Optimizing dense wireless networks of MIMO links

Cortes-Pena, Luis Miguel

27 August 2014

Wireless communication systems have exploded in popularity over the past few decades. Due to their popularity, the demand for higher data rates by the users, and the high cost of wireless spectrum, wireless providers are actively seeking ways to improve the spectral efficiency of their networks. One promising technique to improve spectral efficiency is to equip the wireless devices with multiple antennas. If both the transmitter and receiver of a link are equipped with multiple antennas, they form a multiple-input multiple-output (MIMO) link. The multiple antennas at the nodes provide degrees-of-freedom that can be used for either sending multiple streams of data simultaneously (a technique known as spatial multiplexing), or for suppressing interference through linear combining, but not both. Due to this trade-off, careful allocation of how many streams each link should carry is important to ensure that each node has enough degrees-of-freedom available to suppress the interference and support its desired streams. How the streams are sent and received and how interference is suppressed is ultimately determined by the beamforming weights at the transmitters and the combining weights at the receivers. Determining these weights is, however, made difficult by their inherent interdependency. Our focus is on unplanned and/or dense single-hop networks, such as WLANs and femtocells, where each single-hop network is composed of an access point serving several associated clients. The objective of this research is to design algorithms for maximizing the performance of dense single-hop wireless networks of MIMO links. We address the problems of determining which links to schedule together at each time slot, how many streams to allocate to each link (if any), and the beamforming and combining weights that support those streams. This dissertation describes four key contributions as follows: - We classify any interference suppression technique as either unilateral interference suppression or bilateral interference suppression. We show that a simple bilateral interference suppression approach outperforms all known unilateral interference suppression approaches, even after searching for the best unilateral solution. - We propose an algorithm based on bilateral interference suppression whose goal is to maximize the sum rate of a set of interfering MIMO links by jointly optimizing which subset of transmitters should transmit, the number of streams for each transmitter (if any), and the beamforming and combining weights that support those streams. - We propose a framework for optimizing dense single-hop wireless networks. The framework implements techniques to address several practical issues that arise when implementing interference suppression, such as the overhead of performing channel measurements and communicating channel state information, the overhead of computing the beamforming and combining weights, and the overhead of cooperation between the access points. - We derive the optimal scheduler that maximizes the sum rate subject to proportional fairness. Simulations in ns-3 show that the framework, using the optimal scheduler, increases the proportionally fair aggregate goodput by up to 165% as compared to the aggregate goodput of 802.11n for the case of four interfering single-hop wireless networks with two clients each.

WLANs

BSS

OBSS

MMSE

Multiple-input multiple-output links

Beamforming

Combining

Dense wireless networks

Overlapping basic service sets

Interference

Suppression

Sum rate

Weighted sum mean-squared-error

Scheduling

Proportional fairness

Odhad kanálu v OFDM systémech pomocí deep learning metod / Utilization of deep learning for channel estimation in OFDM systems

Hubík, Daniel

January 2019

This paper describes a wireless communication model based on IEEE 802.11n. Typical methods for channel equalisation and estimation are described, such as the least squares method and the minimum mean square error method. Equalization based on deep learning was used as well. Coded and uncoded bit error rate was used as a performance identifier. Experiments with topology of the neural network has been performed. Programming languages such as MATLAB and Python were used in this work.

Low Decoding Complexity Space-Time Block Codes For Point To Point MIMO Systems And Relay Networks

