decoder (200;400) according to one of claims 1 to 19, wherein the error concealment (240;480;600) is configured to obtain an information about an intensity of a deterministic signal component in one or more audio frames preceding a lost audio frame, and wherein the error concealment is configured to compare the information about an intensity of a deterministic signal component in one or more audio frames preceding a lost audio frame with a threshold value, to decide whether to input a deterministic time domain excitation signal (652) with the addition of a noise like time domain excitation signal (662) into an LPC synthesis (680), or whether to input only a noise time domain excitation signal (662) into the LPC synthesis.', 'The audio decoder (200;400) according to one of claims 1 to 20, wherein the error concealment (240;480;600) is configured to obtain a pitch information describing a pitch of the audio frame preceding the lost audio frame, and to provide the error concealment audio information (242;482;612) in dependence on the pitch information.', 'The audio decoder (200;400) according to claim 21 , wherein the error concealment (240;480;600) is configured to obtain the pitch information on the basis of the time domain excitation (452,456;610) signal associated with the audio frame preceding the lost audio frame.', 'The audio decoder (200:400) according one of claims 1 to 22, wherein the error concealment (240:480:600) is configured to evaluate a cross correlation of the time domain excitation signal or of a time domain audio signal (452,456;610), to determine a coarse pitch information, and wherein the error concealment is configured to refine the coarse pitch information using a closed loop search around a pitch determined by the coarse pitch information.
24. The audio decoder (200;400) according to claim 22 or 23, wherein the error concealment (240;480;600) is configured to obtain the pitch information for the provision of the error concealment audio information (242;482;612) on the basis of a previously computed pitch information, which was used for a decoding of one or more audio frames preceding the lost audio frame, and on the basis of an evaluation of a cross correlation of the time domain excitation signal (252,256;610), which is modified in order to obtain a modified time domain excitation signal (652,672) for the provision of the error concealment audio information (242;482;612).
25. The audio decoder (200;400) according to claim 24, wherein the error concealment (240;480;600) is configured to select a peak of the cross correlation, out of a plurality of peaks of the cross correlation, as a peak representing a pitch in dependence on the previously computed pitch information, such that a peak is chosen which represents a pitch that is closest to the pitch represented by the previously computed pitch information.
26. The audio decoder (200;400) according to one of claims 1 to 25, wherein the error concealment (240;480;600) is configured to copy a pitch cycle of the time domain excitation signal (452,456;610) associated with the audio frame preceding the lost audio frame one time or multiple times, in order to obtain a excitation (672) signal for a synthesis (680) of the error concealment audio information (242;482;612).
27. The audio decoder (200;400) according to claim 26, wherein the error concealment (240;480;600) is configured to low-pass filter the pitch cycle of the time domain excitation signal (452,456;610) associated with the audio frame preceding the lost audio frame using a sampling-rate dependent filter, a bandwidth of which is dependent on a sampling rate of the audio frame encoded in a frequency domain representation.
28. The audio decoder (200;400) according to one of claims 1 to 27, wherein the error concealment (240;480;600) is configured to predict a pitch at the end of a lost frame, and wherein the error concealment is configured to adapt the time domain excitation signal, or one or more copies thereof, to the predicted pitch.
29. The audio decoder (200;400) according to one of claims 1 to 28, wherein the error concealment (240;480;600) is configured to combine an extrapolated time domain excitation signal (652) and a noise signal (662), in order to obtain an input signal (672) for a LPC synthesis (680), and wherein the error concealment is configured to perform the LPC synthesis, wherein the LPC synthesis is configured to filter the input signal of the LPC synthesis in dependence on linear-prediction-coding parameters (462,466), in order to obtain the error concealment audio information.
30. A method (1000) for providing a decoded audio information on the basis of an encoded audio information, the method comprising: providing (1010) an error concealment audio information for concealing a loss of an audio frame, wherein a time domain excitation signal obtained on the basis of one or more audio frames preceding a lost audio frame is modified in order to obtain the error concealment audio information.
31. A computer program for performing the method according to claim 30 when the computer program runs on a computer']
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