Near Capacity Operating Practical Transceivers For Wireless Fading Channels

Guvensen, Gokhan Muzaffer

01 February 2009

Multiple-input multiple-output (MIMO) systems have received much attention due to their multiplexing and diversity capabilities. It is possible to obtain remarkable improvement in spectral efficiency for wireless systems by using MIMO based schemes. However, sophisticated equalization and decoding structures are required for reliable communication at high rates. In this thesis, capacity achieving practical transceiver structures are proposed for MIMO wireless channels depending on the availability of channel state information at the transmitter (CSIT). First, an adaptive MIMO scheme based on the use of quantized CSIT and reduced precoding idea is proposed. With the help of a very tight analytical upper bound obtained for limited rate feedback (LRF) MIMO capacity, it is possible to construct an adaptive scheme varying the number of beamformers used according to the average SNR value. It is shown that this strategy always results in a significantly higher achievable rate than that of the schemes which does not use CSIT, if the number of transmit antennas is greater than that of receive antennas. Secondly, it is known that the use of CSIT does not bring significant improvement over capacity, when similar number of transmit and receive antennas are used / on the other hand, it reduces the complexity of demodulation at the receiver by converting the channel into noninterfering subchannels. However, it is shown in this thesis that it is still possible to achieve a performance very close to the outage probability and exploit the space-frequency diversity benefits of the wireless fading channel without compromising the receiver complexity, even if the CSIT is not used. The proposed receiver structure is based on iterative forward and backward filtering to suppress the interference both in time and space followed by a spacetime decoder. The rotation of multidimensional constellations for block fading channels and the single-carrier frequency domain equalization (SC-FDE) technique for wideband MIMO channels are studied as example applications.

Achievable Coding Rates For Awgn And Block Fading Channels In The Finite Blocklength Regime

Vural, Mehmet

01 September 2010

In practice, a communication system works with finite blocklength codes because of the delay constraints and the information-theoretic bounds which are proposed for finite blocklength systems can be exploited to determine the performance of a designed system. In this thesis, achievable rates for given average error probabilities are considered for finite blocklength systems. Although classical bounds can be used to upper bound the error probability, these bounds require the optimization of auxiliary variables. In this work, a bound which is called the dependence testing (DT) bound that is free of any auxiliary variables is exploited. The DT bound is evaluated by introducing a normal approximation to the information density. Simulations carried out both for the Gaussian and discrete input alphabets show the proposed approximation enables very good prediction of the achievable rates. The proposed approximation is also used to calculate the average error probability for block fading channels. Simulations performed for Rayleigh block fading channels demonstrate that the total blocklength of the system in addition to the number of fading blocks should be accounted for especially when the number of fading blocks is large. A power allocation problem in block fading channels when the channel state information is available to the transmitting side is investigated in the final part of this work. The DT bound is optimized for a given channel state vector by allocating different power levels to each fading block by exploiting short-term power allocation. A simple power allocation algorithm is proposed which comes out with very similar results compared with the analytically computed values.

CDD-DLL for PN Code Tracking in DS-CDMA Communication Systems

Yu, Hao-Chih

21 June 2001

PN code tracking plays a very important role in CDMA communication systems. In literature, the influences of multipath fading and of multiuser interference on PN code tracking are studied separately. The multipath fading influence is mitigated by combining a rake receiver and a channel estimator in the Delay-Locked Loop (DLL). The multiuser interference is overcome by incorporating a data estimator into the DLL. In the downlink, PN code tracking may suffer from the multipath fading influence. However, the multipath fading and the multiuser interference influences exist in the uplink. Unfortunately, sole use of the aforementioned methods cannot solve out both influences simultaneously. In this thesis, two new Coherent Decision-Directed Delay-Locked Loop (CDD-DLL) PN-Code tracking schemes are developed and either can overcome both influences. First, a channel and a data estimators are incorporated into the DLL inherent with a rake receiver. This new scheme works properly in an environment with multipath fading and multiuser interference. Second, the original CDD-DLL is combined with a multipath interference canceller (MPI) to reduce both influences. Analytical results are derived for the two schemes proposed and are validated with numerical simulations. Simulation results show that the conventional DLLs working in a multipath fading and multiuser interference environment can be significantly improved using the new schemes. Moreover, the latter outperforms the former because the multipath interference is cancelled completely.

