In Very Large Baseline Interferometry, signals from far radio sources are simultaneously recorded at different antennas, with the purpose of investigating their physical properties. The recorded signals are generally modelled as realizations of Gaussian processes, whose power is dominated by the system noise at the receiving antennas. The actual signal coming from the radio source can be detected only after cross-correlation of the various data-streams. The signals received at each antenna are digitized after low noise amplification and frequency down-conversion, in order to allow subsequent digital post-processing. The applied quantization is coarse, 1 or 2 bits being generally associated to the signal amplitude. In modern applications the sampling is typically performed at a high rate, and subchannels are then generated by filtering, followed by decimation and re-quantization of the signal streams. The re-digitized streams are then cross-correlated to extract the physical observables. While the classical effect of quantization has widely been studied in the past, the de-correlation induced by the filtering and re-quantization process is still characterised experimentally, mainly due to its inherent mathematical complexity. In the present work we analyze the above problem, and provide algorithms and analytical formulas aimed at predicting the induced decorrelation for a wide class of quantization schemes, with the unique assumption of weakly correlated signals, typically fulfilled in VLBI and radio astronomy applications.

Lanucara, M., Borghi, R. (In corso di stampa). Decorrelation of quantized signals induced by filtering and requantization. DIGITAL SIGNAL PROCESSING, 23, 522-529 [10.1016/j.dsp.2012.10.007].

Decorrelation of quantized signals induced by filtering and requantization

BORGHI, Riccardo
In corso di stampa

Abstract

In Very Large Baseline Interferometry, signals from far radio sources are simultaneously recorded at different antennas, with the purpose of investigating their physical properties. The recorded signals are generally modelled as realizations of Gaussian processes, whose power is dominated by the system noise at the receiving antennas. The actual signal coming from the radio source can be detected only after cross-correlation of the various data-streams. The signals received at each antenna are digitized after low noise amplification and frequency down-conversion, in order to allow subsequent digital post-processing. The applied quantization is coarse, 1 or 2 bits being generally associated to the signal amplitude. In modern applications the sampling is typically performed at a high rate, and subchannels are then generated by filtering, followed by decimation and re-quantization of the signal streams. The re-digitized streams are then cross-correlated to extract the physical observables. While the classical effect of quantization has widely been studied in the past, the de-correlation induced by the filtering and re-quantization process is still characterised experimentally, mainly due to its inherent mathematical complexity. In the present work we analyze the above problem, and provide algorithms and analytical formulas aimed at predicting the induced decorrelation for a wide class of quantization schemes, with the unique assumption of weakly correlated signals, typically fulfilled in VLBI and radio astronomy applications.
In corso di stampa
Lanucara, M., Borghi, R. (In corso di stampa). Decorrelation of quantized signals induced by filtering and requantization. DIGITAL SIGNAL PROCESSING, 23, 522-529 [10.1016/j.dsp.2012.10.007].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/135636
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