MDCT-based complex prediction stereo coding
First Claim
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1. A decoder system for providing a stereo signal by complex prediction stereo coding, the decoder system comprising:
- an upmix stage adapted to generate the stereo signal based on first frequency-domain representations of a downmix signal and a residual signal, each of the first frequency-domain representations comprising first spectral components representing spectral content of the corresponding signal expressed in a first subspace of a multidimensional space, the upmix stage comprising;
a module for computing a second frequency-domain representation of the downmix signal based on the first frequency-domain representation thereof, the second frequency-domain representation comprising second spectral components representing spectral content of the signal expressed in a second subspace of the multidimensional space that includes a portion of the multidimensional space not included in the first subspace, wherein the module is adapted to determine the second spectral components of the downmix signal by applying a Finite Impulse Responses (FIR) filter to the first spectral components of the downmix signal;
a weighted summer for computing a side signal by combining the first frequency-domain representation of the residual signal, the first frequency-domain representation of the downmix signal weighted by a real-valued part of a complex prediction coefficient encoded in a bit stream signal, and the second frequency domain representation of the downmix signal weighted by an imaginary-valued part of the complex prediction coefficient; and
a sum-and-difference stage for computing the stereo signal on the basis of the first frequency-domain representation of the downmix signal and the side signal;
a first frequency-domain modifier stage arranged upstream of the upmix stage and operable in an active mode, in which it processes a frequency-domain representation of at least one signal, and a passive mode, in which it acts as a pass-through; and
a second frequency-domain modifier stage arranged downstream of the upmix stage and operable in an active mode, in which it processes a frequency-domain representation of at least one signal, and a passive mode, in which it acts as a pass-through.
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Abstract
The invention provides methods and devices for stereo encoding and decoding using complex prediction in the frequency domain. In one embodiment, a decoding method, for obtaining an output stereo signal from an input stereo signal encoded by complex prediction coding and comprising first frequency-domain representations of two input channels, comprises the upmixing steps of:
- (i) computing a second frequency-domain representation of a first input channel; and
- (ii) computing an output channel on the basis of the first and second frequency-domain representations of the first input channel, the first frequency-domain representation of the second input channel and a complex prediction coefficient. The upmixing can be suspended responsive to control data.
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Citations
7 Claims
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1. A decoder system for providing a stereo signal by complex prediction stereo coding, the decoder system comprising:
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an upmix stage adapted to generate the stereo signal based on first frequency-domain representations of a downmix signal and a residual signal, each of the first frequency-domain representations comprising first spectral components representing spectral content of the corresponding signal expressed in a first subspace of a multidimensional space, the upmix stage comprising; a module for computing a second frequency-domain representation of the downmix signal based on the first frequency-domain representation thereof, the second frequency-domain representation comprising second spectral components representing spectral content of the signal expressed in a second subspace of the multidimensional space that includes a portion of the multidimensional space not included in the first subspace, wherein the module is adapted to determine the second spectral components of the downmix signal by applying a Finite Impulse Responses (FIR) filter to the first spectral components of the downmix signal; a weighted summer for computing a side signal by combining the first frequency-domain representation of the residual signal, the first frequency-domain representation of the downmix signal weighted by a real-valued part of a complex prediction coefficient encoded in a bit stream signal, and the second frequency domain representation of the downmix signal weighted by an imaginary-valued part of the complex prediction coefficient; and a sum-and-difference stage for computing the stereo signal on the basis of the first frequency-domain representation of the downmix signal and the side signal; a first frequency-domain modifier stage arranged upstream of the upmix stage and operable in an active mode, in which it processes a frequency-domain representation of at least one signal, and a passive mode, in which it acts as a pass-through; and a second frequency-domain modifier stage arranged downstream of the upmix stage and operable in an active mode, in which it processes a frequency-domain representation of at least one signal, and a passive mode, in which it acts as a pass-through. - View Dependent Claims (2, 3, 4, 5)
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6. A decoding method for upmixing an input stereo signal by complex prediction stereo coding into an output stereo signal, wherein:
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said input stereo signal comprises first frequency-domain representations of a downmix channel and a residual channel and a complex prediction coefficient; and each of said first frequency-domain representations comprises first spectral components representing spectral content of the corresponding signal expressed in a first subspace of a multidimensional space, the method being performed by an upmix stage and including the steps of; computing a second frequency-domain representation of the downmix channel based on the first frequency-domain representation thereof, the second frequency-domain representation comprising second spectral components representing spectral content of the signal expressed in a second subspace of the multidimensional space that includes a portion of the multidimensional space not included in the first subspace, wherein computing a second frequency-domain representation of the downmix signal includes determining the second spectral components of the downmix signal by applying a Finite Impulse Response (FIR) filter to the first spectral components of the downmix signal; computing a side channel by combining the first frequency-domain representation of the residual signal, the first frequency-domain representation of the downmix signal weighted by a real-valued part of a complex prediction coefficient encoded in a bit stream signal, and the second frequency domain representation of the downmix signal weighted by an imaginary-valued part of the complex prediction coefficient; and further comprising either the step, to be performed prior to the step of upmixing, of applying temporal noise shaping, TNS, to said first frequency-domain representation of the downmix signal and/or said first frequency-domain representation of the residual channel; or the step, to be performed after the step of upmixing, of applying TNS to at least one channel of said output stereo signal. - View Dependent Claims (7)
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Specification