Rajan, G Susinder

07 1900

It is well known that communication using multiple antennas provides high data rate and reliability. Coding across space and time is necessary to fully exploit the gains offered by multiple input multiple output (MIMO) systems. One such popular method of coding for MIMO systems is space-time block coding. In applications where the terminals do not have enough physical space to mount multiple antennas, relaying or cooperation between multiple single antenna terminals can help achieve spatial diversity in such scenarios as well. Relaying techniques can also help improve the range and reliability of communication. Recently it has been shown that certain space-time block codes (STBCs) can be employed in a distributed fashion in single antenna relay networks to extract the same benefits as in point to point MIMO systems. Such STBCs are called distributed STBCs. However an important practical issue with STBCs and DSTBCs is its associated high maximum likelihood (ML) decoding complexity. The central theme of this thesis is to systematically construct STBCs and DSTBCs applicable for various scenarios such that are amenable for low decoding complexity. The first part of this thesis provides constructions of high rate STBCs from crossed product algebras that are minimum mean squared error (MMSE) optimal, i.e., achieves the least symbol error rate under MMSE reception. Moreover several previous constructions of MMSE optimal STBCs are found to be special cases of the constructions in this thesis. It is well known that STBCs from orthogonal designs offer single symbol ML decoding along with full diversity but the rate of orthogonal designs fall exponentially with the number of transmit antennas. Thus it is evident that there exists a tradeoff between rate and ML decoding complexity of full diversity STBCs. In the second part of the thesis, a definition of rate of a STBC is proposed and the problem of optimal tradeoff between rate and ML decoding complexity is posed. An algebraic framework based on extended Clifford algebras is introduced to study the optimal tradeoff for a class of multi-symbol ML decodable STBCs called ‘Clifford unitary weight (CUW) STBCs’ which include orthogonal designs as a special case. Code constructions optimally meeting this tradeoff are also obtained using extended Clifford algebras. All CUW-STBCs achieve full diversity as well. The third part of this thesis focusses on constructing DSTBCs with low ML decoding complexity for two hop, amplify and forward based relay networks under various scenarios. The symbol synchronous, coherent case is first considered and conditions for a DSTBC to be multi-group ML decodable are first obtained. Then three new classes of four-group ML decodable full diversity DSTBCs are systematically constructed for arbitrary number of relays. Next the symbol synchronous non-coherent case is considered and full diversity, four group decodable distributed differential STBCs (DDSTBCs) are constructed for power of two number of relays. These DDSTBCs have the best error performance compared to all previous works along with low ML decoding complexity. For the symbol asynchronous, coherent case, a transmission scheme based on orthogonal frequency division multiplexing (OFDM) is proposed to mitigate the effects of timing errors at the relay nodes and sufficient conditions for a DSTBC to be applicable in this new transmission scheme are given. Many of the existing DSTBCs including the ones in this thesis are found to satisfy these sufficient conditions. As a further extension, differential encoding is combined with the proposed transmission scheme to arrive at a new transmission scheme that can achieve full diversity in symbol asynchronous, non-coherent relay networks with no knowledge of the timing errors at the relay nodes. The DDSTBCs in this thesis are proposed for application in the proposed transmission scheme for symbol asynchronous, non-coherent relay networks. As a parallel to the non-coherent schemes based on differential encoding, we also propose non-coherent schemes for symbol synchronous and symbol asynchronous relay networks that are based on training. This training based transmission scheme leverages existing coherent DSTBCs for non-coherent communication in relay networks. Simulations show that this training scheme when used along with the coherent DSTBCs in this thesis outperform the best known DDSTBCs in the literature. Finally, in the last part of the thesis, connections between multi-group ML decodable unitary weight (UW) STBCs and groups with real elements are established for the first time. Using this connection, we translate the necessary and sufficient conditions for multi-group ML decoding of UW-STBCs entirely in group theoretic terms. We discuss various examples of multi-group decodable UW-STBCs together with their associated groups and list the real elements involved. These examples include orthogonal designs, quasi-orthogonal designs among many others.

Signal Processing - Digital Techniques

Antennas

Coding Theory

Space-time Block Codes (STBCs)

Multiple Input Multiple Output Systems

Decoding

MIMO Systems

Relay Networks

Clifford Unitary Weight (CUW)

Minimum Mean Squared Error (MMSE)

Communication Engineering

Analyse neuropsychologischer Ausfallprofile bei zerebraler Mikroangiopathie / Analysis of neuropsychological deficits in cerebral small vessel disease