MAI

channel estimator

Rake receiver

DLL

S-curve

MTLL

multiuser interference

multipath fading

coherent-direct decision

CDMA

CDD

coherent

MPI canceller

noncoherent

MPI

Constellation Design under Channel Uncertainty

Giese, Jochen

January 2005

<p>The topic of this thesis is signaling design for data transmission through wireless channels between a transmitter and a receiver that can both be equipped with one or more antennas. In particular, the focus is on channels where the propagation coefficients between each transmitter--receiver antenna pair are only partially known or completetly unknown to the receiver and unknown to the transmitter.</p><p>A standard signal design approach for this scenario is based on separate training for the acquisition of channel knowledge at the receiver and subsequent error-control coding for data detection over channels that are known or at least approximately known at the receiver. If the number of parameters to estimate in the acquisition phase is high as, e.g., in a frequency-selective multiple-input multiple-output channel, the required amount of training symbols can be substantial. It is therefore of interest to study signaling schemes that minimize the overhead of training or avoid a training sequence altogether.</p><p>Several approaches for the design of such schemes are considered in this thesis. Two different design methods are investigated based on a signal representation in the time domain. In the first approach, the symbol alphabet is preselected, the design problem is formulated as an integer optimization problem and solutions are found using simulated annealing. The second design method is targeted towards general complex-valued signaling and applies a constrained gradient-search algorithm. Both approaches result in signaling schemes with excellent detection performance, albeit at the cost of significant complexity requirements.</p><p>A third approach is based on a signal representation in the frequency domain. A low-complexity signaling scheme performing differential space--frequency modulation and detection is described, analyzed in detail and evaluated by simulation examples.</p><p>The mentioned design approaches assumed that the receiver has no knowledge about the value of the channel coefficients. However, we also investigate a scenario where the receiver has access to an estimate of the channel coefficients with known error statistics. In the case of a frequency-flat fading channel, a design criterion allowing for a smooth transition between the corresponding criteria for known and unknown channel is derived and used to design signaling schemes matched to the quality of the channel estimate. In particular, a constellation design is proposed that offers a high level of flexibility to accomodate various levels of channel knowledge at the receiver.</p>

Constellation design

diversity

fading channels

frequency-selective channels

multiple antennas

partial channel state information

wireless communication

Telecommunication

Telekommunikation

Ασύρματα ψηφιακά τηλεπικοινωνιακά συστήματα σε γενικευμένα κανάλια διαλείψεων / Wireless digital communication systems over generalized fading channels

Μπίθας, Πέτρος Σ.

