Global ETD Search

1	Διαφορισμός χώρου σε συστήματα επικοινωνιών Κουτσονίκος, Βασίλειος 16 June 2011 (has links) Στην παρούσα εργασία γίνεται μελέτη της χρήσης του διαφορισμού στις ασύρματες επικοινωνίες. Αρχικά, γίνεται η εισαγωγή και ορίζεται το πεδίο μελέτης. Στη συνέχεια, μοντελοποιείται το ασύρματο κανάλι και παρουσιάζονται οι δυσκολίες που προκύπτουν στη μετάδοση. Συγκρίνεται το κανάλι διαλείψεων (fading channel) με το κανάλι λευκού προσθετικού Γκαουσιανού Θορύβου (AWGN). Στη συνέχεια, γίνεται εισαγωγή στην έννοια του διαφορισμού και περιγράφεται ο διαφορισμός στο χώρο με τη χρήση πολλαπλών κεραιών. Ακολουθεί η ανάλυση ενός συστήματος SIMO οπου γίνεται διαφορισμός μόνο στο δέκτη. Ύστερα, εξετάζεται ένα σύστημα MISO οπου γίνεται διαφορισμός μόνο στον πομπό. Εξετάζονται διάφοροι τρόποι μετάδοσης όπως το σχήμα Alamouti. Το επόμενο κεφάλαιο αποτελεί την εισαγωγή στα συστήματα ΜΙΜΟ και περιγράφεται η ορθογωνοποίηση ενός καναλιού ΜΙΜΟ με τη χρήση SVD. Μελετάται η βέλτιστη κατανομή ενέργειας από τον πομπό. Στη συνέχεια, αναλύονται μέθοδοι ισοστάθμισης για την ανάκτηση των δεδομένων που μεταδίδονται. Εξετάζεται ο αποσυσχετιστής (decorrelator) και ο ισοσταθμιστής ελάχιστου μέσου τετραγωνικού σφάλματος (ΜΜSE). Ακολουθεί η εξέταση μη γραμμικών ισοσταθμιστών ανάδρασης απόφασης και γίνεται αναφορά στην αρχιτεκτονική V-BLAST. Στη συνέχεια γίνεται αναφορά στο βέλτιστο δέκτη και γίνεται σύγκριση του δέκτη αυτού με τους ισοσταθμιστές. / Study of space diversity in wireless communications. The first part is the introduction and the field of study is defined. The next chapter introduces the fading channel. The performance of the Rayleigh fading channel and the AWGN channel are compared. Later, follows the introduction to diversity. We examine a SIMO and a MISO channel. In the MISO channel, emphasis is given on the Alamouti scheme. Later, MIMO channels are discussed. We talk about transmission using Singular Value Decomposition with or without waterfilling. Later, we discuss the equalizers used in MIMO communications. Zero Forcing and Minimum Mean Square Error (MMSE) equalizers are discussed. The next topic of study is decision feedback equalizers. Finally we discuss the optimal receiver architecture and compare its performance against the aforementioned equalizers. Διαφορισμός 004.65 Diversity MIMO Rayleigh Alamouti
2	Performance Study of Precoding Techniques on Generalized Spatial Modulation with Correlated Antennas Sun, Yafei, Borah, Deva K. 10 1900 (has links) ITC/USA 2015 Conference Proceedings / The Fifty-First Annual International Telemetering Conference and Technical Exhibition / October 26-29, 2015 / Bally's Hotel & Convention Center, Las Vegas, NV / Spatial modulation (SM) reduces transceiver complexity and inter-channel interference over traditional multiple input multiple output (MIMO) systems. It has been shown recently in the literature that the use of a precoder in an SM or a generalized spatial modulation (GSM) system can significantly improve error performance. This paper investigates two issues related to precoders: 1) the use of a precoder in Alamouti-GSM systems, and 2) the effects of power constraints on the precoder design. The results in this paper show that Alamouti-GSM can improve system performance by several dB. On power constraint issues, the paper shows that there is a trade-off between limiting antenna power fluctuations and the potential gain due to precoders. MIMO spatial modulation Precoder correlated antennas Alamouti technique
3	Generalized Spatial Modulation with Correlated Antennas in Rayleigh Fading Channels Sun, Yafei 10 1900 (has links) ITC/USA 2014 Conference Proceedings / The Fiftieth Annual International Telemetering Conference and Technical Exhibition / October 20-23, 2014 / Town and Country Resort & Convention Center, San Diego, CA / Spatial modulation (SM) is a transmission scheme where only one transmit antenna is active at any time instant. It thus reduces interchannel interference (ICI) and receiver complexity over traditional multi-antenna systems. However, the spectral efficiency of SM is low. To improve the spectral efficiency, generalized spatial modulation (GSM) can be used. In this paper, we propose to apply the Alamouti technique with GSM for correlated antennas, and show that the proposed approach provides significant improvement over conventional SM and GSM. Our study also shows the importance of bit-to-antenna mappings and their roles on the selection of appropriate correlated antennas. MIMO spatial modulation Rayleigh fading correlated antennas Alamouti technique