Hund, Oliver Christian

01 October 2013

Einleitung Mit dem zunehmenden Anteil älterer Menschen an der Bevölkerung rücken altersassoziierte Erkrankungen wie die Demenz immer stärker in den Fokus. Die zerebrale Mikroangiopathie (cerebral small vessel disease, CSVD) aus der Gruppe der vaskulären Demenzen zählt nach der Alzheimerdemenz (AD) zu den häufigste Erkrankungen dieser Gruppe und beeinträchtigt in ihrer häufigsten Form (subkortikale arteriosklerotische Enzephalopathie, SAE; syn. M. Binswanger) insbesondere subkortikale Funktionen wie das Ausführen mehrteiliger zielgerichteter Handlungen (Exekutivfunktionen) und visuomotorische Geschwindigkeit. Zugrunde liegend sind zerebrale Durchblutungsstörungen, welche sich bilddiagnostisch (bevorzugt MRT) als sogenannte White Matter Lesions (Marklagerläsionen) zeigen. Nicht selten sind diese und liquorchemische Hinweise auf eine Alzheimerdemenz im Sinne einer Mischdemenz (MD, hier CSVD+) koexistent. Eine klinische Differentialdiagnose ist durch die große Variabilität der neuropsychologischen Defizite bei Patienten mit zerebraler Mikroangiopathie häufig erschwert. Zielsetzung / Methoden Ziel dieser Arbeit war es demzufolge, weitere Erkenntnisse über die neuropsychologischen Ausfallprofile zu gewinnen und neue differentialdiagnostische Optionen zu den genannten Demenzformen zu erproben. Zu diesem Zweck wurden 89 Patienten mit White Matter Lesions in der MRT rekrutiert und mit Hilfe des MMST (&lt;/≥ 28 Punkte) in neuropsychologisch unauffällige (Kontrollgruppe, n = 37 Patienten) und kognitive beeinträchtigte Patienten unterteilt. Letztere wurden durch Untersuchung auf alzheimertypische Liquorparameter (Aβ-Quotient (Aβ1-40/Aβ1-42) und/oder Aβ1-42) nochmals in die beiden Untersuchungsgruppen Gruppe 1 CSVD (n = 22 Patienten) und Gruppe 2 CSVD+ (n = 29 Patienten) unterteilt. Alle Patienten wurden einer ausführlichen neuropsychologischen Evaluation (CAMCOG, Clox-Test, Trailmaking-Test, Boston Naming Test) unterzogen und die MRT-Bilder wurden mit Hilfe der Scale for Age-Related White Matter Lesions (ARWMC) ausgewertet. Als mögliches neues differentialdiagnostisches Hilfsmittel wurde der CAMCOG-Quotient (Gedächtnis/Exekutivfunktionen) auf seine Aussagekraft untersucht. Um mögliche Einflussfaktoren auf die kognitive Leistungsfähigkeit zu identifizieren, wurden Alter, Ausbildungszeit, Ausmaß der White Matter Lesiosns (ARWMC) und Geschlecht diesbezüglich untersucht. Ergebnisse Die Untersuchungsgruppen (CSVD, CSVD+) und die Kontrollgruppe unterschieden sich signifikant im Bereich des Alters und der Ausbildungszeit. Die Gruppen CSVD und CSVD+ ließen sich lediglich im Mini-Mental-Status-Test (p = 0,044) von einander unterscheiden. In Bezug auf die Belastung mit White Matter Lesions (ARWMC) bestanden zwischen allen drei Gruppen keine signifikanten Unterschiede. Beide Untersuchungsgruppen zeigten deutliche kognitive Einschränkungen und ließen sich in jedem der durchgeführten neuropsychologischen Tests von der Kontrollgruppe unterscheiden. Jedoch zeigten sich vereinzelt auch in der Kontrollgruppe eindeutig pathologische Ergebnisse, die im MMST nicht erfasst worden waren. Zwischen den beiden Untersuchungsgruppen waren lediglich in Clox1 (p = 0,033) und dem neu entwickelten CAMCOG-Quotient (p < 0,01) Unterschiede feststellbar. Letzterer erzielte für die Detektion einer möglichen zusätzlichen Alzheimerdemenz bei einem Cutoff <1,18 eine Sensitivität von 61% und einer Spezifität von 81%. Bei der Untersuchung möglicher Einflussfaktoren auf die kognitive Leistungsfähigkeit konnte für ein höheres Alter ein negativer Effekt nachgewiesen werden. Bei ausreichender Stichprobengröße war eine längere Ausbildungszeit mit besseren Ergebnissen korrelierbar. Dahingegen waren für das Geschlecht und auch das Ausmaß der White Matter Lesions keine eindeutigen Korrelationen mit niedrigeren Testergebnissen festzustellen. Für den CAMCOG-Quotienten konnten für die Anwendung bei kognitiv eingeschränkten Patienten keine Einflussfaktoren identifiziert werden. Zusammenfassung Erwartungsgemäß waren in den beiden Untersuchungsgruppen deutliche kognitive Defizite feststellbar, wobei in fast allen durchgeführten Tests die Gruppe CSVD+ die schlechteren Ergebnisse erzielte. Statistische Signifikanz erreichte dies jedoch lediglich in einem durchgeführten Standardtest, was zeigt, dass Patienten mit reiner zerebraler Mikroangiopathie und einer Mischform bei gleichzeitiger Alzheimerdemenz anhand einer neuropsychologischen Untersuchung nur schwer von einander unterscheidbar sind. In dieser schwierigen differentialdiagnostischen Frage bietet der neu entwickelte CAMCOG-Quotient ein gutes Hilfsmittel. Von den hier untersuchten Einflussfaktoren auf die kognitiven Fähigkeiten der Patienten hatte lediglich das Alter einen eindeutig negativen Einfluss. Dieser war für den CAMCOG-Quotient nicht nachweisbar, womit dieser altersunabhängig eingesetzt werden kann. Als interessanten und klinisch relevanten Nebenaspekt zeigte sich bei dieser Arbeit, dass der MMST als Screeningtest bei Patienten mit White Matter Lesions kein ausreichendes Diagnostikum zum Ausschluss kognitiver Defizite darstellt.

