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Physical Layer Algorithms for Interference Reduction in OFDM-Based Cognitive Radio SystemsTom, Anas 01 January 2015 (has links)
Orthogonal Frequency Division Multiplexing (OFDM) is a multi-carrier transmission scheme used in most of the existing wireless standards such as LTE, WiFi and WiMAX. The popularity of OFDM stems from the multitude of benefits it offers in terms of providing high data rate transmission, robustness against multipath fading and ease of implementation. Additionally, OFDM signals are agile in the sense that any subcarrier can be switched on or off to fit the available transmission bandwidth, which makes it well suited for systems with dynamic spectrum access such as cognitive radio systems. Nonetheless, and despite all the aforementioned advantages, OFDM signals have high spectral sidelobes outside the designated band of transmission, that can create severe interference to users in adjacent transmission bands, particularly when there is no synchronization between users. The focus of this dissertation is to propose baseband solutions at the Physical Layer (PHY) of the communications system to address the interference resulting from the high out-of-band (OOB) emissions of OFDM.
In the first part of this dissertation, we propose a precoder capable of generating mask compliant OFDM signals with low OOB emissions that are always contained under a given spectrum emission mask (SEM) specified by the OFDM standard. The proposed precoder generates transmitted signals with bit error rate (BER) performance similar to that of classical OFDM and does not reduce the spectral efficiency of the system.
In the second part of this dissertation, we introduce a novel and elegant approach, called suppressing alignment (SA), to jointly reduce the OOB interference and peak-to-average power ratio (PAPR) of OFDM systems. SA exploits the unavoidable redundancy provided by the CP as well as the wireless communications channel to generate an OOB/PAPR suppressing signal at the OFDM transmitter. Furthermore, after passing through the wireless channel, the suppressing signal is aligned with the CP duration at the OFDM receiver, essentially causing no interference to the data portion of the OFDM symbol. The proposed approach improves the PAPR of the transmitted OFDM signal and reduces the OOB interference by tens of decibels. Additionally, the proposed approach maintains an error performance similar to that of plain OFDM without requiring any change in the receiver structure of legacy OFDM.
In order to reduce the spectral emissions of OFDM, additional blocks, such as linear precoders, are usually introduced in the transmitter leading to a transmitted signal that is drastically different than that of a classical OFDM signal. This distortion is typically quantified by the error vector magnitude (EVM), a widely used metric specified by the wireless standard and is directly related to the BER performance of the system. The receiver can usually decode the information data with acceptable error probabilities if the distortion introduced to the transmitted signal is below the EVM values specified in the OFDM standard. Linear precoders, while capable of achieving significant reduction in the OOB interference, they typically introduce large distortion to the transmitted signal. As such, the receiver needs to know the precoding done at the transmitter to be able to recover the data which usually entails sending large amount of side information that can greatly reduce the spectral efficiency of the system. In the last part of this dissertation, we target the design of precoders for the purpose reducing the OOB interference, in a transparent manner where the receiver does not need to know the changes introduced in the transmitter. We present two precoders capable of significantly reducing the OOB emissions while producing transmitted signals with EVM values below those specified by the wireless standard, thereby guaranteeing acceptable error performance.
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Study on Communication System From the Perspective of Improving Signal-to-Noise Ratio / 通信システムにおけるSN比の改善に関する研究Tsuda, Hirofumi 25 March 2019 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(情報学) / 甲第21915号 / 情博第698号 / 新制||情||120(附属図書館) / 京都大学大学院情報学研究科数理工学専攻 / (主査)教授 梅野 健, 教授 山下 信雄, 教授 守倉 正博 / 学位規則第4条第1項該当 / Doctor of Informatics / Kyoto University / DFAM
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Negative Conductance Load Modulation RF Power AmplifierNeslen, Cody R 01 June 2010 (has links) (PDF)
The number of mobile wireless devices on the market has increased substantially over the last decade. The frequency spectrum has become crowded due to the number of devices demanding radio traffic and new modulation schemes have been developed to accommodate the number of users. These new modulation schemes have caused very poor efficiencies in power amplifiers for wireless transmission systems due to high peak-to-average power ratios (PAPR). This thesis first presents the issue with classical power amplifiers in modern modulation systems. A brief overview of current attempts to mitigate this issue is provided. A new RF power amplifier topology is then presented with supporting simulations.
The presented amplifier topology utilizes the concept of negative conductance and load modulation. The amplifier operates in two stages, a low power stage and a high power stage. A negative conductance amplifier is utilized during peak power transmission to modulate the load presented to the input amplifier. This topology is shown to greatly improve the power added efficiency of power amplifiers in systems with high PAPR.
