Optimal sub-Nyquist nonuniform sampling and reconstruction for multiband signals

Venkataramani, R.; Bresler, Yoram

doi:10.1109/78.950786

Cited by 152 publications

(90 citation statements)

References 21 publications

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“…It is desired to sample x(t) at a rate lower than the Nyquist sampling rate 1/Τ (in Hz), and still be able to obtain a useful estimate of the power spectrum Px(ω). To this aim, the multi-coset sampling is adopted 29,30 at stage I, according to which the uniform grid of selected at a deterministically pre-specified position which remains the same for all blocks.…”

Section: Power Spectrum Blind Sampling (Psbs)-based Approachmentioning

confidence: 99%

“…In particular, the method treats signals as realizations of an underlying wide-sense stationary random process and estimates second-order statistics (i.e., the covariance matrix or, 6 equivalently, the PSD matrix) through a power spectrum blind sampling (PSBS) step assuming a deterministic periodic non-uniform-in-time sampling scheme known as multi-coset sampling [29][30][31][32] .…”

Section: Introductionmentioning

confidence: 99%

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Assessment of sub-Nyquist deterministic and random data sampling techniques for operational modal analysis

Gkoktsi

Giaralis

2017

Structural Health Monitoring

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This article assesses numerically the potential of two different spectral estimation approaches supporting non-uniformin-time data sampling at sub-Nyquist average rates (i.e. below the Nyquist frequency) to reduce data transmission payloads in wireless sensor networks for operational modal analysis of civil engineering structures. This consideration relaxes transmission bandwidth constraints in wireless sensor networks and prolongs sensor battery life since wireless transmission is the most energy-hungry on-sensor operation. Both the approaches assume acquisition of sub-Nyquist structural response acceleration measurements and transmission to a base station without on-sensor processing. The response acceleration power spectral density matrix is estimated directly from the sub-Nyquist measurements, and structural mode shapes are extracted using the frequency-domain decomposition algorithm. The first approach relies on the compressive sensing theory to treat sub-Nyquist randomly sampled data assuming that the acceleration signals are sparse/compressible in the frequency domain (i.e. have a small number of Fourier coefficients with significant magnitude). The second approach is based on a power spectrum blind sampling technique considering periodic deterministic sub-Nyquist ''multi-coset'' sampling and treating the acceleration signals as wide-sense stationary stochastic processes without posing any sparsity conditions. The modal assurance criterion is adopted to quantify the quality of mode shapes derived by the two approaches at different sub-Nyquist compression rates using computer-generated signals of different sparsity and field-recorded stationary data pertaining to an overpass in Zurich, Switzerland. It is shown that for a given compression rate, the performance of the compressive sensing-based approach is detrimentally affected by signal sparsity, while the power spectrum blind sampling-based approach achieves modal assurance criterion .0.96 independently of signal sparsity for compression ratios as low as 22% the Nyquist rate. It is concluded that the power spectrum blind sampling-based approach reduces effectively data transmission requirements in wireless sensor networks for operational modal analysis, without being limited by signal sparsity and without requiring a priori assumptions or knowledge of signal sparsity.

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Section: Power Spectrum Blind Sampling (Psbs)-based Approachmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Assessment of sub-Nyquist deterministic and random data sampling techniques for operational modal analysis

Gkoktsi

Giaralis

2017

Structural Health Monitoring

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“…For the CNUS approach, it is known that the reconstruction can be done, in principle, via a set of ideal multi-level synthesis filters, given the sampling pattern [7]- [9]. The related problem of selecting the optimal sampling patterns has also been addressed [9]- [11]. However, the straightforward CNUS recovery scheme has very high design and implementation complexities 1 .…”

Section: Introductionmentioning

confidence: 99%

“…Given K samples in each block (period) of M samples, (K < M ), the problem is to recover the M − K missing samples. For the CNUS approach, it is known that the reconstruction can be done, in principle, via a set of ideal multi-level synthesis filters, given the sampling pattern [7]- [9]. The related problem of selecting the optimal sampling patterns has also been addressed [9]- [11].…”

Section: Introductionmentioning

confidence: 99%

Efficient Recovery of Sub-Nyquist Sampled Sparse Multi-Band Signals Using Reconfigurable Multi-Channel Analysis and Modulated Synthesis Filter Banks

Pillai

Johansson

2015

IEEE Trans. Signal Process.

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Abstract-Sub-Nyquist cyclic nonuniform sampling (CNUS) of a sparse multi-band signal generates a nonuniformly sampled signal. Assuming that the corresponding uniformly sampled signal satisfies the Nyquist sampling criterion, the sequence obtained via CNUS can be passed through a reconstructor to recover the missing uniform-grid samples. At present, these reconstructors have very high design and implementation complexity that offsets the gains obtained due to sub-Nyquist sampling. In this paper, we propose a scheme that reduces the design and implementation complexity of the reconstructor. In contrast to the existing reconstructors which use only a multi-channel synthesis filter bank (FB), the proposed reconstructor utilizes both analysis and synthesis FBs which makes it feasible to achieve an orderof-magnitude reduction of the complexity. The analysis filters are implemented using polyphase networks whose branches are allpass filters with distinct fractional delays and phase shifts. In order to reduce both the design and the implementation complexity of the synthesis FB, the synthesis filters are implemented using a cosine-modulated FB. In addition to the reduced complexity of the reconstructor, the proposed multi-channel recovery scheme also supports online reconfigurability which is required in flexible (multi-mode) systems where the user subband locations vary with time.Index Terms-Sub-Nyquist sampling, sparse multi-band signals, reconstruction, nonuniform sampling, time-interleaved analog-to-digital converters, filter banks.

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“…So subnyquist sampling has been developed and utilized in several applications such as data compression [10], medical imaging [11] and radar imaging [12]. Undersampling at low rates can lead to aliasing, and the corresponding reconstruction algorithm should be addressed to be a prior condition [13]. Inspired by this characteristic, Ref.…”

Section: Introductionmentioning

confidence: 99%

A new airborne self-protection jammer for countering ground radars based on sub-Nyquist

Almslmany

Cao

Wang

2015

IEICE Electron. Express

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Deception jammer is the most effective technique for spoofing a radar system. In this paper a new model for airborne self-protection jammer was proposed, this model provides a countering technique to the ground radars. It is used for generating a deceptive jamming signal using digital radio frequency memory (DRFM) based on sub-Nyquist sampling, it shows that under sampling with lower sampling rates will be useful in generating a multiple deceptive false target signals with a better resolution, it has greatly reduced the demands on sampling rate, processing time, and power transmitted.

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Optimal sub-Nyquist nonuniform sampling and reconstruction for multiband signals

Cited by 152 publications

References 21 publications

Assessment of sub-Nyquist deterministic and random data sampling techniques for operational modal analysis

Assessment of sub-Nyquist deterministic and random data sampling techniques for operational modal analysis

Efficient Recovery of Sub-Nyquist Sampled Sparse Multi-Band Signals Using Reconfigurable Multi-Channel Analysis and Modulated Synthesis Filter Banks

A new airborne self-protection jammer for countering ground radars based on sub-Nyquist

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