07 July 2009

Στην απαρχή της καινούριας χιλιετίας, έχει γίνει πλέον ξεκάθαρος ο σπουδαίος ρόλος και η χρησιμότητα των ασυρμάτων τηλεπικοινωνιών και των εφαρμογών τους, η εξέλιξη των οποίων επικεντρώνεται σε μεγάλο βαθμό στις Ασύρματες Προσωπικές Τηλεπικοινωνίες (ΑΠΤ). Εξαιτίας της μεγάλης δημοτικότητας που έχουν τα συστήματα αυτά, υπάρχει συνεχής ανάγκη για αύξηση της χωρητικότητας και αναβάθμιση των παρεχόμενων υπηρεσιών ϕωνής και δεδομένων. Μια πολύ σημαντική περιοχή έρευνας για τις ΑΠΤ, που έχει προκύψει από τις παραπάνω απαιτήσεις, είναι η μελέτη και η αντιμετώπιση των προβλημάτων που δημιουργούνται στην επίδοση των δικτύων αυτών από διάφορα ϕαινόμενα που επιδρούν στο ασύρματο κανάλι. Σε αυτήν την ερευνητική περιοχή εστιάζεται και η παρούσα διδακτορική διατριβή, που έχει ως στόχο τη ϑεωρητική μελέτη της επίδοσης ασύρματων ψηφιακών τηλεπικοινωνιακών συστημάτων τα οποία υπόκεινται σε διαλείψεις. Για την καταπολέμηση των αρνητικών συνεπειών των διαλείψεων έχει υιοθετηθεί η τεχνική του διαφορισμού στο δέκτη. Σύμφωνα με αυτήν, ο δέκτης διαθέτει περισσότερες από μια κεραίες λήψης με αποτέλεσμα να λαμβάνει πολλαπλά αντίγραφα του εκπεμπόμενου σήματος, τα οποία συνδυάζει κατάλληλα ανάλογα με τις απαιτήσεις του διαχειριστή του δικτύου. Η διεθνής έρευνα για τη χρήση δεκτών διαφορισμού σε κανάλια Διαλείψεων Μικρής Κλίμακας (ΔΜΙΚ) είναι εκτενής και αφορά κυρίως κανάλια που βασίζονται στις κατανομές Rayleigh, Rice και Nakagamim. Δύο άλλες σημαντικές κατανομές για τη μοντελοποίηση των ΔΜΙΚ είναι η Weibull και, η γενίκευση της, η Γενικευμένη-Γάμα (ΓG), οι οποίες σε σύντομο χρονικό διάστημα έχουν κερδίσει εκτεταμένο επιστημονικό ενδιαφέρον στην περιοχή των ασύρματων κινητών τηλεπικοινωνιών. ΄Ομως, παρά το ενδιαφέρον αυτό, η μελέτη της επίδοσης δεκτών διαφορισμού σε κανάλια που μοντελοποιούνται με τις κατανομές αυτές, δεν έχει λάβει τις διαστάσεις που έχουν λάβει οι αντίστοιχες έρευνες για τις άλλες κατανομές. Αυτό οφείλεται σε μεγάλο βαθμό στη μεγάλη πολυπλοκότητα, από μαϑηματικής άποψης, που παρουσιάζει η στατιστική αναπαράσταση του σήματος της εξόδου πολλών τύπων δεκτών διαφορισμού που σε συνδυασμό με τη σχετικά σύνθετη μαθηματική έκφραση των κατανομών Weibull και ΓG, δημιουργεί δυσεπίλυτα προβλήματα. Στην παρούσα διατριβή, προσπερνώντας αυτές τις δυσκολίες, αρχικά μελετήθηκε η απόδοση μιας ειδικής κατηγορίας δεκτών διαφορισμού, του δέκτη Συνδυασμού Γενικευμένης Επιλογής (ΣΓΕ), ο οποίος λειτουργεί σε Ανεξάρτητα αλλά Μη-Ομοιόμορφα Κατανεμημένα (ΑΜΟΚ) κανάλια διαλείψεων Weibull. Σε αυτήν τη μελέτη εξετάζεται η περίπτωση όπου επιλέγονται οι δύο κλάδοι με το υψηλότερο λόγο σήματος προς ϑόρυβο, Signal to Noise Ratio (SNR), από τους L διαθέσιμους, ΣΓΕ(2, L). Κατά συνέπεια, με την παρουσίαση μιας καινούριας ιδιότητας για το γινόμενο των ροπών ταξινομημένων Τυχαίων Μεταβλητών (ΤΜ) Weibull, γίνεται δυνατή η εξαγωγή εκφράσεων κλειστής μορφής για τις ροπές του SNR στην έξοδο των δεκτών ΣΓΕ(2, L). Χρησιμοποιώντας αυτές τις εκφράσεις δίνονται, σε κλειστή μορφή επίσης, σημαντικά κριτήρια επίδοσης όπως είναι ο Μέσος Λόγος Σήματος προς Θόρυβο (ΜΛΣΘ) και η Ποσότητα των Διαλείψεων (ΠΔ). Επιπλέον, με την εφαρμογή της ϑεωρίας των προσεγγιστών Pad´e και της προσέγγισης μέσω της Ροπο-Γεννήτριας Συνάρτησης (ΡΓΣ), γίνεται δυνατή η μελέτη της Πιθανότητας Διακοπής της Επικοινωνίας (ΠΔΕ) και της Μέσης Πιθανότητας Σφάλματος Bit (ΜΠΣΒ) του συστήματος. Στη συνέχεια, υποθέτοντας Ανεξάρτητα και Ομοιόμορφα Κατανεμημένα (ΑΟΚ) κανάλια διαλείψεων ΓG, παρουσιάστηκε σε κλειστή μορφή έκφραση για τις ροπές του SNR στην έξοδο των δεκτών ΣΓΕ(2, L), ενώ η ΡΓΣ και η Αθροιστική Συνάρτηση Κατανομής (ΑΣΚ) εξήχθησαν υπό τη μορφή απειροσειρών. Χρησιμοποιώντας αυτές τις εκφράσεις απλοποιείται σημαντικά η μελέτη των κριτηρίων επίδοσης της ΠΔΕ και της ΜΠΣΒ. Επιπλέον, παρουσιάστηκε η χωρητικότητα του καναλιού ΓG με τη χρήση ή όχι δεκτών διαφορισμού, με βάση πολύ γνωστές τεχνικές προσαρμογής της εκπομπής. Μια άλλη πολύ σημαντική ερευνητική περιοχή που αφορά τα κανάλια διαλείψεων και επηρεάζει σημαντικά την επίδοση των ασύρματων ψηφιακών τηλεπικοινωνιακών συστημάτων που λειτουργούν σε αυτά, είναι το σύνθετο περιβάλλον διάδοσης που δημιουργείται όταν οι ΔΜΙΚ συνυπάρχουν με Διαλείψεις Μεγάλης