610

Demenz

Vaskuläre Demenz

Alzheimer

Mischdemenz

Marklagerläsionen

MMST

CAMCOG

Clox

Trailmaking

Boston Naming Test

White Matter Lesions

abeta quotient

csvd

Neuropsychologische Untersuchung

dementia

neuropsychological assessement

csvd

alzheimer

vascular dementia

camcog

mmse

clox

trailmaking

boston naming

csf

abeta ratio

arwmc

white matter lesions

mixed dementia

camcog ratio

Ενίσχυση σημάτων μουσικής υπό το περιβάλλον θορύβου

Παπανικολάου, Παναγιώτης

20 October 2010

Στην παρούσα εργασία επιχειρείται η εφαρμογή αλγορίθμων αποθορυβοποίησης σε σήματα μουσικής και η εξαγωγή συμπερασμάτων σχετικά με την απόδοση αυτών ανά μουσικό είδος. Η κύρια επιδίωξη είναι να αποσαφηνιστούν τα βασικά προβλήματα της ενίσχυσης ήχων και να παρουσιαστούν οι διάφοροι αλγόριθμοι που έχουν αναπτυχθεί για την επίλυση των προβλημάτων αυτών. Αρχικά γίνεται μία σύντομη εισαγωγή στις βασικές έννοιες πάνω στις οποίες δομείται η τεχνολογία ενίσχυσης ομιλίας. Στην συνέχεια εξετάζονται και αναλύονται αντιπροσωπευτικοί αλγόριθμοι από κάθε κατηγορία τεχνικών αποθορυβοποίησης, την κατηγορία φασματικής αφαίρεσης, την κατηγορία στατιστικών μοντέλων και αυτήν του υποχώρου. Για να μπορέσουμε να αξιολογήσουμε την απόδοση των παραπάνω αλγορίθμων χρησιμοποιούμε αντικειμενικές μετρήσεις ποιότητας, τα αποτελέσματα των οποίων μας δίνουν την δυνατότητα να συγκρίνουμε την απόδοση του κάθε αλγορίθμου. Με την χρήση τεσσάρων διαφορετικών μεθόδων αντικειμενικών μετρήσεων διεξάγουμε τα πειράματα εξάγοντας μια σειρά ενδεικτικών τιμών που μας δίνουν την ευχέρεια να συγκρίνουμε είτε τυχόν διαφοροποιήσεις στην απόδοση των αλγορίθμων της ίδιας κατηγορίας είτε διαφοροποιήσεις στο σύνολο των αλγορίθμων. Από την σύγκριση αυτή γίνεται εξαγωγή χρήσιμων συμπερασμάτων σχετικά με τον προσδιορισμό των παραμέτρων κάθε αλγορίθμου αλλά και με την καταλληλότητα του κάθε αλγορίθμου για συγκεκριμένες συνθήκες θορύβου και για συγκεκριμένο μουσικό είδος. / This thesis attempts to apply Noise Reduction algorithms to signals of music and draw conclusions concerning the performance of each algorithm for every musical genre. The main aims are to clarify the basic problems of sound enhancement and present the various algorithms developed for solving these problems. After a brief introduction to basic concepts on sound enhancement we examine and analyze various algorithms that have been proposed at times in the literature for speech enhancement. These algorithms can be divided into three main classes: spectral subtractive algorithms, statistical-model-based algorithms and subspace algorithms. In order to evaluate the performance of the above algorithms we use objective measures of quality, the results of which give us the opportunity to compare the performance of each algorithm. By using four different methods of objective measures to conduct the experiments we draw a set of values that facilitate us to make within-class algorithm comparisons and across-class algorithm comparisons. From these comparisons we can draw conclusions on the determination of parameters for each algorithm and the appropriateness of algorithms for specific noise conditions and music genre.