4	Implementation and performance evaluation of WiMAX STC for OFDMA Chye, Chia Boon 12 1900 (has links) Approved for public release; distribution is unlimited. / The major driver for broadband wireless communications has been reliable, high-data rate services. In wireless communication, the multipath fading constitutes a bottleneck for increasing data rates and causes performance degradation. To combat fading, we can use diversity. Wireless systems with multiple antennas at the transmitter and receiver have much larger capacity in fading channels than standard wireless systems. The objective of this thesis is to investigate the transmission scheme provided by matrix A and B in the 802.16 standard and show how it can be implemented. The research focuses on using maximal-ratio combining (MRC) to demodulate the transmitted symbols. Modifications to the existing matrix by using more frequency bands were introduced; this reduces the number of transmitting antennas and uses fewer time slots to transmit the same number of symbols. The modulator and demodulator design is also discussed. The performance of orthogonal and non-orthogonal space time codes (STC) are evaluated. / Civilian MRC STBC ML WiMAX Alamouti Code Quasi-Orthogonal, Non-Orthogonal
5	Simulation of Alamouti Coded MIMO Signals over a Nakagami Fading Channel Manamohan, Swathi 23 September 2019 (has links) No description available. Electrical Engineering MIMO Alamouti codes Nakagami fading channel
6	Transmitter and receiver design for inherent interference cancellation in MIMO filter-bank based multicarrier systems / Conception d’émetteur et récepteur pour l’élimination des interférences intrinsèques dans les systèmes multiporteuses à base de bancs de filtres et à antennes multiples Zakaria, Rostom 07 November 2012 (has links) Grâce à leur capacité de faire face à la sélectivité fréquentielle des canaux de transmission, les modulations multi-porteuses (MC) attirent de plus en plus d’attention. De nos jours, la modulation OFDM avec le préfixe cyclique (CP) est la plus utilisée, et cela grâce à sa simplicité et à sa robustesse. Cependant, la technique CP-OFDM présente une perte dans l’efficacité spectrale à cause de l’introduction du CP puisqu’il contient des informations redondantes. De plus, la réponse rectangulaire du filtre de mise en forme utilisé en OFDM a une mauvaise localisation fréquentielle. Afin de surmonter ces inconvénients, la modulation multi-porteuse à base des bancs de filtres (FBMC) a été proposée en tant qu’une approche alternative à la modulation OFDM. En effet, on n’a pas besoin d’insérer un intervalle de garde, tel que le CP, dans la modulation FBMC. D’autre part, la bonne localisation fréquentielle de la réponse du filtre de mise en forme permet un meilleur contrôle de la radiation hors-bande du système. Dans la littérature, on trouve plusieurs types de la modulations FBMC basés sur différentes structures. Dans cette thèse, nous ne nous intéressons que sur le schéma de Saltzberg appelé OFDM/OQAM ou FBMC/OQAM. Dans ce schéma, les symboles envoyés sur chaque sous-porteuse sont tirés d’une constellation PAM réelle, et les symboles réels sont envoyés à une cadence de 2/T . La condition d’orthogonalité est réduite sur l’ensemble des réels uniquement. En conséquence, le symbole démodulé et égalisé est infecté par un terme d’interférence purement imaginaire. Ce terme d’interférence est une combinaison linaire des symboles transmis dans le voisinage du symbole concerné. La présence de cette interférence inhérente cause des difficultés de détection dans certains schéma multi-antennes (MIMO).L’objectif de cette thèse est d’étudier l’association de la modulation FBMC aux techniques MIMO, à savoir le multiplexage spatiale avec détection de maximum de vraisemblance (ML). Dans un premier temps, nous proposons d’analyser différentes techniques d’annulation d’interférence que nous adaptons au contexte de MIMO-FBMC. Nous montrons que, dans certains cas, nous pouvons bien retirer l’interférence et appliquer la détection ML. Ensuite, nous proposons d’apporter une légère modification dans la modulation FBMC en transmettant des symbole QAM complexes. Évidement, cela brise la condition d’orthogonalité mais nous montrons qu’ainsi la puissance d’interférence sera considérablement réduite. Enfin, nous introduisons un nouveau schéma basé sur la modulation FBMC. Ce schéma, que nous avons baptisé FFT-FBMC, transforme le modèle du système à un modèle équivalent à celui de l’OFDM. Ainsi, n’importe quelle technique multi-antennes pourra être appliquée sans aucune difficulté. D’abord, nous développons le système FFT-FBMC dans un contexte SISO, et puis nous évaluons ces performances dans le contexte MIMO. / Multicarrier (MC) Modulation attracts a lot of attention for high speed wireless transmissions because of its capability to cope with frequency selective fading channels turning the wideband transmission link into several narrowband subchannels whose equalization, in some situations, can be performed independently and in a simple manner. Nowadays, orthogonal frequency division multiplexing (OFDM) with the cyclic prefix (CP) insertion is the most widespread modulation among