OFDM Transmission over Wideband Channel

Slides:

Advertisements

Similar presentations

OFDM Transmission Technique Orthogonal Frequency Division Multiplexer

Advertisements

Introduction[1] •Three techniques are used independently or in tandem to improve receiver signal quality •Equalization compensates for.

Communication System Overview

Ch 3 Analysis and Transmission of Signals

S Digital Communication Systems Multipath Radio Channel Addendum (extracts from J-P Linnartz: Wireless Communication CDROM)

Fading multipath radio channels Narrowband channel modelling Wideband channel modelling Wideband WSSUS channel (functions, variables & distributions)

The Impact of Channel Estimation Errors on Space-Time Block Codes Presentation for Virginia Tech Symposium on Wireless Personal Communications M. C. Valenti.

1 Small-scale Mobile radio propagation Small-scale Mobile radio propagation l Small scale propagation implies signal quality in a short distance or time.

Comparison of different MIMO-OFDM signal detectors for LTE

Digital transmission over a fading channel Narrowband system (introduction) Wideband TDMA (introduction) Wideband DS-CDMA (introduction) Rake receiver.

OFDM based for WIFI Ziqi SONG Zhuo ZHANG Supervisor: Prabin.

Doc.: IEEE /282r1 Submission September 2000 S. Halford, K. Halford, and M. WebsterSlide 1 Evaluating the Performance of HRb Proposals in the Presence.

Diversity techniques for flat fading channels BER vs. SNR in a flat fading channel Different kinds of diversity techniques Selection diversity performance.

Wireless Networks (PHY): Design for Diversity Y. Richard Yang 9/18/2012.

Physical Layer: Channel models and digital modulation techniques

IERG 4100 Wireless Communications

1 EQ2430 Project Course in Signal Processing and Digital Communications - Spring 2011 On phase noise and it effect in OFDM communication system School.

1 Mobile Communication Systems 1 Prof. Carlo Regazzoni Prof. Fabio Lavagetto.

Multipath fading and reflections The signal takes many paths to the destination. The propagation delay along each path is different. How many meters difference.

#7 1 Victor S. Frost Dan F. Servey Distinguished Professor Electrical Engineering and Computer Science University of Kansas 2335 Irving Hill Dr. Lawrence,

Wireless and Mobile Communication Systems

Wireless Communication Channels: Small-Scale Fading

Harbin Institute of Technology (Weihai) 1 Chapter 2 Channel Measurement and simulation  2.1 Introduction  Experimental and simulation techniques  The.

ECE 4730: Lecture #10 1 MRC Parameters  How do we characterize a time-varying MRC?  Statistical analyses must be used  Four Key Characteristics of a.

Wireless Communication Channels: Small-Scale Fading

EEE440 Modern Communication Systems Wireless and Mobile Communications.

Wireless communication channel

Muhammad Imadur Rahman1, Klaus Witrisal2,

Chapter 4 Mobile Radio Propagation: Small-Scale Fading and Multipath

12- OFDM with Multiple Antennas. Multiple Antenna Systems (MIMO) TX RX Transmit Antennas Receive Antennas Different paths Two cases: 1.Array Gain: if.

Lecture 3. 2 Outline Signal fluctuations – fading Interference model – detection of signals Link model.

TAP Channel Measurement Fundamentals, Goals, and Plans.

Modelling and analysis of wireless fading channels Geir E. Øien

Wireless Transmission Fundamentals (Physical Layer) Professor Honggang Wang

Chapter 5 – Mobile Radio Propagation: Small-Scale Fading and Multipath

Digital transmission over a fading channel Narrowband system (introduction) BER vs. SNR in a narrowband system Wideband TDMA (introduction) Wideband DS-CDMA.

EE 6332, Spring, 2014 Wireless Communication Zhu Han Department of Electrical and Computer Engineering Class 3 Jan. 22 nd, 2014.

Wireless Communication Technologies 1 Outline Introduction OFDM Basics Performance sensitivity for imperfect circuit Timing and.

Digital transmission over a fading channel Narrowband system (introduction) Wideband TDMA (introduction) Wideband DS-CDMA (introduction) Rake receiver.

EELE 5490, Fall, 2009 Wireless Communications Ali S. Afana Department of Electrical Engineering Class 5 Dec. 4 th, 2009.

The Wireless Channel Lecture 3.

Channel Estimation 2012/08/13 蒲俊瑋.

A Novel one-tap frequency domain RLS equalizer combined with Viterbi decoder using channel state information in OFDM systems Advisor: Yung-an Kao Student:

Abdul-Aziz .M Al-Yami Khurram Masood

EE 6331, Spring, 2009 Advanced Telecommunication Zhu Han Department of Electrical and Computer Engineering Class 7 Feb. 10 th, 2009.

1 What is small scale fading? Small scale fading is used to describe the rapid fluctuation of the amplitude, phases, or multipath delays of a radio signal.

