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Multi-Carrier Spread-Spectrum

  • Khaled Fazel
  • Gerhard P. Fettweis

Table of contents

  1. Front Matter
    Pages i-xvii
  2. General Issues of Multi-Carrier Spread-Spectrum

    1. Front Matter
      Pages 1-1
    2. Hermann Rohling, Karsten Brüninghaus, Rainer Grünheid
      Pages 23-30
    3. J. P. Castro, A. Toskala, L. Chalard, S. Hämäläinen, K. Kalliojärvi
      Pages 31-38
  3. Applications of Multi-Carrier Spread-Spectrum

  4. Coding and Detection for MC-SS

    1. Front Matter
      Pages 87-87
    2. Achim Nahler, Gerhard P. Fettweis
      Pages 97-104
    3. Uli Sorger, Isabella De Broeck, Michael Schnell
      Pages 111-118
    4. Jan E. M. Nilsson
      Pages 119-126
    5. Jochem Egle, Markus Reinhardt, Jürgen Lindner
      Pages 127-134
    6. W. G. Teich, J. Egle, M. Reinhardt, J. Lindner
      Pages 135-142
  5. Synchronization and Channel Estimation

    1. Front Matter
      Pages 143-143
    2. Heidi Steendam, Marc Moeneclaey
      Pages 145-152
    3. Peter Hoeher, Stefan Kaiser, Patrick Robertson
      Pages 169-178
    4. Karsten Brüninghaus, Hermann Rohling
      Pages 187-194
    5. Igor S. Simić, Aleksa J. Zejak, Miroslav L. Dukić, Miljko M. Erić
      Pages 195-200
  6. MC-SS for the Uplink of A Cellular System

    1. Front Matter
      Pages 201-201
    2. Luciano Tomba, Witold A. Krzymien
      Pages 203-210
    3. Thad B. Welch, Rodger E. Ziemer
      Pages 219-226

About this book

Introduction

l 1 Khaled Fazel , Gerhard P. Fettweis lGerman Aerospace Research Establishment (DLR) Institute for Communications Technology 0-82234 Oberpfaffenhofen, Germany lDresden University of Technology Department of Electrical Engineering 0-01062 Dresden, Germany To operate future generation multimedia communications systems high data rate transmission needs to be guaranteed with a high quality of service. For instance, the third generation cellular mobile systems should offer a high data rate up to 2 Mbitls for video, audio, speech and data transmission [1]. In addition, the important challenge for these cellular systems will be the choice of an appropriate multiple access scheme. These trends motivated many researchers to look for multiple access systems that offer high spectral efficiency. The technique of spread spectrum originating from the military applications may allow partly to fulfill the above requirements. Advantages of spread spectrum technique are broadly known: High immunity against multipath distortion, no need for frequency planning, high flexibility, easier variable rate transmission etc. [1-2]. A multiple access scheme based on direct sequence spread spectrum, known as direct sequence code division multiple access (DS-CDMA) relies on spreading the data stream using an assigned spreading code for each user in the time domain. The capability of minimising multiple access interference (MAl) is given by the cross­ correlation properties of spreading codes. In the case of multipath propagation the capability of distinguishing one component from others in the composite received signal is offered by the auto-correlation properties of the spreading codes [2].

Keywords

Audio Modulation Phase communication communication system data transmission multimedia network neural networks radar radio radio network simulation transmission video

Editors and affiliations

  • Khaled Fazel
    • 1
  • Gerhard P. Fettweis
    • 2
  1. 1.Institute for Communications TechnologyGerman Aerospace Research Establishment (DLR)OberpfaffenhofenGermany
  2. 2.Department of Electrical EngineeringDresden University of TechnologyDresdenGermany

Bibliographic information