Design of One-Coincidence Frequency Hopping Sequence Sets for FHMA Systems

Department of Electrical EngineeringIn the thesis, we discuss frequency hopping multiple access (FHMA) systems and construction of optimal frequency hopping sequence and applications. Moreover, FHMA is widely used in modern communication systems such as Bluetooth, ultrawideband (UWB), military, etc. For these systems, it is desirable to employ frequency-hopping sequences (FHSs) having low Hamming correlation in order to reduce the multiple-access interference. In general, optimal FHSs with respect to the Lempel-Greenberger bound do not always exist for all lengths and frequency set sizes. Therefore, it is an important problem to verify whether an optimal FHS with respect to the Lempel-Greenberger bound exists or not for a given length and a given frequency set size. I constructed FHS satisfying optimal with respect to the Lempel-Greenberger bound and Peng-Fan bound for efficiency of available frequency. Parameters of a new OC-FHS set are length p^2-p over Z_(p^2 ) by using a primitive element of Z_p. The new OC-FHS set with H_a (X)=0 and H_c (X)=1 can be applied to several recent applications using ISM band (e.g. IoT) based on BLE and Zigbee. In the construction and theorem, I used these mathematical back grounds in preliminaries (i.e., finite field, primitive element, primitive polynomial, frequency hopping sequence, multiple frequency shift keying, DS/CDMA) in order to prove mathematically. The outline of thesis is as follows. In preliminaries, we explain algorithm for minimal polynomial for sequence, linear complexities, Hamming correlation and bounds for FHSs and some applications are presented. In section ???, algorithm for complexity, correlation and bound for FHSs and some applications are presented. In section ???, using information in section ??? and ???, a new construction of OC-FHS is presented. In order to prove the optimality of FHSs, all cases of Hamming autocorrelation and Hamming cross-correlation are mathematically calculated. Moreover, in order to raise data rate or the number of users, a new method is presented. Using this method, sequences are divided into two times of length and satisfies Lempel-Greenberger bound and Peng-Fan bound.clos

Insertion of random spaces in time domain for frequency hopping sequences for RF systems

FFH es un método de acceso al canal con amplias aplicaciones pasadas y presentes, dentro de este método los códigos ortogonales usados en SFH-CDMA son de especial interés en amplias áreas de la tecnología. El presente trabajo implementa códigos ortogonales un coin-cidentes (1dOC) con restricciones en componentes espectrales adyacentes para el diseño de detectores auto correlacionados en RF que usan arreglos de sensores planos. La inclusión de retrasos temporales entre resonadores adyacentes es un método que permite disminuir la interferencia entre los usuarios (MAI), en contraposición a la disminución de la velocidad de transmisión y finalmente el ancho de banda del protocolo. La selección aleatoria de re-trasos entre símbolos adyacentes reduce los máximos en la correlación cruzada, aumentando el rango dinámico del detector asíncrono y por ende el número de usuarios que comparten el canal de comunicaciones.Improvements over the communications protocols are always a continuous research. Fast Frequency Hopping is an important method still in use and orthogonal codes used in SFH-CDMA are the special interest in several areas of technology. This research uses one coincident orthogonal code with restrictive adjacent spectral distance for the design of RF correlation detectors based on planar resonators arrays. Inclusion of uniform time delays sections between adjacent resonators is a well-known method to improve the MAI, at expenses of decrease the data rate and finally the bandwidth of protocol. Another strategy is selecting random delays between symbols in the way of adjacent peaks in cross correlation function vanishes, improving the dynamic range of asynchronous detector and accordingly the user number sharing the channel of communications

Fiber-optic code division multiple access : multi-class optical orthogonal codes, optical power control, and polarization encoding