all MC modulations, and this thanks to its simplicity and its robustness against multipath fading using the cyclic prefix. Systems or standards such as ADSL or IEEE802.11a have already implemented the CP-OFDM modulation. Other standards like IEEE802.11n combine CP-OFDM and multiple-input multiple-output (MIMO) in order to increase the bit rate and to provide a better use of the channel spatial diversity. Nevertheless, CP-OFDM technique causes a loss of spectral efficiency due to the CP as it contains redundant information. Moreover, the rectangular prototype filter used in CP-OFDM has a poor frequency localization. This poor frequency localization makes it difficult for CP-OFDM systems to respect stringent specifications of spectrum masks.To overcome these drawbacks, filter-bank multicarrier (FBMC) was proposed as an alternative approach to CP-OFDM. Indeed, FBMC does not need any CP, and it furthermore offers the possibility to use different time-frequency well-localized prototype filters which allow much better control of the out-of-band emission. In the literature we find several FBMC systems based on different structures. In this thesis, we focus on the Saltzberg’s scheme called OFDM/OQAM (or FBMC/OQAM). The orthogonality constraint for FBMC/OQAM is relaxed being limited only to the real field while for OFDM it has to be satisfied in the complex field. Consequently, one of the characteristics of FBMC/OQAM is that the demodulated transmitted symbols are accompanied by interference terms caused by the neighboring transmitted data in time-frequency domain. The presence of this interference is an issue for some MIMO schemes and until today their combination with FBMC remains an open problem.The aim of this thesis is to study the combination between FBMC and MIMO techniques, namely spatial multiplexing with ML detection. In the first part, we propose to analyze different intersymbol interference (ISI) cancellation techniques that we adapt to the FBMC/OQAM with MIMO context. We show that, in some cases, we can cope with the presence of the inherent FBMC interference and overcome the difficulties of performing ML detection in spatial multiplexing with FBMC/OQAM. After that, we propose a modification in the conventional FBMC/OQAM modulation by transmitting complex QAM symbols instead of OQAM ones. This proposal allows to reduce considerably the inherent interference but at the expense of the orthogonality condition. Indeed, in the proposed FBMC/QAM,the data symbol and the inherent interference term are both complex. Finally, we introduce a novel FBMC scheme and a transmission strategy in order to avoid the inherent interference terms. This proposed scheme (that we call FFT-FBMC) transforms the FBMC system into an equivalent system formulated as OFDM regardless of some residual interference. Thus, any OFDM transmission technique can be performed straightforwardly to the proposed FBMC scheme with a corresponding complexity growth. We develop the FFT-FBMC in the case of single-input single-output (SISO) configuration. Then, we extend its application to SM-MIMO configuration with ML detection and Alamouti coding scheme. Ofdm Fbmc Banc de filtres Multi-porteuses Mimo Détection de Maximum de Vraisemblance Ml Annulation d’Interférence Alamouti Ofdm Fbmc Filter Bank Multicarrier Mimo Maximum Likelihood detection Ml Interference Cancellation Alamouti 004
7	Mmse Based Iterative Turbo Equalization For Antenna Switching Systems Yildirim, Recep Ali 01 September 2010 (has links) (PDF) In this thesis, we study the performance of an antenna switching (AS) system in comparison to an Alamouti coded system. We analyze the outage probabilities and propose minimum mean-squared error based iterative equalizers for both systems. We see from the outage probability analysis of both systems that the AS system may achieve the same diversity order of the Alamouti coded scheme contingent on the transmission rate and constellation size. In the proposed receiver, MMSE equalization and channel decoding are jointly carried out in an iterative fashion. We use both hard and soft decision channel decoders in our simulations. It is observed that the Alamouti based scheme performs better when the channel state information is perfect. The Alamouti scheme also performs better than the AS scheme when the channel state information is imperfect in hard decision channel decoder case and a random interleaver is used. On the other hand, if a random interleaver is not used, AS scheme performs remarkably better than the Alamouti scheme in hard decision channel decoder case. In a soft decision channel decoder case, when the channel state information is imperfect, the AS scheme performs approximately a 2 dB better than the Alamouti scheme. Moreover, there is approximately a 3 dB performance gain if a soft decision channel decoder is used instead of hard decision.
