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Article de journal

A Stochastic Model for Propagation through Ttissue

Auteur : Lacaze Bernard

IEEE Trans. Ultrason. Ferroelec. Freq. Contr., Vol. 56, n° 10, pp. 2180-2186, October, 2009.

Attenuation of ultrasonic waves is often assumed linear with respect to frequency in biological applications whereas it is considered quadratic when the propagation occurs in the atmosphere or the water. In the latter case, other studies show that a Gaussian propagation duration can explain this attenuation behavior and provide a model for the energy loss in the stationary limit. The present paper defines an equivalent random propagation duration with Cauchy distribution, which is appropriate for the propagation of ultrasound through tissue. The model adds an unobserved noise that represents the signal deterioration. In addition, the model agrees with the mode downshift in the case of a narrowband signal.

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Traitement du signal et des images / Autre

Article de conférence

Un algorithme de reconstruction dans le cas d’un échantillonnage non ponctuel, périodique ou non

Auteurs : Bonacci David et Lacaze Bernard

In Proc. Groupement de Recherche en Traitement du Signal et des Images (GRETSI), Juan-Les-Pins, France, September 5-8, 2017.

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Les composants électroniques destinés à l’échantillonnage haute fréquence des signaux ont des temps de réponse susceptibles de dégrader les performances des algorithmes de reconstruction. Dans cet article, on considère un signal échantillonné par un composant modélisé par un filtre linéaire invariant activé à des instants potentiellement irréguliers et qui forment une suite vérifiant la condition de Landau (généralisation de la condition de Nyquist). On étudie les conséquences des imperfections des échantillonneurs dans la reconstruction du signal et dans l’estimation de l’enveloppe et de la phase.

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Traitement du signal et des images / Systèmes spatiaux de communication

Shape Effects on Sampling of Stationary Processes

Auteurs : Bonacci David et Lacaze Bernard

In Proc. Sampling Theory and Applications (SampTA), 12th International Conference, Tallinn, ESTONIA, July 3-7, 2017.

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Acquisition devices play an important role in digital signal processing. The possibility of a perfect reconstruction is demonstrated in regular as well as irregular sampling when the number of samples in the observation interval is high enough in function of the bandwidth of the sampled signal (length of the support of the spectrum). In the case of high sampling rates, imperfections of acquisition devices can introduce non negligible errors (when the acquisition duration of a given sample becomes not negligible in comparison with the sampling period (or mean sampling period in the case of irregular sampling). In this paper, explicit method is proposed to take into account imperfections of the sampling device in order to improve the reconstruction of the signal. The proposed method is applicable for deterministic functions and random processes in the case of regular sampling, as well as irregular sampling.

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Traitement du signal et des images / Systèmes spatiaux de communication

Blind Estimation of Unknown Time Delay in Periodic Non-Uniform Sampling : Application to Desynchronized Time Interleaved-ADCS

Auteurs : Vernhes Jean-Adrien, Chabert Marie, Lacaze Bernard, Lesthievent Guy, Baudin Roland et Boucheret Marie-Laure

In Proc. IEEE Int. Conf. on Acoust., Speech Signal Process. (ICASSP), Shanghai, Chine, March 20-25, 2016.

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Increasing the sampling rate of Analog-to-Digital Converters (ADC) is a main challenge in many fields and especially in telecommunications. Time-Interleaved ADCs (TI-ADC) were introduced as a technical solution to reach high sampling rates by time interleaving and multiplexing several lowrate ADCs at the price of a perfect synchronization between them. Indeed, as the signal reconstruction formulas are derived under the assumption of uniform sampling, a desynchronization between the elementary ADCs must be compensated upstream with an online calibration and expensive hardware corrections of the sampling device. Based on the observation that desynchronized TI-ADCs can be effectively modeled using a Periodic Non-uniform Sampling (PNS) scheme, we develop a general method to blindly estimate the time delays involved in PNS. The proposed strategy exploits the signal stationarity properties and thus is simple and quite generalizable to other applications. Moreover, contrarily to state-ofthe-art methods, it applies to bandpass signals which is the more judicious application framework of the PNS scheme.

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Traitement du signal et des images / Systèmes spatiaux de communication et Autre

Estimation du retard en échantillonnage périodique non uniforme - Application aux CAN entrelacés désynchronisés

Auteurs : Vernhes Jean-Adrien, Chabert Marie, Lacaze Bernard, Lesthievent Guy, Baudin Roland et Boucheret Marie-Laure

In Proc. Groupement de Recherche en Traitement du Signal et des Images (GRETSI), September 8-11, 2015.

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Increasing the sampling rate of Analog-to-Digital Converters (ADC) is a main challenge in many fields and especially in telecommunications. Time-Interleaved ADCs (TI-ADC) were introduced as a technical solution to reach high sampling rates by time-interleaving several low-rate ADCs at the price of a perfect synchronization. Indeed, as the inverse operation of DAC is derived under the assumption of uniform sampling, the desynchronization must be compensated upstream with expensive hardware corrections of the sampling device. In this paper, we propose an alternative framework for TI-ADCs based on a more flexible sampling scheme, known as Periodic Non-uniform Sampling (PNS), that takes into account the desynchronization at the reconstruction stage when the induced delay is known, thus avoiding hardware corrections. The main contribution of this paper is to propose two different strategies for desynchronization estimation, one based on auto-calibration, the other on blind estimation. The proposed method performance is evaluated in terms of signal reconstruction error.