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Investigation of Power Reduction Methods for Multi-User MIMO WLAN ApplicationsMcCarthy, Stephen J. January 2014 (has links)
No description available.
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Etude et optimisation des techniques MC-CDMA pour les futures générations de systèmes de communications hertziennesNOBILET, Stéphane 03 October 2003 (has links) (PDF)
Les futurs systèmes de radiocommunications devront proposer des services nécessitant des transferts de données à haut débit, tout en garantissant une grande mobilité aux utilisateurs. Pour y parvenir, de nouvelles techniques de traitement de signal doivent être mises en oeuvre. Une de ces approches constituant actuellement un axe important de la recherche dans ce domaine est la technique MC-CDMA. Cette dernière repose sur la combinaison de deux techniques : les modulations à porteuses multiples et l'étalement de spectre. Les travaux de recherche présentés dans cette thèse ont pour buts l'étude et l'optimisation des systèmes de communications mettant en oeuvre cette technique MC-CDMA.<br /><br />Après une présentation générale des différentes façons de combiner les techniques de modulations à porteuses multiples et d'étalement de spectre, les performances des systèmes MC-CDMA sont présentées sur des canaux de Rayleigh et BRAN dans le cas de détection mono-utilisateur et multi-utilisateur.<br /><br />Puis, l'influence des codes d'étalement sur la variation de la dynamique de l'enveloppe du signal émis, et sur l'interférence produite par la cohabitation des données de plusieurs utilisateurs sur les mêmes ressources fréquentielles et temporelles est étudiée. Pour cela, nous nous sommes intéressés aux variations de l'enveloppe des sisgnaux MC-CDMA à travers l'étude du facteur de crête et du facteur de crête global. Ces quantités permettent d'estimer les fluctuations du signal transmis respectivement en voie montante et descendante. En ce qui concerne la minimisation de l'interférence d'accès multiple, une technique reposant sur l'allocation des séquences d'étalement est décrite et plusieurs critères de sélection des codes d'étalement sont proposés.<br /><br />Enfin, une attention particulière est portée à l'optimisation de la voie montante des systèmes MC-CDMA. Afin d'éviter l'insertion de Nu jeux de sous-porteuses pilotes servant à estimer les Nu canaux de la voie montante, une solution reposant sur le principe de la réciprocité du canal radiomobile est ici proposée. Cette alternative consiste à effectuer une prédistorsion du signal utile dans le terminal avant son émission. Deux variantes sont envisagées, la première repose sur un multiplexage temporel des voies montante et descendante alors que la seconde repose sur un multiplexage fréquentiel de ces deux voies.
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CP-Free Space-Time Block Coded MIMO-OFDM System Design Under IQ-Imbalance in Multipath ChannelHuang, Hsu-Chun 26 August 2010 (has links)
Orthogonal frequency division multiplexing (OFDM) systems with cyclic prefix (CP) can be used to protect signal from the time-variant multipath channel induced distortions. However, the presence of CP could greatly decrease the effective data rate, thus many recent research works have been focused on the multiple-input multiple-output (MIMO) OFDM systems without CP (CP-free), equipped with the space-time block codes (ST-BC). The constraint of the conventional MIMO-OFDM (without using the ST-BC) system is that the number of receive-antenna has to be greater than the transmit-antenna. In this thesis, we first consider the ST-BC MIMO-OFDM system and show that the above-mentioned constraint can be removed, such that the condition become that the receive antenna should be greater than one, that is the basic requirement for MIMO system. It is particular useful and confirm to the recently specification, e.g., 3GPP LTE (Long Term Evolution) where the system deploy the 2¡Ñ2 or 4¡Ñ4 antennas systems. This thesis also considers the effects of peak-to-average power ratio (PAPR) in the transmitter and In-phase/ Quadrature-phase (IQ) imbalance in the receiver, and solves them by using the adaptive Volterra predistorter and blind adaptive filtering approach of the nonlinear parameters estimation and compensation, along with the power measurement, respectively. After the compensator of IQ imbalance in the receiver, an equalizer under the framework of generalized sidelobe canceller (GSC) is derived for interference suppression. To further reduce the complexity of receiver implementation, the partially adaptive (PA) scheme is applied by exploiting the structural information of the signal and interference signature matrices. As demonstrated from computer simulation results, the performance of the proposed CP-free ST-BC MIMO-OFDM receiver is very similar to that obtained by the conventional CP-based ST-BC MIMO-OFDM system under either the predistortion or compensation scenario.