Φασματική αφαίρεση

Φιλτράρισμα Wiener

Αλγόριθμοι υποχώρου

621.382 24

Speech enhancement

Music signals enhancement

Denoising techniques

Spectral subtraction

Wiener filtering

Wavelet thresholding

Psychoacoustic constraints

Statistical model based methods

Minimum mean square error (MMSE)

Maximum likelihood estimators

Subspace algorithms

Transceiver Design Based on the Minimum-Error-Probability Framework for Wireless Communication Systems

Dutta, Amit Kumar

January 2015

Parameter estimation and signal detection are the two key components of a wireless communication system. They directly impact the bit-error-ratio (BER) performance of the system. Several criteria have been successfully applied for parameter estimation and signal detection. They include maximum likelihood (ML), maximum a-posteriori probability (MAP), least square (LS) and minimum mean square error (MMSE) etc. In the linear detection framework, linear MMSE (LMMSE) and LS are the most popular ones. Nevertheless, these criteria do not necessarily minimize the BER, which is one of the key aspect of any communication receiver design. Thus, minimization of BER is tantamount to an important design criterion for a wireless receiver, the minimum bit/symbol error ratio (MBER/MSER). We term this design criterion as the minimum-error-probability (MEP). In this thesis, parameter estimation and signal detection have been extensively studied based on the MEP framework for various unexplored scenar-ios of a wireless communication system. Thus, this thesis has two broad categories of explorations, first parameter estimation and then signal detection. Traditionally, the MEP criterion has been well studied in the context of the discrete signal detection in the last one decade, albeit we explore this framework for the continuous parameter es-timation. We first use this framework for channel estimation in a frequency flat fading single-input single-output (SISO) system and then extend this framework to the carrier frequency offset (CFO) estimation of multi-user MIMO OFDM system. We observe a reasonably good SNR improvement to the tune of 1 to 2.5 dB at a fixed BER (tentatively at 10−3). In this context, it is extended to the scenario of multiple-input multiple-output (MIMO) orthogonal frequency division multiplexing (OFDM) or MIMO-OFDM with pa-rameter estimation error statistics obtained from LMMSE only and checked its effect at the equalizer design using MEP and LMMSE criteria. In the second exploration of the MEP criterion, it is explored for signal detection in the context of MIMO-relay and MIMO systems. Various low complexity solutions are proposed to alleviate the effect of high computational complexity for the MIMO-relay. We also consider various configurations of relay like cognitive, parallel and multi-hop relaying. We also propose a data trans-mission scheme with a rate of 1/Ns (Ns is the number of antennas at the transmitter) with the help of the MEP criterion to design various components. In all these cases, we obtain considerable BER improvement compared to the existing solutions.

Wireless Communication

Signal Processing

Transceiver Design

Minimum-Error-Probability

MIMO Relay

Wireles Channels

MEP Framework

Minimum Mean Square Error (MMSE)

MIMO OFDM Systems

BPSK Signals

Electrical Communication Engineering

Vybrané metody sociální práce s nesoběstačnými klienty ve zdravotnických zařízeních / The selected methods of social work with clients self - non sufficient in health care facilities

Kiliánová, Hana

January 2016

The main goal of the thesis entitled "The selected methods of social work with clients self-non sufficient in health care facilities" was to describe and to analyze methods used in activation of the elderly suffering from dementia. It draws a comparison of different settings and explores workers's attitude to the methods of activation. The text of the thesis was mapped out into five chapters. The first chapter was set into the context of old age and ageing. The second chapter is concerned with the issues of self-sufficiency and dependency of old age and other related issues. The topic of the third chapter is old age in relation with memory. It defines memory and memory disorders in the elderly suffering from dementia. The fourth chapter is crucial and gives an idea of non-pharmacological and other possible activities which are eligible for application in practice and are intended to reduce cognitive disorders of cognitive functions and behavior disorders. The theoretical part enters into research carried out in four facilities which care for clients with dementia. The research section is represented by a qualitative research where methods of a half structured interview and observation were opted for. The interviews were realized with eight practicing experts. The outcomes gathered from the...

