Global ETD Search

11	Frequency Generalized MC-CDMA Systems and Performance over Multiband Channels and with Multiple Level Orthogonal (MLO) Codes Zhang, Jingtao January 2010 (has links) No description available. MC-CDMA FG-MC-CDMA multicarrier OFDM CDMA power allocation multiband multi-level orthogonal codes (MLO)
12	FPGA Software Design of Constrained Adaptive Inverse QRD-RLS Algorithm Pan, Ai-Rong 23 June 2004 (has links) In this thesis, the multi-carrier (MC) code division multiple access (CDMA) system in Rayleigh fading channel is considered. The system performance will be degraded due to multiple access interference (MAI) or background noise. It is know that linearly constrained inverse QR-decomposition (LC-IQRD) recursive least-square algorithm can overcome the problems. The main concern of this thesis is to implement the circuit of LC-IQRD algorithm. FPGA components and sets up a high efficient programmable hardware module. In this thesis, we implemented the circuit of LC-IQRD algorithm via a chip of Field Programmable Gate Array (FPGA) with Verilog HDL. The conventional IQRD circuit design employs systolic array architecture. The advantages of systolic array architecture include modularity and hardware simplicity. These properties are extremely desirable for VLSI implementation. In fact, we expect to reduce the execution time of the conventional IQRD algorithm circuit design. Therefore, in this thesis a modified IQRD circuit design is proposed to improve the effect of circuit implementation. It also has advantage of modularity and reduces the execution time. In order to degrade complexity of LC-IQRD algorithm circuit design, the area and speed of circuit are the consideration in this thesis. The data source is produced by Matlab software. We verify the performance of the system in terms of BER (bit error rate) and SINR (signal to interference and noise ratio).Finally, LC-IQRD algorithm circuit is realized in the Altera EP20k1500EFC-33 chip and on the Quartus II of Altera. The algorithm circuit uses 51536 logic elements (LE) for 30 bits fixed point design. MAI FPGA RLS Algorithm Constrained MC-CDMA IQRD
13	Integration of Space-Time Coding and Complementary Code CDMA System: System Design and Theoretical Analysis Yeh, Yu-Ching 20 August 2004 (has links) This thesis mainly focuses on the integration of Space-Time Block Coding (STBC) and Complementary Code based CDMA system. Our proposed integration systems have not only the merit of complementary code but also the extra advantage of diversity gain from STBC. Especially, when the different frequency channel gain has strong correlation, the complementary code will cancel most of interference. We also present a lot of improved structures for our proposed systems. We utilize special filters in receiver such as Zero-Forcing filter and Turbo Filter to assist complementary code in canceling interference. MC-CDMA Space-Time Coding Complementary code OFDM
14	Performance Improvement of Downlink MC-CDMA Cellular System with an Intermittent Transmission FUSHIKI, Masashi, YAMAZATO, Takaya, KATAYAMA, Masaaki, 片山, 正昭 01 1900 (has links) No description available. MC-CDMA Intercell-Interference downlink asynchronous cellular system
15	Méthodologie de modélisation et d'exploration d'architecture de réseaux sur puce appliquée aux télécommunications Delorme, Julien 21 February 2007 (has links) (PDF) Les densités d'intégration actuelles des circuits intégrés permettent de disposer de SoC (systèmes sur puce) de plus en plus complexes, intégrant de plus en plus de standards. Par conséquent, le problème des interconnexions entre tous les blocs IP (Intellectual Property) constituant le SoC devient un point critique que les structures de communications actuelles ne parviennent plus à solutionner.<br />Ces problèmes sont notamment liés aux besoins de plus en plus forts en mobilité et en débit dans les architectures de communication actuelles et futures. Ainsi, les solutions à base de NoC (Network on Chip) offrent de bonnes perspectives en terme de bande passante et de flexibilité pour pallier notamment aux limites actuelles des topologies bus. Les travaux de thèse présentés ici portent sur la méthodologie de modélisation et d'exploration d'architectures de réseaux sur puce appliquée aux télécommunications.<br />Le contexte radio-télécommunications étudié est celui proposé dans le cadre du projet Européen 4MORE pour lequel nous avons contribué. Une des contraintes de ce projet était d'intégrer dans un SoC la technique MC-CDMA (Multiple Carrier Code Division Multiple Access) combinant la technique MIMO en utilisant un média de communication innovant.