Κλίμακας (ΔΜΕΚ). Στην παρούσα διδακτορική διατριβή, αυτό το περιβάλλον διάδοσης μοντελοποιείται με τις σύνθετες κατανομές K και γενικευμένη-K (KG). Αυτές οι κατανομές είναι αρκετά γενικές, αλλά ταυτόχρονα και μαθηματικά ευέλικτες, και έχει διαπιστωθεί ότι είναι κατάλληλες για τη μοντελοποίηση των συνθηκών του καναλιού που προκύπτει όταν οι ΔΜΙΚ συμβαίνουν ταυτόχρονα με ΔΜΕΚ. Στην περίπτωση της κατανομής KG, εξάγονται σημαντικά στατιστικά χαρακτηριστικά του SNR στην έξοδο των δεκτών διαφορισμού Συνδυασμού Μεγίστου Λόγου (ΣΜΛ), Συνδυασμού ΄Ισης Απολαβής (ΣΙΑ), Συνδυασμού Μεταγωγής και Παραμονής (ΣΜΠ) και του δέκτη Διαφορισμού Επιλογής (ΔΕ). Χρησιμοποιώντας αυτές τις εκφράσεις και υποθέτωντας ΑΜΟΚ συνθήκες διαλείψεων του καναλιού KG, εξάγονται σε κλειστή μορφή τα κριτήρια επίδοσης ΜΛΣΘ, ΠΔΕ και ΠΔ. Επιπλέον, ακολουθώντας την προσέγγιση που βασίζεται στη ΡΓΣ για τους δέκτες ΣΜΛ και ΣΜΠ και τους προσεγγιστές Pad´e για τους δέκτες ΣΙΑ και ΔΕ μελετάται η ΜΠΣΒ. Για την περίπτωση της κατανομής K, υποθέτωντας επιπλέον συσχετισμένες ΤΜ, παρουσιάζεται και μελετάται η συσχετισμένη (δι-μεταβαλλόμενη) κατανομή K, η οποία χαρακτηρίζεται από μη ομοιόμορφους παράγοντες μορφοποίησης και κλίμακας. Η σύνθετη αυτή κατανομή είναι βολική για τη μοντελοποίηση του συσχετισμένου περιβάλλοντος διαλείψεων/σκίασης, όταν η συσχέτιση μεταξύ των πλατών των σημάτων και της ισχύος τους είναι διαφορετική. Για αυτήν την κατανομή, εξάγονται γενικές εκφράσεις με απειροσειρές για τη Συνάρτηση Πυκνότητας Πιθανότητας (ΣΠΠ), την ΑΣΚ και τις από κοινού ροπές. Υποθέτοντας ομοιόμορφους παράγοντες κλίμακας και ασυσχέτιστη ισχύ σημάτων, παρέχονται απλούστερες εκφράσεις για τη ΣΠΠ, την ΑΣΚ και τη χαρακτηριστική συνάρτηση, ενώ οι από κοινού ροπές εξάγονται σε κλειστή μορφή. Επιπλέον, βασιζόμενοι σε αυτές τις ϑεωρητικές εκφράσεις της δι-μεταβαλλόμενης κατανομής K, παρουσιάζεται η ανάλυση της επίδοσης σημαντικών δεκτών διαφορισμού, όπως είναι οι δέκτες ΣΜΛ, ΣΙΑ και ΔΕ οι οποίοι λειτουργούν σε συσχετισμένα κανάλια διαλείψεων K. Για το δέκτη ΔΕ μελετάται η ΠΔΕ, ενώ για τους δέκτες ΣΜΛ και ΣΙΑ η ΜΠΣΒ. Γενικά η προτεινόμενη ανάλυση συνοδεύεται από αριθμητικά αποτελέσματα, τα οποία επιδεικνύουν ξεκάθαρα τη χρησιμότητα και την ευελιξία της ϑεωρητικής προσέγγισης. Τα αριθμητικά αυτά αποτελέσματα περιλαμβάνουν σύγκριση της επίδοσης διαφορετικών δεκτών διαφορισμού, συνθηκών καναλιού και τεχνικών διαμόρφωσης. / At the beginning of the new millennium, it becomes totaly clear the important role and usefulness of the wireless communication systems and their applications, which continue to evolute in several areas including Personal Communication Services (PCS). In this context there is a continuing demand for increased capacity and integration of the provided services, such as voice, data and other types of traffic, over radio channels. One of the key technical problem areas that has emerged out is the requirement for determining the fading effects on network performance. This also the research area of the current Philosophy diploma, which aims to the theoretical study of the performance analysis of wireless communication systems, which are subject to fading. The current study has employed diversity reception as a fading mitigation technique. According to this technique, the receiver employs more than one antennae, in order to receive multiple copies of the transmitted signal. Hence, these copies are appropriate combined in order to satisfy network administrator demands. The technical literature concerning diversity reception techniques over fading channels is quite extensive. However, it deals mainly with fading channels, which are based on Rayleigh, Rice, and Nakagami-m distributions. Additionally, important distributions for modeling small scale fading are also the Weibull and, its generalization, the generalized-gamma (ΓG), which have recently gained an increased scientific interest in the wireless mobile communication area. However, the performance analysis of diversity receivers operating over fading channels, modeled by these distributions, has not been thoroughly investigated. Reasons for that include the composite statistical representation of several diversity receivers output in