A study of IEEE 802.16a OFDM-PHY Baseband / En studie av IEEE 802.16aOFDM-PHY Baseband

Zhang, Lili

January 2005

This thesis work carries out a study of IEEE 802.16 standards and mainly concentrates on the 802.16a OFDM PHY layer. A Simulink model based on 802.16a OFDM PHY baseband is built for simulation and performance evaluation. All mandatory blocks in the 802.16a OFDM-PHY specification are included: Randomization, FEC,adaptive modulation, and IFFT/FFT. A multipath Rayleigh fading channel is implemented and frequency domain channel estimation is selected for this model. Perfect synchronization is assumed.

Electronics

WMAN

802.16a

OFDM

baseband

channel estimation

Elektronik

Electronics

Elektronik

Simulation and Evaluation of a DVB system using simulink (Vol I)

Isla Hernandez, Sergio

January 2005

DVB (Digital video broadcasting) is the television digital system. It's however much more than a simple replacement for existing analogue television transmission, this system has many advantages such as picture quality and allows you a range of new features and services including subtitling, multiple audio tracks, interactive content, multimedia content... The system is based in the OFDM technology, which allows DVB system to exploit the spectrum frequencies in a better way, saving spectrum, but OFDM has an important drawback that is the peak to average power ratio problem. OFDM is based on the FFT algorithms generating several orthogonal subcarriers. This thesis talks about the improvement of the PAPR problem using the clipping method. The simulation has been developed in Simulink® and Matlab®. With all the information presented in this thesis, any user can simulate the system. Thus, this thesis can be improved using other using other techniques to solve the PAPR problem.

Electronics

OFDM

DVB

PAPR

SIMULINK,

Elektronik

Electronics

Elektronik

Modellering i SIMULINK av synkronisering i nätverk enligt IEEE802.11a

Yousef, Michael Mousa

January 2005

Inom detta examensarbete implementeras i SIMULINK en modell av ett trådlöst överföringssystem enligt IEEE802.11a standarden. Modellen klarar av att hantera störningskällor som är vanligt förekommande i den miljö applikationen operar på. Denna modell utvärderas sedan för att avgöra dess belastningsförmåga och vid vilka värden den brister. Första delen av rapporten beskriver målsättningen och syftet med detta examensarbete, samt metodvalet och rapportens uppläggning som tillämpats. Rapportens andra del innehåller en allmän beskrivning av digital radiokommunikation och OFDM-baserade system. Därefter beskrivs teorin av både sändaren och mottagaren enligt IEEE802.11a standarden. Slutligen behandlas ett flertal vanligt förekommande synkroniseringsalgoritmer som har blivit publicerade. I rapportens tredje del diskuteras de verktyg som har använts för att bygga modellen. Denna del fortsätter sedan med att kort beskriva valen av de algoritmer som har tillämpats i modellen. Fjärde och sista delen av rapporten delas in i två kapitel. I första kapitlet sker de simuleringar som erfordras för att kunna utvärdera modellen. Examensarbetet knyts sedan ihop vid resultatkapitlet, där även förslag på fortsatt arbete diskuteras. / En ny version av examensarbetet har lagts till i listan (nr. 2) på begäran av författaren med anledning av att författaren har bytt namn.

IEEE802.11a

OFDM

överföring

SIMULINK

nätverk

synkronisering

kommunikation

Electronics

Elektronik

OFDM Carrier Frequency Offset Estimation

Osesina, Olukayode Isaac, Zhang, Yafan, Pagoti, Shirisha

January 2006

This thesis discusses and investigates the estimation of carrier offset frequency in orthogonal frequency division multiplexing (OFDM) mobile systems. The investigation starts by using Mobile WiMAX wireless communication specifications described in IEEE 802.16e as the primary system setup. Under this setup orthogonal frequency division multiple access (OFDMA) is used as a physical layer scheme; it also involves the use of pilots in the OFDM symbol for channel estimation. Although OFDM is resistant to multipath fading, it requires a high degree of synchronisation to maintain sub-carrier orthogonality. Therefore the level of performance of the system depends first on the accuracy in estimating the carrier frequency offset and then the estimation of the channel. Maximum likelihood estimator is used for estimating carrier frequency offset; its performance under different conditions for example SNR, number of virtual carriers needed for estimation etc. are simulated and compared with theoretical results. The optimality of IEEE 802.16e specifications was also examined during the simulations and results analysis.