Adaphed from Rappaport’s Chapter 5

Statistical multipath channel models Hassan fayed DR.ENG MOHAB MANGOUD.

Wireless Multiple Access Schemes in a Class of Frequency Selective Channels with Uncertain Channel State Information Christopher Steger February 2, 2004.

Doppler Spread Estimation in Frequency Selective Rayleigh Channels for OFDM Systems Athanasios Doukas, Grigorios Kalivas University of Patras Department.

Statistical Description of Multipath Fading

Space Time Codes. 2 Attenuation in Wireless Channels Path loss: Signals attenuate due to distance Shadowing loss : absorption of radio waves by scattering.

OFDM Based WLAN System Song Ziqi Zhang Zhuo.

TI Cellular Mobile Communication Systems Lecture 3 Engr. Shahryar Saleem Assistant Professor Department of Telecom Engineering University of Engineering.

Fading in Wireless Communications Yan Fei. Contents  Concepts  Cause of Fading  Fading Types  Fading Models.

April 27, 2007 David Doria OFDM Channel Modeling for WiMAX.

Diana B. Llacza Sosaya Digital Communications Chosun University

EEE 441 Wireless And Mobile Communications

Small-Scale Fading Prof. Michael Tsai 2016/04/15.

Introduction to OFDM and Cyclic prefix

Mobile Radio Propagation - Small-Scale Fading and Multipath

Outline Introduction Type of Multiplexing FDMA TDMA CDMA Future Work

UNIT I – Wireless channels

Characterizations and Modeling of the Wireless Channel

Klaus Witrisal Signal Processing and Speech Communication Lab

Fading multipath radio channels

Channel Estimation in OFDM Systems

On the Design of RAKE Receivers with Non-uniform Tap Spacing

Channel Estimation in OFDM Systems

EE359 – Lecture 6 Outline Review of Last Lecture

Presentation transcript:

OFDM Transmission over Wideband Channel Gwo-Ruey Lee

Outlines OFDM Transmission over Wideband Channel The Time Dispersive Channel Model Effects of Time Dispersive Channels on OFDM Channel Estimation Time Domain Channel Estimation Frequency Domain Channel Estimation Equalization Comparisons of Time- and Frequency- Domain Equalization

The Time Dispersive Channel Model 1/3 A time-dispersive channel can be characterized by its channel impulse response where is the number of multipath components is the path gain of path i is the path delay of path i

The Time Dispersive Channel Model 2/3 Each path gain is a complex random variable with uniformly distributed phases and Rayleigh distributed magnitude. The average power of each path decays exponentially.

The Time Dispersive Channel Model 3/3 The mathematical model for the time dispersive channel is where is the sampling period, and is the root-mean-squared (RMS) delay spread.

Effects of Time Dispersive Channels on OFDM 1/1 The phenomenon of multipath fading causes previous symbol to interfere with the latter symbol. This is known as the inter-symbol interference (ISI). The received signal is the convolution of the transmitted symbols and the discrete-time channel impulse response.

Channel Estimation 1/9 Channel estimation is the task of estimating the frequency response of the radio channel the transmitted signal travels before reaching the receiver antenna. The channel estimation can be performed using the time domain approach and frequency domain approach. Time domain channel estimation Frequency domain channel estimation

Time Domain Channel Estimation 2/9 This channel estimation is performed using the time domain approach, before FFT processing of the training symbols. In this, the channel impulse response instead of the channel frequency response, is estimated.

Time Domain Channel Estimation 3/9 The received time domain signals are is the channel impulse response. is the known symbol. is noise.

Time Domain Channel Estimation 4/9 The time domain convolution can be expressed as a matrix vector multiplication. The parameter L is defined as the maximum length of the impulse response, L<64.

Time Domain Channel Estimation 5/9 Then receive signal is expressed as

Time Domain Channel Estimation 6/9 The least square (LS) estimate for is

Frequency Domain Channel Estimation 7/9 This channel estimation is performed using the frequency domain approach. In this, the channel frequency response is estimated by using two repeat training sequences.

Frequency Domain Channel Estimation 8/9 We get (4.2) from (4.1) through FFT transform, If we have two repeat sequences,

Frequency Domain Channel Estimation 9/9 The least square (LS) estimate for each is

Comparisons of Time- and Frequency-Domain Equalization 1/1 Time-domain Equalization Frequency-domain Equalization Convolution One-tap multiplication High complexity when L is lager Low complexity when L is small No FFT Required FFT Required

References [1] L. Hanzo, W. Webb and T. Keller, Single- and multi-carrier quadrature amplitude modulation – Principles and applications for personal communications, WLANs and broadcasting, John Wiley & Sons, Ltd, 2000. [2] Mark Engels, Wireless Ofdm Systems: How to Make Them Work? Kluwer Academic Publishers. [3] John Terry, Juha Heiskala, OFDM Wireless LANs: A Theoretical and Practical Guide, Sams.