conjunction with the quite complicated mathematical expressions of the Weibull and/or ΓG distributions. In this thesis, by overcoming these difficulties the performance of a class of Generalized-Selection Combining (GSC) receivers operating over independent but non identically distributed Weibull fading channels is studied. The case where the two branches with the largest instantaneous Signal-to-Noise Ratio (SNR) are selected, from a total of L available GSC(2, L), is considered. By introducing a novel property for the product of moments of ordered Weibull Random Variables (RV), convenient closed form expressions for the moments of the GSC(2, L) output SNR are derived. Using these expressions, important performance criteria, such as average output SNR and amount of fading (AF ), are obtained in closed form. Furthermore, employing the Pad´e approximants theory and the Moment-Generating Function (MGF)-based approach, outage and bit-error rate performances are studied. Additionally, by considering independent and identical distributed (iid) ΓG fading channels, the moments of the output SNR of the GSC(2, L) receivers were derived, also, in closed form, while infinite series representations were obtained for the MGF and the Cumulative Distribution Function (CDF). Using these expressions, a simplified study of the Outage Probability (OP) and Average Bit Error Probability (ABEP) performance criteria can be performed. Moreover, the capacity of the ΓG fading channel, using different adaptation policies, is also studied, with and without diversity reception. Another important research issue concerning the performance analysis of wireless digital communications systems operating over fading channels, is the composite propagation environment arising in cases where fading is superimposed on shadowing. In the current thesis this propagation environment is modeled by the K and generalized-K (KG) composite distributions. These distributions are quite general and mathematical versatile, and have been found to be appropriate for accurately modeling the channel conditions when fading occurs simultaneously with shadowing. For the KG distribution, expressions for important statistical metrics of the output SNR for the Selection Diversity (SD) receiver and Maximal Ratio Combining (MRC), Equal Gain Combining (EGC), and Switch and Stay Combining (SSC) diversity receivers are derived. Using these expressions and by considering independent but not necessarily identical distributed fading channel conditions, performance criteria, such as average output SNR, AF and OP are obtained in closed form. Moreover, following the MGFbased approach for MRC and SSC receivers, and the Pad´e approximants theory for SD and EGC receivers, the ABEP is also studied. For the case of the K distribution, assuming correlated RVs, the correlated (bivariate) K distribution, with not necessarily identical shaping and scaling parameters, is introduced and studied. This composite distribution is convenient for modeling multipath/shadowing correlated fading environments when the correlations between the signal envelopes and their powers are different. For this distribution, generic infinite series representations are derived for the Probability Density Function (PDF), the CDF and the joint moments. Assuming identical shaping parameters and uncorrelated signal powers, simpler expressions for the PDF, CDF and the Characteristic Function (CF) are provided, while the joint moments are derived in closed form. Capitalizing on these theoretical expressions for the statistical characteristics of the correlated K distribution, the performance analysis of various diversity reception techniques, such as MRC, EGC and SD, over bivariate K fading channels is presented. For the SD, the outage probability is studied, while for the MRC and EGC the ABEP is obtained. In general the proposed analysis is accompanied by several numerical evaluated results, clearly demonstrating the usefulness and flexibility of the theoretical approach. These numerical results include performance comparisons of several diversity receiver structures, employing various modulation formats and different channel conditions.