Ever since the mid- 1980s when the single-mode fiber-optic media were believed to become the main highways of future telecommunications networks for transporting high-volume high-quality multipurpose information, the need for all-optical multi-access networking became important. An all-optical multi-access network is a collection of multiple nodes where the interconnection among various nodes is via single- or multi-mode fiber optics and for which they perform all their essential signal processing requirements such as switching, add-drop, multiplexing/demultiplexing and amplification in the optical domain. Optical CDMA networking is one possible technique that allows multiple users in local area networks to access the same fiber channel asynchronously with no delay or scheduling. Optical CDMA networks are not without their own problems. Search for codes suitable to the optical domain is one of the important topics addressed in the literature on optical CDMA. Existing codes developed in the late 80's are limited to single class traffic or can support multiclass traffic but with restrictions on code lengths and weights. Also the number of generated codes is severely limited due to orthogonality issues. In this thesis, we pay particular attention to propose new codes that can support multiclass traffic with arbitrary code weights and lengths. Therefore, data sources with varying traffic demands can be accommodated by optical CDMA networks using the proposed codes. We also present a simple generation technique for the proposed multiclass codes and analyze their performance. The number of users supported by the proposed multiclass codes will be limited since it is an extension of existing code designs with such limitation. We then propose the use of polarization dimension in order to double the number of supported users. On the other hand, incoherent optical CDMA systems are considered as positive systems meaning that only unipolar codes can be considered for such systems. Therefore, multiple access interference will be quite high in optical CDMA due to the nature of incoherent power detection. Reducing the effect of the interference on the performance of optical CDMA is an important topic. We propose the use of power control to decrease the effects of interference in optical star networks in which users' fiber lengths and data rates are not equal. We consider the case of optically amplified network with amplifier noise as the main source. We then elaborate by considering the nonlinearity in the photodetection process and propose the use of an iterative algorithm to find the solution of the non-linear optical power control problem. Finally, we propose an optical CDMA system based on polarization encoding. Since the encoding is performed in the spatial domain, therefore, positive and negative levels can be realized. This approach leads to increasing the number of supported users of optical CDMA by the use of known codes, such as Gold and Hadamard codes, with enhanced performance.reviewe

Direct sequence spread spectrum techniques in local area networks

This thesis describes the application of a direct sequence spread spectrum modulation scheme to the physical layer of a local area networks subsequently named the SS-LAN. Most present day LANs employ erne form or another of time division multiplexing which performs well in many systems but which is limited by its very nature in real time, time critical and time demanding applications. The use of spread spectrum multiplexing removes these limitations by providing a simultaneous multiple user access capability to the channel which permits each and all nodes to utilise the channel independent of the activity being currently supported by that channel. The theory of spectral spreading is a consequence of the Shannon channel capacity in which the channel capacity may be maintained by the trading of signal to noise ratio for bandwidth. The increased bandwidth provides an increased signal dimensionality which can be utilised in providing noise immunity and/or a simultaneous multiple user environment: the effects of the simultaneous users can be considered as noise from the point of view of any particular constituent signal. The use of code sequences at the physical layer of a LAN permits a wide range of mapping alternatives which can be selected according to the particular application. Each of the mapping techniques possess the general spread spectrum properties but certain properties can be emphasised at the expense of others. The work has Involved the description of the properties of the SS-LAN coupled with the development of the mapping techniques for use In the distribution of the code sequences. This has been followed by an appraisal of a set of code sequences which has resulted in the definition of the ideal code properties and the selection of code families for particular types of applications. The top level design specification for the hardware required in the construction of the SS-LAN has also been presented and this has provided the basis for a simplified and idealised theoretical analysis of the performance parameters of the SS-LAN. A positive set of conclusions for the range of these parameters has been obtained and these have been further analysed by the use of a SS-LAN computer simulation program. This program can simulate any configuration of the SS-LAN and the results it has produced have been compared with those of the analysis and have been found to be in agreement. A tool for the further analysis of complex SS-LAN configurations has therefore been developed and this will form the basis for further work

Adaptive PN code synchronisation in DS-CDMA systems

Spread Spectrum (SS) communication, initially designed for military applications, is now the basis for many of today's advanced communications systems such as Code Division Multiple Access (CDMA), Global Positioning System (GPS), Wireless Local Loop (WLL) , etc. For effective communication to take place in systems using SS modulation, the Pseudo-random Noise (PN) code used at the receiver to despread the received signal must be identical and be synchronised with the PN code that was used to spread the signal at the transmitter. Synchronisation is done in two steps: coarse synchronisation or acquisition, and fine synchronisation or tracking. Acquisition involves obtaining a coarse estimate of the phase shift between the transmitted PN code and that at the receiver so that the received PN code will be aligned or synchronised with the locally generated PN code. After acquisition, tracldng is now done which involves maintaining the alignment of the two PN codes. This thesis presents results of the research calTied out on a proposed adaptive PN code acquisition circuit designed to improve the synchronisation process in Direct Sequence CDMA (DS-CDMA) systems. The acquisition circuit is implemented using a Matched Filter (MF) for the correlation operation and the threshold setting device is an adaptive processor known as the Cell Averaging Constant False Alarm Rate (CA-CFAR) processor. It is a double dwell acquisition circuit where the second dwell is implemented by Post Detection Integration (PDI). Depending on the application, PDI can be used to mitigate the effect of frequency offset in non-coherent detectors and/or in the implementation of multiple dwell acquisition systems. Equations relating the performance measures - the probability of false alarm (Pra ), the probability of detection (P d) and the mean acquisition time (E {Tacq}) - of the circuit are deri ved. Monte Carlo simulation was used for the independent validation of the theoretical results obtained, and the strong agreement between these results shows the accuracy of the derived equations for the proposed circuit. Due to the combination of PDI and CA-CFAR processor in the implementation of the circuit, results obtained show that it can provide a good measure of robustness to frequency offset and noise power variations in mobile environment, consequently leading to improved acquisition time performance. The complete synchronisation circuit is realised by using this circuit in conjunction with a conventional code tracking circuit. Therefore, a study of a Non-coherent Delay-Locked Loop (NDLL) code tracking circuit is also calTied out.EThOS - Electronic Theses Online ServiceGBUnited Kingdo

