Audio signal processor for processing encoded multi-channel audio signals and method therefor

The invention claimed is: 1. An audio signal processor comprising: a receiver for receiving a plurality of encoded multi-channel audio signals; a multi-channel decoder for decoding a first encoded multi-channel signal of the plurality of encoded multi-channel audio signals to generate a first decoded multi-channel signal; a generator for extracting an encoded further audio signal by selecting encoded audio data from at least a second encoded multi-channel audio signal of the plurality of encoded multi-channel audio signals such that a number of channels of the encoded further audio signal comprising encoded audio data from the second encoded multi-channel audio signal is less than a number of channels in the second encoded multi-channel signal; a further decoder for generating a decoded further audio signal by decoding the encoded further audio signal; and a combiner for combining at least the first decoded multi-channel signal and the decoded further audio signal to generate a multi-channel output signal. 2. The audio signal processor of claim 1 wherein the generator is arranged to extract a first channel of the encoded further audio signal by selecting encoded audio data from a single channel of the second encoded multi-channel signal. 3. The audio signal processor of claim 2 wherein the encoded further audio signal is a multi-channel signal and the generator is arranged to generate a second channel of the encoded further audio signal by selecting encoded audio data from a single channel of a third encoded multi-channel signal. 4. The audio signal processor of claim 2 wherein the encoded audio data of the single channel of the encoded further audio signal is identical to encoded audio data of the single channel of the second encoded multi-channel signal. 5. The audio signal processor of claim 2 wherein the single channel of the second encoded multi-channel signal is at least one of: a mid-channel for a mid-side stereo signal; a left channel for a right left-stereo signal; and a right channel for a right left-stereo signal. 6. The audio signal processor of claim 1 wherein the encoded further audio signal is a mono-signal. 7. The audio signal processor of claim 1 wherein the encoded further audio signal is a multi-channel signal having different channels comprising encoded audio data from different encoded multi-channel audio signals of the plurality of encoded multi-channel audio signals. 8. The audio signal processor of claim 7 wherein each channel of the encoded further audio signal corresponds to one channel of one of the different encoded multi-channel audio signals. 9. The audio signal processor of claim 1 wherein the generator is arranged to select encoded audio data for one channel of the encoded further audio signal from a plurality of encoded multi-channel audio signals. 10. The audio signal processor of claim 1 wherein the generator is arranged to extract encoding control data for the encoded further audio signal by modifying encoding control data of the second encoded multi-channel audio signal to correspond to the encoded audio data of the encoded further audio signal. 11. The audio signal processor of claim 1 further comprising: a user interface for receiving a user input; a spatial mode representing a virtual user position and virtual spatial sound source positions associated with the plurality of encoded multi-channel audio signals; and wherein the generator is arranged to select the first encoded multi-channel signal of alit of encoded mufti-channel signals and the second encoded multi-channel audio signal in response to the spatial model. 12. The audio signal processor of claim 11 wherein the combiner is arranged to apply a spatial processing to at least the decoded further audio signal in response to the spatial model. 13. The audio signal processor of claim 11 wherein the decoded further audio signal is a multi-channel signal and the spatial processing comprises spatially processing different channels of the decoded further audio signal to correspond to different virtual spatial sound source positions of the spatial model. 14. The audio signal processing of claim 11 wherein the combiner is arranged to select the second encoded multi-channel audio signal in response to a distance between the virtual user position and the virtual spatial sound source positions associated with the second encoded multi-channel audio signal. 15. A method of processing an audio signal comprising: receiving a plurality of encoded multi-channel audio signals; decoding a first encoded multi-channel signal of the encoded channel audio signals to generate a first decoded multi-channel signal; extracting an encoded further audio signal by selecting encoded audio data from at least a second encoded multi-channel audio signal of the plurality of encoded multi-channel audio signals such that a number of channels of the encoded further audio signal comprising encoded audio data from the second encoded multi-channel audio signal is less than a number of channels in the second encoded multi-channel signal; generating a decoded further audio signal by decoding the encoded further audio signal; and combining at least the first decoded multi-channel signal and the decoded further audio signal to generate a multi-channel output signal.