Κανάλια διαλείψεων

Δέκτες διαφορισμού

Σκίαση

Ανάλυση επίδοσης

621.382

Wireless communications

Stochastic process

Fading channels

Diversity receivers

Shadowing

Performance analysis

Παραμετρικές τεχνικές εκτίμησης καναλιού σε συστήματα μετάδοσης τύπου OFDM / Channel estimation for OFDM transmission based on parametric channel modeling

Λατίφης, Κωνσταντίνος

16 May 2007

Η εργασία αυτή ασχολείται με το πρόβλημα της εκτίμησης καναλιού σε συστήματα μετάδοσης OFDM. Το πρόβλημα αυτό συγκεντρώνει έντονο ερευνητικό ενδιαφέρον τα τελευταία χρόνια, καθώς συναντάται σε ένα ευρύ πεδίο εφαρμογών. Η άγνωστη συνάρτηση μεταφοράς του καναλιού στα ασύρματα συστήματα μετάδοσης, καθιστά απαραίτητη την εκτίμησή του πριν από οποιαδήποτε διαδικασία μετάδοσης. Στη συγκεκριμένη μεταπτυχιακή εργασία, αντικείμενο εξέτασης αποτελεί η επίδραση καναλιού με μη γραμμικά χαρακτηριστικά σε συστήματα μετάδοσης OFDM. Αρχικά, παρουσιάζεται ένας βελτιωμένος αλγόριθμος εκτίμησης καναλιού, ο οποίος βασίζεται σε ένα παραμετρικό μοντέλο. Η απόκριση συχνότητας του καναλιού εκτιμάται χρησιμοποιώντας ένα μοντέλο με L μονοπάτια. Γίνεται χρήση της μεθόδου ESPRIT για την αρχική εκτίμηση των πολυδρομικών καθυστερήσεων, ενώ η διαδικασία παρακολούθησης γίνεται με την τεχνική IPIC DLL. Με γνωστή την πληροφορία για τις πολυδρομικές καθυστερήσεις, εκτιμάται η απόκριση του καναλιού στο πεδίο της συχνότητας με τη μέθοδο του ελαχίστου μέσου τετραγωνικού σφάλματος. Ιδιαίτερης μνείας χρήζει το κριτήριο MDL (Minimum Description Length) που χρησιμοποιείται για την εύρεση των ενεργών μονοπατιών του καναλιού. Σύμφωνα με το κριτήριο, υπολογίζεται ο ιδιοχώρος, δηλαδή οι ιδιοτιμές και τα ιδιοδιανύσματα, του πίνακα αυτοσυσχέτισης του καναλιού. Ο ιδιοχώρος αυτός εμφανίζει ιδιαίτερη δομή και μπορεί να αναλυθεί σε κάθετους μεταξύ τους υποχώρους: τον υποχώρο του σήματος (signal subspace) και αυτόν του θορύβου (noise subspace). Έχει αποδειχθεί ότι η χρήση παραμετρικού μοντέλου καναλιού μπορεί να μειώσει δραστικά τις διαστάσεις του υποχώρου του σήματος και κατά συνέπεια να βελτιώσει την απόδοση της εκτίμησης του καναλιού. Στη συνέχεια εξετάζεται η δυνατότητα εφαρμογής του αλγόριθμου PAST κατά τη διαδικασία παρακολούθησης των πολυδρομικών καθυστερήσεων και η σύγκρισή του με την απόδοση του IPIC DLL. Ο αλγόριθμος PAST έχει χαμηλή υπολογιστική πολυπλοκότητα καθώς στηρίζεται σε αναδρομικές τεχνικές παρακολούθησης του ιδιοχώρου. Στα πλαίσια της μεταπτυχιακής εργασίας έγινε συγκριτική μελέτη των τεχνικών εκτίμησης καναλιού σε συστήματα μετάδοσης OFDM. Περιγράφονται τα βασικά χαρακτηριστικά των κυριότερων αλγορίθμων της βιβλιογραφίας και στη συνέχεια παρουσιάζονται τα αποτελέσματα των προσομοιώσεων σε περιβάλλον MATLAB. Με βάση τη θεωρητική μελέτη των μεθόδων εκτίμησης και τα αποτελέσματα των προσομοιώσεων, εξάγονται συμπεράσματα για τη βελτίωση της απόδοσης που παρουσιάζουν σε σχέση με τις μη παραμετρικές τεχνικές. Τέλος, υλοποιήθηκε ένας νέος αλγόριθμος για την εύρεση του υποχώρου του σήματος, ο οποίος βελτιώνει σημαντικά την απόδοση του κριτηρίου MDL. / The basic concept in this thesis is the problem of Channel Estimation in multipath fading chanels. The method we use is based on parametric channel modeling. Firstly, we use the MDL (Minimum Descreption Length) criterium in order to estimate the number of paths in the channel. Next the ESPRIT method calculates the Time Delays for every estimated path. The second part of the algorithm is used for tracking of time delays. We firstly use an IPIC DLL (InterPath Interference Cancellation Delay Locked Loop) technique and then the path gains are calculated via a MMSE estimator. There is also a study in Subspace Tracking problem. We use the PAST and PASTd algorithms to calculate the signal subspace for every OFDM symbol transmited. The two techniques we described increase the SER performance of the non parametric channel estimator by 2dB and the MSE performance by 5dB. We also describe a new algorithm which has better performance than the MDL criterium.