Systèmes hertziens à forte efficacité spectrale pour les communications mobiles multi-antennes et multi-porteuses de 4° génération

Portier, Fabrice

11 July 2007

Les travaux présentés dans cette thèse proposent des solutions à forte efficacité spectrale pour les communications mobiles multi-antennes et multiporteuses, particulièrement optimisées pour la voie descendante des systèmes hertziens. Cette étude s'inscrit dans un contexte fortement concurrentiel pour l'accès de masse au haut-débit sans fil, et contribue à l'effort collectivement mené au sein des projets européens sur les systèmes dits de 4e génération (4G). La première partie du document cadre l'étude en identifiant les contraintes physiques, technologiques et financières, ainsi que les exigences des systèmes 4G en termes de services, débit et mobilité. En particulier, une complexité raisonnable au récepteur mobile est requise en voie descendante pour honorer coût et consommation. Dans un souci de réalisme, le canal de propagation radio-mobile large-bande MIMO est caractérisé. Les corrélations en temps/fréquence/espace induisent le dimensionnement du système de communication numérique proposé. La deuxième partie du document est consacrée à l'étude des systèmes multi-porteuses, multi-utilisateurs, et multi-antennes, afin d'unifier l'approche et d'explorer plusieurs axes en utilisant au mieux les propriétés du canal. Tout d'abord, le choix de l'accès large-bande multi-utilisateurs s'est porté sur la combinaison de l'OFDM et d'étalement en accès multiple CDMA, afin de discuter du compromis diversité/orthogonalité suivant les algorithmes de chip-mapping et de détection employés. Ensuite, pour exploiter les gains de réseau d'antennes, diversité et multiplexage offerts par le canal MIMO en fonction du contexte, un état de l'art des techniques multi-antennes est dressé. La classification proposée permet d'établir une stratégie tout en conservant une faible complexité de détection. Nous détaillons les systèmes les plus réalistes en contexte mobile et en voie descendante, n'ayant pas connaissance du canal en émission. La chaîne de communication MIMO-OFDM-CDMA complète est finalement présentée en insistant sur la flexibilité des algorithmes linéaires adoptés. La troisième partie du document s'attache à optimiser les combinaisons précédentes en contexte réaliste, et propose des techniques de codage et d'estimation temps/fréquence/espace innovantes. Tout d'abord, une approche pragmatique amène à considérer des solutions exploitant la diversité qui assurent robustesse, détection simple et compatibilité avec l'ensemble des terminaux. Nous privilégions un codage spatial de rendement unitaire, et proposons d'agir sur les trajets multiples grâce aux antennes supplémentaires. Des axes d'optimisation sont fournis au niveau codage, chip-mapping, détection et propagation de fiabilités. Comparé aux méthodes OSTBC ou CDD, des gains sont illustrés en performance, répartition de puissance, potentiel d'adaptabilité et de robustesse... Ensuite, en relâchant légèrement les contraintes de complexité et d'orthogonalité spatiale, nous proposons de nouvelles solutions en contexte plus favorable. Même avec une simple détection linéaire MMSE, ces techniques offrent un potentiel supérieur en haut-débit mobile dès que le nombre d'antennes augmente. Enfin, nous introduisons des méthodes d'estimation du canal MIMO adaptées aux systèmes précédents, utilisant des symboles pilotes répartis et éventuellement les données décodées de manière itérative afin de répondre à un ensemble de compromis sur des récepteurs variés. Les nombreux résultats obtenus démontrent la pertinence des solutions développées.

Communications numériques

Systèmes multi-antennes

MIMO

OFDM

CDMA

codage espace-temps-fréquence

détection

égalisation MMSE

estimation de canal itérative

efficacité spectrale

The Application of Multiuser Detection to Spectrally Efficient MIMO or Virtual MIMO SC-FDMA Uplinks in LTE Systems.