<br />Ainsi, nous avons contribué à cette intégration en proposant une méthodologie de conception permettant d'aider le concepteur dans le choix des différents paramètres caractérisant le NoC pour satisfaire les contraintes temps réel de l'application spécifiées dans le cahier des charges.<br />Ces travaux de thèse ont porté sur la modélisation et l'interconnexion des composants IP constituant la chaîne algorithmique du projet 4MORE afin de les intégrer dans un modèle SystemC du NoC. Par ailleurs, les choix de dimensionnement du réseau et des contraintes de placement des blocs IP sur celui-ci ont un impact important sur les performances globales de l'application. Nous avons mis en place un outil AAA (Adéquation Algorithme Architecture) permettant de réaliser l'adéquation des contraintes de l'application sur l'architecture en minimisant les chemins de communication tout en veillant à ne pas violer les bandes passantes théoriques des liens de communication entre routeurs.<br />Le flot de conception mis en œuvre permet au concepteur de générer le modèle SystemC du NoC et permettra à cours terme de générer le code VHDL associé du modèle SystemC simulé afin d'accélérer les phases de simulation et de donner la possibilité de valider logiciellement et matériellement (cible FPGA) l'architecture avec son application. NoC SoC SystemC FPGA 4G MC-CDMA MIMO
16	Statistical analysis and reduction of multiple access interference in MC-CDMA systems Li, Xuan January 2008 (has links) Multicarrier code division multiple access (MC-CDMA) is a very promising candidate for the multiple access scheme in fourth generation wireless communi- cation systems. During asynchronous transmission, multiple access interference (MAI) is a major challenge for MC-CDMA systems and significantly affects their performance. The main objectives of this thesis are to analyze the MAI in asyn- chronous MC-CDMA, and to develop robust techniques to reduce the MAI effect. Focus is first on the statistical analysis of MAI in asynchronous MC-CDMA. A new statistical model of MAI is developed. In the new model, the derivation of MAI can be applied to different distributions of timing offset, and the MAI power is modelled as a Gamma distributed random variable. By applying the new statistical model of MAI, a new computer simulation model is proposed. This model is based on the modelling of a multiuser system as a single user system followed by an additive noise component representing the MAI, which enables the new simulation model to significantly reduce the computation load during computer simulations. MAI reduction using slow frequency hopping (SFH) technique is the topic of the second part of the thesis. Two subsystems are considered. The first sub- system involves subcarrier frequency hopping as a group, which is referred to as GSFH/MC-CDMA. In the second subsystem, the condition of group hopping is dropped, resulting in a more general system, namely individual subcarrier frequency hopping MC-CDMA (ISFH/MC-CDMA). This research found that with the introduction of SFH, both of GSFH/MC-CDMA and ISFH/MC-CDMA sys- tems generate less MAI power than the basic MC-CDMA system during asyn- chronous transmission. Because of this, both SFH systems are shown to outper- form MC-CDMA in terms of BER. This improvement, however, is at the expense of spectral widening. In the third part of this thesis, base station polarization diversity, as another MAI reduction technique, is introduced to asynchronous MC-CDMA. The com- bined system is referred to as Pol/MC-CDMA. In this part a new optimum com- bining technique namely maximal signal-to-MAI ratio combining (MSMAIRC) is proposed to combine the signals in two base station antennas. With the applica- tion of MSMAIRC and in the absents of additive white Gaussian noise (AWGN), the resulting signal-to-MAI ratio (SMAIR) is not only maximized but also in- dependent of cross polarization discrimination (XPD) and antenna angle. In the case when AWGN is present, the performance of MSMAIRC is still affected by the XPD and antenna angle, but to a much lesser degree than the traditional maximal ratio combining (MRC). Furthermore, this research found that the BER performance for Pol/MC-CDMA can be further improved by changing the angle between the two receiving antennas. Hence the optimum antenna angles for both MSMAIRC and MRC are derived and their effects on the BER performance are compared. With the derived optimum antenna angle, the Pol/MC-CDMA system is able to obtain the lowest BER for a given XPD.