Εκτίμηση καναλιού

OFDM διαμόρφωση

621.384 5

Channel estimation

Subspace tracking

Parametric channel modeling

OFDM modulation

Rayleigh fading channels

Multiuser demodulation for DS-CDMA systems in fading channels.

Singh, Navin Runjit.

January 2000

The problems of optimal as well as suboptimal detection for CDMA transmissions over an additive white Gaussian noise (AWGN) channel, have been the focus of study in the recent past. However, CDMA transmissions are frequently made over channels which exhibit fading and/or dispersion; hence receivers need to be designed which take into account this behaviour. In spite of the major research effort invested in multiuser demodulation techniques, several practical as well as theoretical open problems still exist. Some of them are considered in more detail in this thesis. The aim of the thesis is to develop multiuser demodulation algorithms for mobile communication systems in frequency-selective fading channels, and to analyze their implementation complexity. The emphasis is restricted to the uplink of an asynchronous DS-CDMA system where the users transmit in an uncoordinated manner and are received by one centralized receiver. The original work that is undertaken for the MScEng study is the evaluation of a multiuser receiver structure for a frequency-selective fading channel, where there exists a steady specular path and two fading paths. Furthermore, the effect of using selection diversity is investigated by examining the bit error rate, asymptotic multi user efficiency and near-far resistance of the proposed detector structure. These results are confirmed both analytically and by simulation in the thesis. An investigation is also conducted into the application of neural networks to the problem of multiuser detection in code division multiple access systems. The neural network will be used as a classifier in an adaptive receiver which incorporates an extended Kalman filter for joint amplitude and delay estimation. Finally, some open problems for future research will be pointed out in the thesis. Keywords: AWGN channel , DS-CDMA system, frequency-selective, multi user demodulation, asymptotic multiuser efficiency, near-far resistance, neural network, Kalman filter. / Thesis (M.Sc.Eng.)-University of Natal, Durban, 2000.

Code division multiple access.

Mobile communication systems.

Kalman filtering.

Random noise theory.

Demodulation (Electronics)

Theses--Electronic engineering.