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Traitement du signal et des images / Systèmes spatiaux de communication

Reconstruction et filtrage linéaire avec échantillonnage irrégulier

Auteurs : Bonacci David et Lacaze Bernard

In Proc. Groupement de Recherche en Traitement du Signal et des Images (GRETSI), September 8-11, 2015.

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Cet article traite du problème de l'échantillonnage non uniforme dans le cas des processus aléatoires. Une nouvelle méthode est proposée permettant d'effectuer une reconstruction exacte du signal avec une meilleure vitesse de convergence en termes de nombre d'échantillons et un filtrage linéaire directement à partir des échantillons non uniformes. Ce procédé peut être appliqué à des signaux de type passe-bas comme à des signaux de type passe-bande.

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Traitement du signal et des images / Autre

Adaptive Estimation and Compensation of the Time Delay in a Periodic Non-uniform Sampling Scheme

Auteurs : Vernhes Jean-Adrien, Chabert Marie, Lacaze Bernard, Lesthievent Guy, Baudin Roland et Boucheret Marie-Laure

In Proc. International Conference on Sampling Theory and Applications (SampTA), Washington DC, USA, May 25-29, 2015.

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High sampling rate Analog-to-Digital Converters (ADCs) can be obtained by time-interleaving low rate (and thus low cost) ADCs into so-called Time-Interleaved ADCs (TI-ADCs). Nevertheless increasing the sampling frequency involves an increasing sensibility of the system to desynchronization between the different ADCs that leads to time-skew errors, impacting the system with non linear distortions. The estimation and compensation of these errors are considered as one of the main challenge to deal with in TI-ADCs. Some methods have been previously proposed, mainly in the field of circuits and systems, to estimate the time-skew error but they mainly involve hardware correction and they lack of flexibility, using an inflexible uniform sampling reference. In this paper, we propose to model the output of L interleaved and desynchronized ADCs with a sampling scheme called Periodic Non-uniform Sampling of order L (PNSL). This scheme has been initially proposed as an alternative to uniform sampling for aliasing cancellation, particularly in the case of bandpass signals. We use its properties here to develop a flexible on-line digital estimation and compensation method of the time delays between the desynchronized channels. The estimated delay is exploited in the PNSL reconstruction formula leading to an accurate reconstruction without hardware correction and without any need to adapt the sampling operation. Our method can be used in a simple Built-In Self-Test (BIST) strategy with the use of learning sequences and our model appears more flexible and less electronically expensive, following the principles of ”Dirty Radio Frequency” paradigm: designing imperfect analog circuits with subsequently digital corrections of these imperfections.

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Traitement du signal et des images / Systèmes spatiaux de communication

Lowpass/Bandpass Signal Reconstruction and Digital Filtering from Nonuniform Samples

Auteurs : Bonacci David et Lacaze Bernard

In Proc. IEEE Int. Conf. Acoust., Speech, and Signal Proc. (ICASSP), Brisbane, Australia, April 19-24, 2015.

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This paper considers the problem of non uniform sampling in the case of finite energy functions and random processes, not necessarily approaching to zero as time goes to infinity. The proposed method allows to perform exact signal reconstruction, spectral estimation or linear filtering directly from the non-uniform samples. The method can be applied to either lowpass, or bandpass signals.

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Traitement du signal et des images / Autre

A New Approach to Spectral Estimation from Irregular Sampling

Auteurs : Bonacci David et Lacaze Bernard

In Proc. European Signal and Image Processing Conference (EUSIPCO), Lisbon, Portugal, September 1-5, 2014.

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This article addresses the problem of signal reconstruction, spectral estimation and linear filtering directly from irregularly-spaced samples of a continuous signal (or autocorrelation function in the case of random signals) when signal spectrum is assumed to be bounded. The number 2L of samples is assumed to be large enough so that the variation of the spectrum on intervals of width π/L is small. Reconstruction formulas are based on PNS (Periodic Nonuniform Sampling) schemes. They allow for reconstruction schemes not requiring regular resampling and suppress two stages in classical computations. The presented method can also be easily generalized to spectra in symmetric frequency bands (bandpass signals).

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Traitement du signal et des images / Observation de la Terre

Selective Analytic Signal Construction from a Non-Uniform Ssampled Bandpass Signal

Auteurs : Vernhes Jean-Adrien, Chabert Marie, Lacaze Bernard, Lesthievent Guy et Baudin Roland

In Proc. Int. Conf. Acoust., Speech and Signal Processing (ICASSP), Florence, Italy, May 4-9, 2014.

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This paper proposes a method that simultaneously builds the analytic signal from non-uniform samples of a bandpass signal and rejects interferences. The analytic signal is required for many onboard operations in communication satellites. This method operates in the time domain and without preliminary demodulation, using Periodic Non-uniform Sampling of order 2 (PNS2). This non-uniform sampling scheme can be easily implemented with available devices. Exact formulas for the analytic signal construction are derived for an infinite observation window (an infinite number of samples). For practical applications, the formulas should also demonstrate a high convergence rate due to the finite observation window. Formulas with increasing convergence rates are thus derived. The proposed method has been tested through simulations according to the number of available samples, the interference parameters and the filter transfer function regularity.

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Traitement du signal et des images / Systèmes spatiaux de communication

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