OFDM Carrier Frequency Offset Estimation

Signal processing

Signalbehandling

Adaptive OFDM Cooperative Systems

Amin, Osama Mohammed Hussein

06 December 2010

Cooperative communication is a promising technique for wireless communication systems where wireless nodes cooperate together in transmitting their information. Such communication transmission technique, which realizes the multiple antenna arrays in a distributed manner over multiple wireless nodes, succeeds in extending the network coverage, increasing throughput, improving both link reliability and spectral efficiency. Available channel state information at the transmitting nodes can be used to design adaptive transmission schemes for improving the overall system performance. Throughout our work, we adaptively change loaded power and/or bit to the Orthogonal Frequency Division Multiplexing (OFDM) symbol in order to minimize bit error rate or maximize the throughput. In the first part of this dissertation, we consider single-relay OFDM system with amplify-and-forward relaying. We propose three algorithms to minimize the bit error rate under total power constraint and fixed transmission rate. These algorithms are optimal power loading, optimal bit loading and optimal bit and power loading. Through Monte Carlo simulations we study the proposed system performance and discuss the effect of relay location and channel estimation. This study shows that the proposed algorithms result in exploiting the multi-path diversity and achieving extra coding gain. In the second part, we extend the problem to a multi-relay OFDM network but with decode-and-forward relaying. We propose an adaptive power loading algorithm to minimize the bit error rate under total power constraint based on two relay selection strategies. The proposed system leads to achieve both multi-path and cooperative spatial diversity using maximal-ratio combiner for the detection. In the last part, we consider also multi-relay network but with amplify and forward relaying. We optimize the bit loading coefficients to maximize the throughput under target bit error rate constraint. The proposed algorithm is considered more practical since it takes into consideration the channel estimation quality. The considered adaptive system has less complexity compared with other adaptive systems through reducing the feedback amount. Furthermore, the full network channel state information is needed only at the destination.

Adaptive Communication

Cooperative Networks

OFDM

Relay Networks

Electrical and Computer Engineering

Channel estimation, data detection and carrier frequency offset estimation in OFDM systems

Ahmadi, Malihe

29 January 2008

Orthogonal Frequency Division Multiplexing (OFDM) plays an important role in the implementation of high data rate communication. In this thesis, the problems of data detection and channel and carrier frequency offset estimation in OFDM systems are studied. <p>Multi-symbol non-coherent data detection is studied which performs data detection by processing multiple symbols without the knowledge of the channel impulse response (CIR). <p>For coherent data detection, the CIR needs to be estimated. Our objective in this thesis is to work on blind channel estimators which can extract the CIR using just one block of received OFDM data. A blind channel estimator for (Single Input Multi Output) SIMO OFDM systems is derived. The conditions under which the estimator is identifiable is studied and solutions to resolve the phase ambiguity of the proposed estimator are given.<p>A channel estimator for superimposed OFDM systems is proposed and its CRB is derived. The idea of simultaneous transmission of pilot and data symbols on each subcarrier, the so called superimposed technique, introduces the efficient use of bandwidth in OFDM context. Pilot symbols can be added to data symbols to enable CIR estimation without sacrificing the data rate. Despite the many advantages of OFDM, it suffers from sensitivity to carrier frequency offset (CFO). CFO destroys the orthogonality between the subcarriers. Thus, it is necessary for the receiver to estimate and compensate for the frequency offset. Several high accuracy estimators are derived. These include CFO estimators, as well as a joint iterative channel/CFO estimator/data detector for superimposed OFDM. The objective is to achieve CFO estimation with using just one OFDM block of received data and without the knowledge of CIR.

carrier frequency offset

data detection

Channel estimation

OFDM

Iterative Channel Estimation for Wireless Communications

Kim, JoonBeom

20 November 2006

The main objective of this dissertation is to present the structural design, performance evaluation, and complexity reduction of iterative joint channel estimation and data detection receivers. One of the main technical challenges in advanced wireless communications stems from the characteristics of a wireless channel, e.g., time selectivity of a channel, mobility of users, and multipath propagation. Channel estimation is essential for achieving reliable information transmission for practical wireless communication applications. Numerous channel estimation structures have been developed for different underlying channels using pilot-symbol assisted modulation (PSAM) approaches. However, since pilot symbols carry no data information, the time and the power spent on pilot symbols degrades the efficiency and the throughput of the system. Therefore, it is necessary to minimize the pilot insertion ratio without degrading the error performance. This motivates our research on iterative joint channel estimation and data detection receivers with full- and reduced- or low-complexity. In this thesis, we first propose an iterative channel estimator (ICE), based on a maximum a posteriori (MAP) algorithm, for single-carrier systems with PSAM structures. In contrast to existing MAP channel estimators, the proposed channel estimator has a lower computational complexity, which increases linearly with the modulation alphabet size. The computational complexity is reduced by exploiting a survivor in an efficient manner, while achieving comparable error performance to a full complexity receiver. For orthogonal frequency division multiplexing (OFDM) systems, we also propose novel signal constellations to facilitate channel estimation without pilot symbol transmission, and analyze the bit error rate for the proposed constellations. We also develop a suitable joint channel estimation and data detector with full- and low-complexity for the proposed constellations. This low-complexity ICE achieves an error performance comparable to the ICE with full-complexity. Finally, for vertical Bell Laboratories layered space-time OFDM systems, we propose an ICE based on a PSAM structure for time-varying multipath fading channels. By exploiting the statistical properties of a wireless channel, we also develop a method to suppress intercarrier interference due to the channel time selectivity, and propose a low-complexity ICE that exploits a priori information in an efficient manner.