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Peak-to-Average Power Reduction Schemes in SFBC MIMO-OFDM Systems without Side InformationCiou, Ying-Chi 30 July 2012 (has links)
Selected mapping (SLM) is a well-known technique used to reduce the peak-to-average power ratio (PAPR) in orthogonal frequency division multiplexing (OFDM) systems. Although SLM scheme can reduce PAPR efficiently, the side information (SI) must be transmitted to the receiver to indicate the candidate signal that generates the OFDM signal with the lowest PAPR. Robust channel coding schemes are typically adopted to prevent erroneous decoding of SI, leading to the lower bandwidth efficiency. To reduce PAPR efficiently and avoid the bandwidth efficiency loss caused by the transmission of SI, two novel PAPR reduction methods are proposed in SFBC MIMO-OFDM systems with two transmitter antennas that employs the Alamouti coding. The candidate signals are constructed in the frequency-domain and time-domain in the first proposed scheme and the second proposed scheme, respectively. In addition, the orthogonality of the space frequency block code is preserved resulting in the data recovery and the corresponding SI can be easily obtained from the conventional Alamouti detection method for both transmission methods. Simulation results show that the BER performance of a SFBC MIMO-OFDM system with the proposed SI detection algorithm is very close to that of perfect SI detection if the extension factor is larger than 1.3.
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A PAPR Reduction Scheme for SFBC MIMO-OFDM SystemsTsai, Kun-Han 11 August 2009 (has links)
In multiple-input multiple-output (MIMO) orthogonal frequency division multiplexing (OFDM) system which was used space frequency block coding (SFBC) method. It order to reduce the peak-to-average power ratio in several transmit antennas. We proposed two new architectures to simply the computational complexity on transmitter. According to the characteristics of SFBC structure which have M transmitter antennas. We can decomposed the interleaving subcarrier groups by used conversion vector to circular convolution with signal vector and shrink the inverse fast Fourier transform (IFFT) points. Therefore it can do the SFBC coding operation in time domain. By using combination of different cyclic shifts and phase rotations in U subcarrier groups can generate the P candidate signals. And it wouldn¡¦t increase the number of IFFT. The proposed transmitter architectures can improve the major drawback of high computational complexity in traditional selected mapping (SLM). The traditional SLM generate the P candidate signals needs MP IFFT units. Then in the condition of lose a little PAPR reduction performance, we can save the most of computational complexity.
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Block Transmissions On Orthogonal CarriersYazici, Ayhan 01 September 2005 (has links) (PDF)
Orthogonal Frequency Division Multiplexing (OFDM) and Single Carrier
Block Transmissions (SCBT) are located at the two opposite edges of block
transmission concept. In this thesis a system which lies between OFDM
and SCBT is proposed. The new system, namely Block Transmissions on
Orthogonal Carriers (BTOC), can be considered as a hybrid form of OFDM
and SCBT. BTOC system is investigated under the redundant filterbank
precoders and equalizers framework. Peak to average power ratio (PAPR) of
BTOC is formulated and compared with the PAPRs of OFDM and SCBT.
Effect of frequency offset for BTOC is investigated and comparison between
OFDM, SCBT, and BTOC is presented. Simulation results of Zero Padded
OFDM (ZP-OFDM), SCBT, and BTOC are included.
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Distortion-based crest factor reduction algorithms in multi-carrier transmission systemsZhao, Chunming 12 November 2007 (has links)
Distortion-based crest factor reduction (CFR) algorithms were studied in orthogonal frequency division multiplexing (OFDM) and multiple-input multiple-output (MIMO) OFDM systems to reduce the nonlinear distortion and improve the power efficiency of the transmitter front-end. First, definitions of peak-to-average-power ratio (PAR) were clarified based on the power efficiency improvement consideration in the MIMO-OFDM systems. Next, error vector magnitude (EVM) was used as the in-band performance-evaluating metric. Statistical analysis of EVM was performed to provide concrete thresholds for the amount of allowable distortions from each source to meet EVM requirements in the standard. Furthermore, an effective CFR technique, constrained clipping, was proposed to drastically reduce the PAR while satisfying any given in-band EVM and out-of-band spectral mask constraints. Constrained clipping has low computational complexity and can be easily extended to the multiple-user OFDM environment. Finally, signal-to-noise-and-distortion ratio (SNDR) analysis for transceiver nonlinearities in the additive white Gaussian noise channel was investigated. An analytical solution was presented for maximizing the transceiver SNDR for any given set of nonlinear transmitter polynomial coefficients. Additionally, mutually inverse pair of transceiver nonlinearities was shown to be SNDR-optimal only in the noise-free case.
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