Space-time oversampling and error shaping for coarsely quantized arrays

We claim: 1. A space-time error-shaping array system comprising: a. an array of sensors, characterized by a spatial configuration, each sensor of the array producing a temporal signal comprising quantized waveforms; b. a multi-input multiple-output (MIMO) discrete-time filter structure having a plurality of inputs and a plurality of outputs, each input coupled to a sensor of the array of sensors, for shaping quantization errors of the array of sensors on the basis of temporal aspects of the temporal signals conjointly with spatial aspects of the quantized waveforms; and c. a digital multichannel processor for receiving output signals derived from the plurality of outputs of the MIMO discrete-time filter structure, and for processing the output signals using a statistical model of shaped quantization errors associated with the quantized waveforms. 2. The space-time error-shaping array system of claim 1 , additionally comprising a dimensionality-reduction filter coupled to the plurality of outputs of the MIMO discrete-time filter structure, the dimensionality-reduction filter having a plurality of output signals. 3. The space-time error-shaping array system of claim 1 , wherein there is no constraint on the spatial configuration of the array of sensors. 4. The space-time error-shaping array system of claim 1 , wherein the spatial configuration of the array of sensors is periodically constrained. 5. The space-time error-shaping array system of claim 1 , wherein the digital multichannel processor includes a beamformer. 6. The space-time error-shaping array system of claim 5 , wherein the beamformer includes a filter-and-sum beamformer. 7. A space-time error-shaping array system comprising: a. an array of sensors, characterized by a spatial configuration, each sensor of the array producing a temporal signal comprising quantized waveforms; b. a set of mixers for receiving at least one of the temporal signals of quantized waveforms and generating, at a mixer output, bandlimited intermediate frequency (IF) signals; c. a MIMO discrete-time filter structure having a plurality of inputs and a plurality of outputs, each input coupled to receive a mixer output, for shaping quantization errors of the array of sensors on the basis of at least one of temporal and spatial aspects of the IF signals; and d. a digital multichannel processor for receiving output signals derived from the plurality of outputs for the MIMO discrete-time filter structure, and for processing the output signals using a statistical model of shaped quantization errors associated with the quantized waveforms. 8. The space-time error-shaping array system of claim 3 , additionally comprising a dimensionality-reduction filter coupled to the plurality of outputs of the MIMO discrete-time filter structure, the dimensionality-reduction filter having a plurality of output signals. 9. The space-time error-shaping array system of claim 7 , wherein there is no constraint on the spatial configuration of the array of sensors. 10. The space-time error-shaping array system of claim 7 , wherein the spatial configuration of the array of sensors is periodically constrained. 11. The space-time error-shaping array system of claim 7 , wherein the digital multichannel processor includes a beamformer. 12. A space-time error-shaping array system comprising: a. an array of sensors, characterized by a spatial configuration, each sensor of the array producing a temporal signal comprising quantized waveforms; and b. a multi-input multiple-output (MIMO) discrete-time filter structure having a plurality of inputs and a plurality of outputs, each input coupled to a sensor of the array of sensors, for shaping quantization errors of the array of sensors on the basis of temporal aspects of the temporal signals conjointly with spatial aspects of the quantized waveforms; wherein the quantized waveforms include coarsely quantized waveforms. 13. A method for processing signals derived from a plurality of sensors together constituting an array of sensors, characterized by a spatial configuration, the method comprising: a. quantizing the signals derived from each of the plurality of sensors to form a temporal signal comprising quantized waveforms; and b. in a MIMO discrete-time filter structure, shaping quantization errors in each of the quantized waveforms using feedback on the basis of temporal aspects of the quantized waveforms conjointly with spatial aspects of the quantized waveforms, wherein the quantized waveforms include coarsely quantized waveforms. 14. The method of claim 13 , further comprising receiving at least one of the quantized waveforms and generating, at a mixer output, bandlimited intermediate frequency (IF) signals. 15. The method of claim 13 , further comprising reducing the dimensionality of a plurality of outputs of the MIMO discrete-time filter structure. 16. The method of claim 13 , wherein there is no constraint on the spatial configuration of the array of sensors. 17. The method of claim 13 , wherein the spatial configuration of the array of sensors is periodically constrained. 18. A space-time error-shaping array system comprising: a. an array of sensors, characterized by a spatial configuration, each sensor of the array producing a temporal signal comprising quantized waveforms; b. a set of mixers for receiving at least one of the temporal signals of quantized waveforms and generating, at a mixer output, bandlimited intermediate frequency (IF) signals; and c. a MIMO discrete-time filter structure having a plurality of inputs and a plurality of outputs, each input coupled to receive a mixer output, for shaping quantization errors of the array of sensors on the basis of at least one of temporal and spatial aspects of the IF signals, wherein the quantized waveforms include coarsely quantized waveforms.