Adaptive PN code synchronisation in DS-CDMA systems.

Spread Spectrum (SS) communication, initially designed for military applications, isnow the basis for many of today's advanced communications systems such as CodeDivision Multiple Access (CDMA), Global Positioning System (GPS), Wireless LocalLoop (WLL) , etc. For effective communication to take place in systems using SSmodulation, the Pseudo-random Noise (PN) code used at the receiver to despread thereceived signal must be identical and be synchronised with the PN code that was used tospread the signal at the transmitter. Synchronisation is done in two steps: coarsesynchronisation or acquisition, and fine synchronisation or tracking. Acquisitioninvolves obtaining a coarse estimate of the phase shift between the transmitted PN codeand that at the receiver so that the received PN code will be aligned or synchronisedwith the locally generated PN code. After acquisition, tracldng is now done whichinvolves maintaining the alignment of the two PN codes.This thesis presents results of the research calTied out on a proposed adaptive PN codeacquisition circuit designed to improve the synchronisation process in Direct SequenceCDMA (DS-CDMA) systems. The acquisition circuit is implemented using a MatchedFilter (MF) for the correlation operation and the threshold setting device is an adaptiveprocessor known as the Cell Averaging Constant False Alarm Rate (CA-CFAR)processor. It is a double dwell acquisition circuit where the second dwell isimplemented by Post Detection Integration (PDI). Depending on the application, PDIcan be used to mitigate the effect of frequency offset in non-coherent detectors and/or inthe implementation of multiple dwell acquisition systems. Equations relating theperformance measures - the probability of false alarm (Pra ), the probability of detection (P d) and the mean acquisition time (E {Tacq}) - of the circuit are deri ved. Monte Carlosimulation was used for the independent validation of the theoretical results obtained,and the strong agreement between these results shows the accuracy of the derivedequations for the proposed circuit. Due to the combination of PDI and CA-CFARprocessor in the implementation of the circuit, results obtained show that it can providea good measure of robustness to frequency offset and noise power variations in mobileenvironment, consequently leading to improved acquisition time performance. Thecomplete synchronisation circuit is realised by using this circuit in conjunction with aconventional code tracking circuit. Therefore, a study of a Non-coherent Delay-LockedLoop (NDLL) code tracking circuit is also calTied out

