Proceedings Article10.1109/ASPAA.2005.1540211
Packet loss concealment in predictive audio coding
S. Wabnik,Gerald Schuller,Jens Hirschfeld,Ulrich Kraemer +3 more
- 21 Nov 2005
- pp 227-230
TL;DR: The result is that an adaptive reconstruction filter works best in this context of a low delay predictive audio coder to reconstruct an audio signal such that distortions are least objectionable.
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Abstract: In this paper we present and evaluate several concealment strategies for packet losses in the context of a low delay predictive audio coder. Our goal is to minimize the audible impact of a packet loss. The problem is that the predictive coder is backward adaptive, hence depending on past values. There is a predictor reset, but to increase coding efficiency, the distance between two resets is several hundred packets. Hence, not only the lost packet itself cannot be reconstructed, but the transmitted data up to the next reset does not result in an exact reconstruction of the audio signal. Our approach is to try to use as much information as possible from the still available data until the next reset, and to reconstruct an audio signal such that distortions are least objectionable. To compare different approaches, we conducted a listening test. The result is that an adaptive reconstruction filter works best in this context.
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Citations
A High-Quality Speech and Audio Codec With Less Than 10-ms Delay
TL;DR: This work proposes a codec that simultaneously addresses both high quality and low delay, with a delay of only 8.7 ms at 44.1 kHz, and uses gain-shape algebraic vector quantization in the frequency domain with time-domain pitch prediction.
A full-bandwidth audio codec with low complexity and very low delay
Jean-Marc Valin,Timothy B. Terriberry,Gregory Maxwell +2 more
- 24 Aug 2009
TL;DR: In this article, the authors proposed an audio codec based on the modified discrete cosine transform (MDCT) with very short frames and uses gain-shape quantization to preserve the spectral envelope.
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A Full-Bandwidth Audio Codec With Low Complexity And Very Low Delay
TL;DR: The proposed audio codec is based on the modified discrete cosine transform with very short frames and uses gain-shape quantization to preserve the spectral envelope and out-performs the ULD codec operating at the same rate.
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Packet Loss Concealment for Multichannel Audio Using the Multiband Source/Filter Model
Kiki Karadimou,Athanasios Mouchtaris,Panagiotis Tsakalides +2 more
- 01 Oct 2006
TL;DR: This work examines packet loss concealment strategies for use within their model, so that they can derive a complete system for low-bitrate multichannel audio streaming through the Internet or wireless channels.
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A survey of packet loss recovery techniques for streaming audio
TL;DR: A number of packet loss recovery techniques for streaming audio applications operating using IP multicast, and a series of recommendations for repair schemes to be used based on application requirements and network conditions are made.
Adaptive recovery techniques for real-time audio streams
Wen-Tsai Liao,Jeng-Chun Chen,Ming-Syan Chen +2 more
- 22 Apr 2001
TL;DR: This work develops a recovery method, called DSPWR (Double Sided Pitch Waveform Replication), which is able to tolerate a much higher packet loss rate and develops an adaptive mechanism that can select the recovery method with the minimal complexity in accordance with different packet loss rates encountered.
•Journal Article
Error Concealment for Compressed Digital Audio
37
Low delay audio compression using predictive coding
Gerald Schuller,Aki Hanna +1 more
- 13 May 2002
TL;DR: A low delay audio coding scheme for communications applications is proposed that is comparable to current state-of-the-art audio coding schemes, but with a much lower delay.
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