8	Analysis of OSTBC in Cooperative Cognitive Radio Networks using 2-hop DF Relaying Protocol Tahseen, Muhammad Mustafa, Khan, MatiUllah, Ullah, Farhan January 2011 (has links) To achieve cooperative diversity in cognitive radio network, Decode and Forward (DF) protocol is implemented at Cognitive Radios (CRs) using Orthogonal Space Time Block Coding (OSTBC). The 2-hop communication between source and destination is completed with the help of Cognitive Relays (CRs) using Multiple Input Multiple Output (MIMO) technology within the network. To achieve spatial diversity and good code rate Alamouti 2×2 STBC is used for transmission. CR is using the decoding (Decode and Forward (DF)) strategy and without amplifying ability before forwarding data towards destination provide better performance. The main objective of this thesis is to detect Primary User (PU) spectrum availability or non-availability for the use of Secondary Users (SU). The Alamouti STBC encoded data is broadcasted to wireless Rayleigh faded channel through transmitter having two transmitting antennas. The CRs are preferred to place close with PU to detect transmitted signal and because of having decoding capability CRs decode the collected data using Maximum Likelihood (ML) decoding technique then re-encode the decoded data for further transmission towards receiver. The energy of PU signal received at relays is calculated using energy detector used at cognitive controller having authority to make final decision about presence or absence of PU signal within the spectrum by comparing calculated energy of PU received signal with a predefined value. If the calculated signal energy is less than threshold value it is pretended as the absence of PU and in the other case spectrum is assumed as occupied by PU. Decoding PU signal at relays before forwarding towards destination provide better performance in terms of detection probability and decreasing probability of false alarming as the Signal to Noise (SNR) increases. The proposed cooperative spectrum sensing using DF protocol at cognitive relays with Alamouti STBC is implemented and results are validated by MATLAB simulation. / +46 455 38 50 00 Cognitive Radio Cooperative Communication Alamouti STBC OSTBC Rayleigh Fading Energy Detector DF Relay Maximum Likelihood MRC
9	Applying OSTBC in Cooperative Cognitive Radio Networks Shahzad, Hamid, Botchu, Jaishankar January 2010 (has links) In this report, we introduce cooperative spectrum sensing using orthogonal space time block coding (OSTBC) in order to achieve cooperative diversity in the cognitive radios (CRs) network. Transmit diversity or gain is achieved by introducing more than one antenna on the transmitter and receiver side, but in small electronic mobile devices it looks impractical. The signals received from the primary users (PUs) are amplified by the cognitive relays and further forwarded to the cognitive controller where decisions are made on the basis of the information collected from each cognitive relay. The cooperative relaying protocol used here in cognitive relays is based on an amplifying-forward (AF) scheme. Alamouti scheme in OSTBC has been proposed to achieve better detection performance in CR network. The energy detector performance is analyzed over an independent Rayleigh fading channel. In CR network the secondary user (SU) shares PU's frequency band if it fi nds PU is not in its vicinity. The SU starts using the licensed band and leaves the band as soon as it finds the PU is present or going to use the same band. The detection of the spectrum holes by CRs has to be more agile and intelligent. The main objective of the CRs network is to use the free holes without causing any interference to the PUs. The energy detection technique is simple and outperforms other sensing techniques in cooperative cognitive radio networks. The energy detector collects information from different users, compares it with a certain prede fined threshold () value and then makes a fi nal decision. Detection and false alarm probabilities are derived and manipulated using OSTBC on PU and SU through AF protocol in cooperative communication. The performance of the system is analyzed with single and multiple relays and with and without direct path between the PUs and SUs. Maximum ratio (MRC) and selection combining (SC) schemes are used in energy detector and the results are compared with and without direct link between PU and SU. The analysis is performed by placing the relay close to the PUs. Our results are processed and validated by computer simulation. Cognitive Radio Cooperative Communication OSTBC Rayleigh Fading Alamouti STBC AF Relay MRC Energy Detector
10	Unitary Space-Time Transmit Diversity for Multiple Antenna Self-Interference Suppression Anderson, Adam Lane 13 July 2004 (has links) (PDF) A common practice for government defense agencies and commercial aeronautical companies is to use dual antennas on test flight air vehicles in order to overcome occlusion issues during high-speed telemetric maneuvers. The dual antennas, though never being masked at the same time, unfortunately lead to a drastic increase in nulls in the signal pattern. The result of this interference pattern can be compared to the effect of fading in a multiple-input multiple-output (MIMO) multi-path scattering environment. Confidence in this comparison leads to the use of unitary space-time MIMO codes to overcome the signal self-interference. The possibility and performance of several of these codes will be examined. Such criteria as training for channel estimation, use of shaped offset quadrature phase shift keying (SOQPSK), hardware facility, and data throughput will be compared for each code. A realistic telemetry channel will be derived to increase accuracy of simulated results and conclusions. unitary space-time codes Alamouti differential multiple antenna gray encoding antenna interference SOQPSK Electrical and Computer Engineering

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