Ben Salem, Aymen

20 December 2013

Single Carrier Frequency Division Multiple Access (SC-FDMA) is a multiple access transmission scheme that has been adopted in the 4th generation 3GPP Long Term Evolution (LTE) of cellular systems. In fact, its relatively low peak-to-average power ratio (PAPR) makes it ideal for the uplink transmission where the transmit power efficiency is of paramount importance. Multiple access among users is made possible by assigning different users to different sets of non-overlapping subcarriers. With the current LTE specifications, if an SC-FDMA system is operating at its full capacity and a new user requests channel access, the system redistributes the subcarriers in such a way that it can accommodate all of the users. Having less subcarriers for transmission, every user has to increase its modulation order (for example from QPSK to 16QAM) in order to keep the same transmission rate. However, increasing the modulation order is not always possible in practice and may introduce considerable complexity to the system. The technique presented in this thesis report describes a new way of adding more users to an SC-FDMA system by assigning the same sets of subcarriers to different users. The main advantage of this technique is that it allows the system to accommodate more users than conventional SC-FDMA and this corresponds to increasing the spectral efficiency without requiring a higher modulation order or using more bandwidth. During this work, special attentions wee paid to the cases where two and three source signals are being transmitted on the same set of subcarriers, which leads respectively to doubling and tripling the spectral efficiency. Simulation results show that by using the proposed technique, it is possible to add more users to any SC-FDMA system without increasing the bandwidth or the modulation order while keeping the same performance in terms of bit error rate (BER) as the conventional SC-FDMA. This is realized by slightly increasing the energy per bit to noise power spectral density ratio (Eb/N0) at the transmitters.

SC-FDMA

SC-FDE

3GPP Long Term Evolution

Single Carrier Systems

Single Carrier Systems

Single Carrier FDE

Single Carrier FDMA

Localized Subcarrier Mapping

Distributed Subcarrier Mapping

OFDMA

MIMO SC-FDMA

Spatial Diversity Gain

Spatial Multiplexing Gain

MIMO Channel

SIMO Channel

Space Diversity on Receive Techniques

Selection Combining

Equal-gain Combining

Maximal-ratio Combining

MRC

Channel Equalization

Zero-forcing Equalization

Minimum Mean-square Error Equalization

ZF

MMSE

SC-FDMA with Multiuser Detection

Link Level Simulation

V-blast

The Application of Multiuser Detection to Spectrally Efficient MIMO or Virtual MIMO SC-FDMA Uplinks in LTE Systems.

Ben Salem, Aymen

January 2014

Single Carrier Frequency Division Multiple Access (SC-FDMA) is a multiple access transmission scheme that has been adopted in the 4th generation 3GPP Long Term Evolution (LTE) of cellular systems. In fact, its relatively low peak-to-average power ratio (PAPR) makes it ideal for the uplink transmission where the transmit power efficiency is of paramount importance. Multiple access among users is made possible by assigning different users to different sets of non-overlapping subcarriers. With the current LTE specifications, if an SC-FDMA system is operating at its full capacity and a new user requests channel access, the system redistributes the subcarriers in such a way that it can accommodate all of the users. Having less subcarriers for transmission, every user has to increase its modulation order (for example from QPSK to 16QAM) in order to keep the same transmission rate. However, increasing the modulation order is not always possible in practice and may introduce considerable complexity to the system. The technique presented in this thesis report describes a new way of adding more users to an SC-FDMA system by assigning the same sets of subcarriers to different users. The main advantage of this technique is that it allows the system to accommodate more users than conventional SC-FDMA and this corresponds to increasing the spectral efficiency without requiring a higher modulation order or using more bandwidth. During this work, special attentions wee paid to the cases where two and three source signals are being transmitted on the same set of subcarriers, which leads respectively to doubling and tripling the spectral efficiency. Simulation results show that by using the proposed technique, it is possible to add more users to any SC-FDMA system without increasing the bandwidth or the modulation order while keeping the same performance in terms of bit error rate (BER) as the conventional SC-FDMA. This is realized by slightly increasing the energy per bit to noise power spectral density ratio (Eb/N0) at the transmitters.

SC-FDMA

SC-FDE

3GPP Long Term Evolution

Single Carrier Systems

Single Carrier Systems

Single Carrier FDE

Single Carrier FDMA

Localized Subcarrier Mapping

Distributed Subcarrier Mapping

OFDMA

MIMO SC-FDMA

Spatial Diversity Gain

Spatial Multiplexing Gain

MIMO Channel

SIMO Channel

Space Diversity on Receive Techniques

Selection Combining

Equal-gain Combining

Maximal-ratio Combining

MRC

Channel Equalization

Zero-forcing Equalization

Minimum Mean-square Error Equalization

ZF

MMSE

SC-FDMA with Multiuser Detection

Link Level Simulation

V-blast