Channel estimation for OFDM in fast fading channels

Wan, Ping

18 July 2011

The increasing demand for high data rate transmission over broadband radio channels has imposed significant challenges in wireless communications. Accurate channel estimation has a major impact on the whole system performance. Specifically, reliable estimate of the channel state information (CSI) is more challenging for orthogonal frequency division multiplexing (OFDM) systems in doubly selective fading channels than for the slower fading channels over which OFDM has been deployed traditionally. With the help of a basis expansion model (BEM), a novel multivariate autoregressive (AR) process is developed to model the time evolution of the fast fading channel. Relying on pilot symbol aided modulation (PSAM), a novel Kalman smoothing algorithm based on a second-order dynamic model is exploited, where the mean square error (MSE) of the channel estimator is near to that of the optimal Wiener filter. To further improve the performance of channel estimation, a novel low-complexity iterative joint channel estimation and symbol detection procedure is developed for fast fading channels with a small number of pilots and low pilot power to achieve the bit error rate (BER) performance close to when the CSI is known perfectly. The new channel estimation symbol detection technique is robust to variations of the radio channel from the design values and applicable to multiple modulation and coding types. By use of the extrinsic information transfer (EXIT) chart, we investigate the convergence behavior of the new algorithm and analyze the modulation, pilot density, and error correction code selection for good system performance for a given power level. The algorithms developed in this thesis improve the performance of the whole system requiring only low ratios of pilot to data for excellent performance in fast fading channels. / Graduate

fast fading channels

multivariate autoregressive process

channel estimation techniques

Generalized Random Spreading Performance Analysis Of Cdma Over Gwssus Fading Channels

Ertug, Ozgur

01 December 2005

Since direct-sequence code-division multiple-access (DS-CDMA) is an interference-limited random multiple-access scheme, the reduction of co-channel interference with either interference suppression or interference cancellation multiuser receivers and/or power control to prevent detrimental near-far situations is vital for improved performance. Up to date, some contributions investigated randomly-spread asymptotically - large number of users and large bandwidth - large CDMA systems with multiuser receivers and power control via random matrix theoretic and free probability theoretic tools especially over Gaussian and single-path fading channels. As complement within this thesis, we analyze also within the generalized random spreading framework but at finite system sizes and without power control the capacity achievable with linear multichannel multiuser receivers / i.e. RAKE, zero-forcing decorrelator, linear minimum mean-squared error (LMMSE) multiuser receivers, within a single-cell setting over generalized time-varying GWSSUS - Rayleigh/Ricean - fading channels via random matrix theoretic tools. Assuming maximal-ratio combining (MRC) of resolved frequency - multipath - diversity channels due to wideband transmission, the signal-to-interference ratios (SIRs) with multichannel multiuser receivers that set the basis for further derivations are statistically characterized. The information-theoretic ergodic and outage sum-rates spectral efficiencies are then derived and analyzed.

High-frequency modulated-backscatter communication using multiple antennas

Griffin, Joshua David

02 March 2009

Backscatter radio - the broad class of systems that communicate using scattered electromagnetic waves - is the driving technology behind many compelling applications such as radio frequency identification (RFID) tags and passive sensors. These systems can be used in many ways including article tracking, position location, passive temperature sensors, passive data storage, and in many other systems which require information exchange between an interrogator and a small, low-cost transponder with little-to-no transponder power consumption. Although backscatter radio is maturing, such systems have limited communication range and reliability caused, in part, by multipath fading. The research presented in this dissertation investigates how multipath fading can be reduced using multiple antennas at the interrogator transmitter, interrogator receiver, and on the transponder, or RF tag. First, two link budgets for backscatter radio are presented and fading effects demonstrated through a realistic, 915 MHz, RFID-portal example. Each term in the link budget is explained and used to illuminate the propagation and high-frequency effects that influence RF tag operation. Second, analytic envelope distributions for the M x L x N, dyadic backscatter channel - the general channel in which a backscatter system with M transmitter, L RF tag, and N receiver antennas operates - are derived. The distributions show that multipath fading can be reduced using multiple-antenna RF tags and by using separate transmitter and receiver antenna arrays at the interrogator. These results are verified by fading measurements of the M x L x N, dyadic backscatter channel at 5.8 GHz - the center of the 5725-5850 MHz unlicensed industrial, scientific, and medical (ISM) frequency band that offers reduced antenna size, increased antenna gain, and, in some cases, reduced object attachment losses compared to the commonly used 902-928 MHz ISM band. Measurements were taken with a custom backscatter testbed and details of its design are provided. In the end, this dissertation presents both theory and measurements that demonstrate multipath fading reductions for backscatter-radio systems that use multiple antennas.

Backscatter radio

Radio frequency identification

RFID

Fading channels

Probability

Multipath channels

Rayleigh channels

Microwave propagation

Backpropagation

Microwave radio propagation

Antennas (Electronics)

Backscattering

Radio frequency identification systems