Passive optical network (PON) monitoring using optical coding technology

Les réseaux optiques passifs (PON) semblent être la technologie gagnante et ultime du futur pour les "fibres jusqu'au domicile" ayant une haute capacité. L'écoute de contrôle de ce genre de système est nécessaire pour s'assurer un niveau de qualité de service prédéterminé pour chaque client. En outre, l'écoute de contrôle réduit considérablement les dépenses en capital et de fonctionnement (CAPEX et OPEX), tant pour le fournisseur du réseau que les clients. Alors que la capacité des PON est croissante, les gestionnaires de réseau ne disposent pas encore d'une technologie efficace et appropriée pour l'écoute de contrôle des réseaux de capacité aussi élevée. Une variété de solutions a été proposée. Toutes ces dernières solutions ne sont pas pratiques à cause de leur faible capacité (nombre de clients), d'une faible évolutivité, d'une grande complexité et des défis technologiques. Plus important encore, la technologie souhaitable pour l'écoute de contrôle devrait être rentable car le marché des PON est très sensible aux coûts. Dans cette thèse, nous considérons l'application de la technologie du codage optique passif (OC) comme une solution prometteuse pour l'écoute de contrôle centralisée d'un réseau optique ramifié tels que les réseaux PON. Dans la première étape, nous développons une expression pour le signal détecté par l'écoute de contrôle et étudions ses statistiques. Nous trouvons une nouvelle expression explicite pour le rapport signal utile/signal brouillé (SIR) comme outil de mesure métrique de performance. Nous considérons cinq distributions PON géographiques différentes et étudions leurs effets sur l'SIR pour l'écoute de contrôle d'OC. Dans la prochaine étape, nous généralisons notre modèle mathématique et ses expressions pour le contrôle des signaux détectés par un détecteur quadratique et des paramètres réalistes. Nous évaluons ensuite les performances théoriques de la technologie basée sur l'écoute de contrôle selon le rapport signal/bruit (SNR), le rapport signal/bruit plus coefficient d'interférence (SNIR), et la probabilité de fausse alarme. Nous élaborons l'effet de la puissance d'impulsion transmise, la taille du réseau et la cohérence de la source lumineuse sur le rendement des codes unidimensionnels (ID) et bidimensionnels (2D) de l'écoute de contrôle d'OC. Une conception optimale est également abordée. Enfin, nous appliquons les tests de Neyman-Pearson pour le récepteur de notre système d'écoute de contrôle et enquêtons sur la façon dont le codage et la taille du réseau affectent les dépenses de fonctionnement (OPEX) de notre système d'écoute de contrôle. Malgré le fait que les codes ID et 2D fournissent des performances acceptables, elles exigent des encodeurs avec un nombre élevé de composants optiques : ils sont encombrants, causent des pertes, et ils sont coûteux. Par conséquent, nous proposons un nouveau schéma de codage simple et plus approprié pour notre application de l'écoute de contrôle que nous appelons le codage périodique. Par simulation, nous évaluons l'efficacité de l'écoute de contrôle en terme de SNR pour un PON employant cette technologie. Ce système de codage est utilisé dans notre vérification expérimentale de l'écoute de contrôle d'OC. Nous étudions expérimentalement et par simulation, l'écoute de contrôle d'un PON utilisant la technologie de codage périodique. Nous discutons des problèmes de conception pour le codage périodique et les critères de détection optimale. Nous développons également un algorithme séquentiel pour le maximum de vraisemblance avec une complexité réduite. Nous menons des expériences pour valider notre algorithme de détection à l'aide de quatre encodeurs périodiques que nous avons conçus et fabriqués. Nous menons également des simulations de Monte-Carlo pour des distributions géographiques de PON réalistes, avec des clients situés au hasard. Nous étudions l'effet de la zone de couverture et la taille du réseau (nombre d'abonnés) sur l'efficacité de calcul de notre algorithme. Nous offrons une borne sur la probabilité pour un réseau donné d'entraîner l'algorithme vers un temps exorbitant de surveillance du réseau, c'est à dire le délai d'attente de probabilité. Enfin, nous soulignons l'importance du moyennage pour remédier aux restrictions budgétaires en puissance/perte dans notre système de surveillance afin de supporter de plus grandes tailles de réseaux et plus grandes portées de fibres. Ensuite, nous mettrons à niveau notre dispositif expérimental pour démontrer un m PON avec 16 clients. Nous utilisons un laser à modulation d'exploitation directement à 1 GHz pour générer les impulsions sonde. Les données mesurées par le dispositif expérimental est exploité par l'algorithme de MLSE à détecter et à localiser les clients. Trois déploiements PON différents sont réalisés. Nous démontrons une surveillance plus rigoureuse pour les réseaux ayant une répartition géographique à plusieurs niveaux. Nous étudions aussi le budget de la perte de notre dispositif de soutien plus élevés de capacités du réseau. Enfin, nous étudions le budget total admissible de la perte d'exploitation du système de surveillance dans la bande de fréquences à 1650 nm en fonction des spécifications de l'émetteur/récepteur. En particulier, la limite totale de la perte de budget est représentée en fonction du gain de l'amplicateure de transimpédance (TIA) et le résolution de la conversion analogique-numérique (ADC). Par ailleurs, nous enquêtons sur le compromis entre la distance portée et la capacité (taille de fractionnement au niveau du noeud distant) dans notre système de suivi

Proceedings of the Mobile Satellite Conference

A satellite-based mobile communications system provides voice and data communications to mobile users over a vast geographic area. The technical and service characteristics of mobile satellite systems (MSSs) are presented and form an in-depth view of the current MSS status at the system and subsystem levels. Major emphasis is placed on developments, current and future, in the following critical MSS technology areas: vehicle antennas, networking, modulation and coding, speech compression, channel characterization, space segment technology and MSS experiments. Also, the mobile satellite communications needs of government agencies are addressed, as is the MSS potential to fulfill them