17	Joint iterative channel and data estimation in high mobility MIMO-OFDM systems Sand, Stephan January 2009 (has links) Zugl.: Zürich, Techn. Hochsch., Diss., 2009 / Fälschl. als Bd. 6 der Schriftenreihe bezeichnet
18	Beamforming for MC-CDMA Venkatasubramanian, Ramasamy 10 March 2003 (has links) Orthogonal Frequency Division Multiplexing (OFDM) has recently gained a lot of attention and is a potential candidate for Fourth Generation (4G) wireless systems because it promises data rates up to 10Mbps. A variation of OFDM is Multi-Carrier CDMA (MC-CDMA) which is an OFDM technique where the individual data symbols are spread using a spreading code in the frequency domain. The spreading code associated with MC-CDMA provides multiple access technique as well as interference suppression. Often times in cellular and military environments the desired signal can be buried below interference. In such conditions, the processing gain associated with the spreading cannot provide the needed interference suppression. This research work investigates multi-antenna receivers for OFDM and MC-CDMA systems; specifically this works investigates adaptive antenna algorithms for MC-CDMA for very different channel conditions. Frequency domain beamforming is studied in this research predominantly through simulation. As an alternative a time domain beamforming is also studied. Time variations in the channel can disrupt the orthogonality between subcarriers. Minimum Mean Square Error (MMSE) detection coupled with MMSE beamforming is proposed for time varying channels. Semi-analytic results are derived to study the Bit Error Rate (BER) performance. These results show significant performance improvement in the presence of interference. Joint MMSE weights in space and frequency is also investigated and semi-analytic results are derived to study their BER performance. / Master of Science MMSE detection Multicarrier systems Beamforming OFDM MC-CDMA
19	On the System Level Performance of MC-CDMA Systems in the Downlink Mourad, Abdel-Majid 10 January 2006 (has links) (PDF) La technique de transmission multi-porteuse à étalement de spectre, MC-CDMA, est un candidat potentiel pour les interfaces radio des futurs systèmes radio mobiles. Cette technique bénéficie d'une part de la robustesse de la transmission multi-porteuse OFDM face à la propagation multi-trajets et d'autre part de la flexibilité de l'accès multiple à répartition par codes CDMA. Cette thèse s'intéresse à l'étude des performances systèmes de la technique MC-CDMA en voie descendante. L'objectif est de valider au niveau système les concepts et algorithmes de la couche physique MC-CDMA.<br />La thèse s'articule autour de deux thématiques qui sont liées. La première thématique concerne l'abstraction de la couche physique au niveau système. Cette thématique est aussi connue sous le nom d'interfaçage entre les niveaux lien physique et système. L'abstraction de la couche physique a pour principal objectif de définir une mesure adéquate pour prédire la qualité de transmission au niveau système. Dans cette thèse, nous étudions l'abstraction de la couche physique suivant deux échelles de temps. La première échelle est macroscopique et porte sur la transmission de plusieurs trames de données subissant des évanouissements de canal indépendants. La deuxième échelle est dite microscopique et porte sur la transmission d'une seule trame de données subissant un évanouissement particulier du canal. L'abstraction macroscopique est appropriée pour une évaluation des performances systèmes par des simulations systèmes statiques alors que l'abstraction microscopique est plus appropriée pour une évaluation plus précise des performances systèmes ainsi que pour étudier les algorithmes d'adaptation de lien par des simulations systèmes dynamiques. Dans notre étude, nous analysons les problèmes soulevés par les deux types d'abstraction et proposons des nouvelles solutions appropriées.<br />La deuxième thématique concerne l'évaluation de la capacité cellulaire des algorithmes et configurations de la couche physique MC-CDMA. En utilisant l'abstraction macroscopique, nous développons une méthodologie semi analytique d'évaluation de la capacité cellulaire. L'évaluation de la capacité est faite aussi bien au niveau lien à travers un nouvel indicateur de capacité qu'au niveau système à travers un simulateur statique de type Monte Carlo. La méthodologie développée ici est un outil simple et efficace pour identifier les algorithmes et configurations de couche physique les mieux adaptés pour un environnement donné.<br /><br />Mots clefs - MC-CDMA, modélisation d'interférence, interfaçage lien système, capacité cellulaire, simulations systèmes. MC-CDMA modélisation d'interférence interfaçage lien système capacité cellulaire simulations systèmes
20	Soft Handoff in MC-CDMA Cellular Networks Supporting Multimedia Services Zhang, Jinfang January 2004 (has links) An adaptive resource reservation and handoff priority scheme, which jointly considers the characteristics from the physical, link and network layers, is proposed for a packet switching Multicode (MC)-CDMA cellular network supporting multimedia applications. A call admission region is derived for call admission control (CAC) and handoff management with the satisfaction of quality of service (QoS) requirements for all kinds of multimedia traffic, where the QoS parameters include the wireless transmission bit error rate (BER), the packet loss rate (PLR) and delay requirement. The BER requirement is guaranteed by properly arranging simultaneous packet transmissions, whereas the PLR and delay requirements are guaranteed by the proposed packet scheduling and partial packet integration scheme. To give service priority to handoff calls, a threshold-based adaptive resource reservation scheme is proposed on the basis of a practical user mobility model and a proper handoff request prediction scheme. The resource reservation scheme gives handoff calls a higher admission priority over new calls, and is designed to adjust the reservation-request time threshold adaptively according to the varying traffic load. The individual reservation requests form a common reservation pool, and handoff calls are served on a first-come-first-serve basis. By exploiting the transmission rate adaptability of video calls to the available radio resources, the resources freed from rate-adaptive high-quality video calls by service degradation can be further used to prioritize handoff calls. With the proposed resource reservation and handoff priority scheme, the dynamic properties of the system can be closely captured and a better grade of service (GoS) in terms of new call blocking and handoff call dropping probabilities(rates) can be achieved compared to other schemes in literature. Numerical results are presented to show the improvement of the GoS performance and the efficient utilization of the radio resources. Electrical & Computer Engineering soft handoff MC-CDMA multimedia services call admission control quality of service

Search results