Chaotic complex spreading sequences for asynchronous DS-CDMA. I. System modeling and results

Mazzini, G.; Setti, Gianluca; Rovatti, Riccardo

doi:10.1109/81.633883

Cited by 306 publications

(164 citation statements)

References 22 publications

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“…In order to improve the covertness of the communications, noise-like chaotic spreading sequences can be used to conceal the signals. Chaotic sequences are usually generated using discrete chaotic maps, such as the logistic map, triangular map, and exponential map [6]- [8]. The logistic map is one of the simplest and most widely studied (1) where , , and is called a bifurcation parameter.…”

Section: A Chaotic Sequencesmentioning

confidence: 99%

“…Depending on the value of , the dynamics of this system can change dramatically, exhibiting periodicity or chaos. For , the sequence is periodic with a period for some integer ; while for , the sequence is, for all practical purposes, nonperiodic and nonconverging [2], [6]- [8]. The histogram of the noise-like chaotic sequences in some cases has been proven to follow a certain probability density distribution (pdf) [2].…”

Section: A Chaotic Sequencesmentioning

confidence: 99%

“…Recently, the signal interception problem is also studied with a self-recovering receiver for DS SS signals with unknown spreading codes and its performance is analyzed and presented in [5]. To improve the security of the DS SS systems, nonbinary and nonperiodic chaotic sequences, which have been investigated in [2] and [6]- [8] are desirable for covert communications because their pseudo-random waveforms can be very useful in disguising signals as noise. Another advantage of using chaotic sequences is the large number of available spreading sequences for multiple-access applications [2].…”

Section: Introductionmentioning

confidence: 99%

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Detection performance of chaotic spreading LPI waveforms

Yao

2005

IEEE Trans. Wireless Commun.

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Abstract-Low probability of intercept (LPI) performance of a direct-sequence (DS) spread-spectrum (SS) system with chaotic spreading sequences is investigated in this paper. Several intercept receivers, including energy detectors, synchronous and asynchronous, coherent and noncoherent structures, which are typically used to detect binary DS SS signals, are examined here to detect the presence of chaotic DS SS signals. A simple detection approach using a binary correlating function to detect nonbinary chaotic sequences is proposed. The expressions of detection probabilities of chaotic spreading signals using those intercept receivers are derived. Comparisons between systems using chaotic and binary sequences are given in terms of the LPI performance, and the performance improvement with chaotic spreading sequences is observed.Index Terms-Chaos, low probability of intercept (LPI), spread spectrum (SS).

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Section: A Chaotic Sequencesmentioning

confidence: 99%

Section: A Chaotic Sequencesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Detection performance of chaotic spreading LPI waveforms

Yao

2005

IEEE Trans. Wireless Commun.

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“…Then, during the two last decades, many researchers have tried to nd applications to chaotic signals, which also look like random signals. Some applications concern the use of chaotic signals for secure transmissions, telecommunications and image processing [19] [24]. It appears that all chaotic signals cannot be used in such applications.…”

Section: Introductionmentioning

confidence: 99%

Bifurcations and Chaos Generation from 1D or 2D Circuits Including Switches

2014

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Abstract. Generation of chaos is of the highest interest for many kind of applications as secure transmissions, image processing or telecommunications. In order to obtain chaotic signals that can be used in applications, simple circuits including switches have been considered those last years. Their interest is of two types: rst, they belong to the class of hybrid systems that have recently attracted a great interest, secondly, they permit to obtain chaos in a very easy way. Such circuits are very easy to implement and robust chaos can be obtained, depending upon parameter values. For this aim, it is necessary to study and understand the bifurcation structures of the circuit model. In this paper, we propose two kinds of chaos generators obtained from simple RC circuits including switches managed using a clock (impulse waveform) and the charging/discharging of the capacitors. Our models are given via one-dimensional (1D) or two-dimensional (2D) nonlinear maps. We present the bifurcation studies permitting to understand the evolution of the behaviour of our systems and the appearance of chaos.Keywords. chaotic signal; bifurcation; switching circuit; piecewise-smooth map. AMS classi cation. 94; 37Gxx; 65Pxx.Résumé. L'utilisation du chaos présente un grand intérêt dans beaucoup d'applications en lien avec les télécommunications, le traitement d'images ou les transmissions sécurisées. Des circuits très simples comprenant des commutations peuvent être utilisés pour produire des signaux chaotiques. Leur intérêt est double, tout d'abord ils appartiennent à la classe des systèmes hybrides qui ont récemment attiré l'attention, ensuite, ils permettent de générer des signaux chaotiques robustes de manière très simple et ils sont faciles à implémenter. Néanmoins il est nécessaire d'étudier et de comprendre les structures de bifurcations sous-jacentes. Dans cet article, nous proposons deux sortes de circuits RC très simples comportant des commutations qui utilisent une horloge a n de charger ou décharger les capacités. Les modèles proposés sont basés sur des récurrences de dimension un ou deux. Les structures de bifurcation des deux circuits sont étudiées et permettent de comprendre la génération de signaux chaotiques.

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“…Therefore the main advantages of their usage are increased security of the transmission and also ease of generation and visualization of great number of sequences [24]. Generation of chaos is described in [22,23,25], Direct Sequence Spread Spectrum (DSSS) CDMA with chaotic sequences is described for example in [14], Direct Sequence (DS) CDMA is described in [15][16][17][18][19][20][21] and MC/DS CDMA is described in [4]. Chaos is a deterministic, random-like process found in non-linear dynamical system, which is non-periodical, non-converging and bounded.…”

Section: Introductionmentioning

confidence: 99%