OCF (Optimum Coding in the Frequency domain) allows coding of high quality audio signals to 64 kbit/sec. (1.45 bit/sample at 44.1 kHz sampling frequency). Main advantages of OCF are: (1) only a single DSP is needed for decoding; (2) flexible selection of quality (masking threshold) and bit rate is possible. The same decoder can be used to decode 64 kbit/sec. hifi or 128 kbit/sec. studio quality signals. (AIS-A
An Analysis/Synthesis Audio Codec (ASAC) is presented, which allows the coding of audio signals at v...
Since 1988 ISO/IEC JTCI/SC29 WG11 (MPEG) is working on the standardization of video and audio signal...
The ISO/IEC MPEG-2 advanced audio coding (AAC) system was designed to provide MPEG-2 with the best a...
With recent developments in coding technology it has become feasible to employ 64 kbit/s channels fo...
Low bit rate coding schemes for coding high quality digital audio at bit rates of 64 to 128 kbit/sec...
First work on ASIC realization of the decoder for OCF (optimum coding in the frequency domain) has b...
MPEG Audio is more and more becoming the "do-it-all"system for applications in speech and audio codi...
The Low Complexity Adaptive Transform Coding (LC-ATC)- and the Optimum Coding in the Frequency Domai...
For real-time as well as off-line transmission of high quality audio signals over the Internet, the ...
Digital sound broadcasting systems are always in need for better bandwidth efficiency. The recently ...
Perceptual encoding of high-quality audio has found its way to many applications including digital r...
Perceptual encoding of high quality audio has found its way to many applications including digital r...
In recent years, audio coding has proved to be of great importance for applications such as mobile c...
This paper introduces high-quality audio coding using psychoacoustic models. This technology is now ...
This paper introduces high-quality audio coding using psychoacoustic models. This technology is now ...
An Analysis/Synthesis Audio Codec (ASAC) is presented, which allows the coding of audio signals at v...
Since 1988 ISO/IEC JTCI/SC29 WG11 (MPEG) is working on the standardization of video and audio signal...
The ISO/IEC MPEG-2 advanced audio coding (AAC) system was designed to provide MPEG-2 with the best a...
With recent developments in coding technology it has become feasible to employ 64 kbit/s channels fo...
Low bit rate coding schemes for coding high quality digital audio at bit rates of 64 to 128 kbit/sec...
First work on ASIC realization of the decoder for OCF (optimum coding in the frequency domain) has b...
MPEG Audio is more and more becoming the "do-it-all"system for applications in speech and audio codi...
The Low Complexity Adaptive Transform Coding (LC-ATC)- and the Optimum Coding in the Frequency Domai...
For real-time as well as off-line transmission of high quality audio signals over the Internet, the ...
Digital sound broadcasting systems are always in need for better bandwidth efficiency. The recently ...
Perceptual encoding of high-quality audio has found its way to many applications including digital r...
Perceptual encoding of high quality audio has found its way to many applications including digital r...
In recent years, audio coding has proved to be of great importance for applications such as mobile c...
This paper introduces high-quality audio coding using psychoacoustic models. This technology is now ...
This paper introduces high-quality audio coding using psychoacoustic models. This technology is now ...
An Analysis/Synthesis Audio Codec (ASAC) is presented, which allows the coding of audio signals at v...
Since 1988 ISO/IEC JTCI/SC29 WG11 (MPEG) is working on the standardization of video and audio signal...
The ISO/IEC MPEG-2 advanced audio coding (AAC) system was designed to provide MPEG-2 with the best a...