Channel Estimation

Iterative processing

V-BLAST

OFDM

Per-Survivor Processing

A theoretical study of OFDM system performance with respect to subcarrier numbers and repeater output power

Chang, Jui-Ta

09 June 2011

Recent years, Orthogonal Frequency Division Multiplexing (OFDM) system gets more and more attentions for its great benefit to the optical fiber communication system for improving the transmission performance. Not only better performance in long distance transmission but also high bit-rate is attractive feature of the OFDM system. The OFDM technology has been developed for the wireless communication system, and is now used in Asymmetric Digital Subscriber Line (ADSL), ETSI Digital Audio Broadcasting (DAB), Digital Video Broadcasting (DVB), High Definition Television (HDTV), Wireless Local Area Network (WLAN) and so on. The OFDM is extensively used in broadband wired and wireless communication systems, and it solves the problem of intersymbol interference (ISI) effectively. Actually, the OFDM is a kind of Multi-Carrier Modulation (MCM), and it is not a brand-new technology. The history of the OFDM can be traced back to 1966 when Chang of Bell Labs introduced the concept of the OFDM. In this thesis, I will briefly introduce the background of optical fiber communication system, then, explain my motivation and the structure of this thesis. Next, theoretical study has been conducted. For the simulation, I discuss the performance of the OFDM system related to the number of subcarriers and the erbium-doped fiber amplifier (EDFA) repeater output power. It revealed that small number of subcarriers had better transmission performance. In my study case, repeater output power of 0dBm was the optimum condition. In addition, experimental study has been conducted. For the experiment, the waveform required for the OFDM signal generation was calculated offline, and it was realized by the Arbitrary Waveform Generator (AWG). Finally, this thesis is concluded.

OFDM

subcarrier numbers

repeater output power

Time and Frequency Synchronization and Cell Search in 3GPP LTE

Ke, Hung-Shiun

05 August 2011

Long Term Evolution (LTE) developed by Third Generation Partnership Project (3GPP) is expected to be the standard of the Fourth-Generation (4G) of wireless communication system. LTE supports Frequency Division Duplex (FDD) and Time Division Duplex (TDD), and both of them are based on Orthogonal Frequency Division Multiplexing (OFDM) system in downlink. OFDM systems are sensitive to timing and frequency offset. Therefore, synchronization plays an important role in OFDM systems. In this thesis, we study synchronization problems of a LTE FDD baseband receiver. Particularly, we develop a complete procedure to deal with the synchronization problems. The basic design concept and procedure are as follows: The receiver estimates and compensates the timing and frequency offset by using the repetition property of the cyclic prefix. In the meanwhile, the receiver also detects cyclic prefix mode (or the length of the cyclic prefix). After the frequency offset has been compensated, the receiver then processes cell search. To this end, we multiply each subcarrier by the synchronization sequence provided by LTE specification and transform them into time domain. We then estimate the channel energy in time domain to detect the Cell Identity (Cell ID). Using computer simulations, we verify that the designed receiver performs well.

fdd

lte

synchronization

cell Search

Theoretical and experimental study of OFDM system performance

Tsai, Jiun-Yi

16 July 2012

Nowadays the technologies of communication are widely developing due to the huge requirements in the world, such as asymmetric digital subscriber line (ADSL), wireless fidelity (Wi-Fi), and high definition television (HDTV). We are seeking for high performance and quality communication schemes. The scheme of orthogonal frequency division multiplexing (OFDM) catches everyone's eyes due to the advantages of the OFDM. Not only high bit rate in the long haul transmission but also reconfigurable network is the charming contention, and the penalties are reduced by the cyclic prefix which can reduce the inter-symbol interference (ISI). In this thesis, I will introduce the demand for optical fiber communications, then, interpret the motivation and the organizations in a nutshell. Next, the theoretical studies will be discussed, including mathematical formulations and basic theories of one tap equalizer, a cyclic prefix, a training symbol synchronization, and a discrete multitone (DMT) modulation. In addition, the experimental setups are successfully constructed and used for verifying the impact of one tap equalizer and the training symbol synchronization. Also, the performance of the systems are measured. Finally, the thesis is concluded.

symbol synchronization

one tap equalizer

ADSL

DMT

OFDM