Analogue Optical Fibre Communications
Published on 30. June 1995
Book
Hardback
336 pages
978-0-85296-832-1 (ISBN)
Description
One of the many problems facing designers of fibre systems is the basic question of how best to transmit analogue-sourced signals; either on dedicated point-to-point links or as part of mixed-mode traffic on a predominantly digital fibre service network. This book discusses the fundamental principles involved and describes a variety of techniques and applications. The chapters have been contributed by invited researchers with expertise in a range of areas and outline the latest methods and analytical approaches, components and systems.
The general topics covered include subcarrier multiplexing (SCM) and coherent techniques, transmissions of TV signals, soliton and pulse time modulation methods and performance assessment of subcarrier multiplexed optical systems. Specific technological and system component issues addressed include generation and delivery of millimetre-waves over fibre systems for mobile communications, tuned optical receivers for fibre SCM systems and optical fibre amplifiers, and wavelength division multiplexing (WDM).
Written by leading authorities in their fields, this graduate level text should be of interest to all scientists and engineers concerned with transmission of analogue-sourced information over fibre systems.
The general topics covered include subcarrier multiplexing (SCM) and coherent techniques, transmissions of TV signals, soliton and pulse time modulation methods and performance assessment of subcarrier multiplexed optical systems. Specific technological and system component issues addressed include generation and delivery of millimetre-waves over fibre systems for mobile communications, tuned optical receivers for fibre SCM systems and optical fibre amplifiers, and wavelength division multiplexing (WDM).
Written by leading authorities in their fields, this graduate level text should be of interest to all scientists and engineers concerned with transmission of analogue-sourced information over fibre systems.
More details
Series
Language
English
Place of publication
Stevenage
United Kingdom
Target group
Professional and scholarly
Product notice
sewn/stitched
Cloth over boards
Dimensions
Height: 240 mm
Width: 161 mm
Thickness: 22 mm
Weight
671 gr
ISBN-13
978-0-85296-832-1 (9780852968321)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Persons
Brett Wilson received his Ph.D. in 1975 from the University of Manchester and is now the Senior Lecturer at the University of Manchester Institute of Science and Technology (UMIST) where he leads the Fibre Communications Research Group. His communications interests are mainly in high-speed analogue fibre systems, fibre receiver design and modulation techniques, but Wilson is also well known for his work in the field of current-mode circuit design. He has published over 70 papers in these two areas.
Zabih Ghassemlooy obtained his Ph.D. from UMIST in 1987 for work on analogue fibre systems employing multiplexed pulse time modulation for TV signal transmission. He in now a Principal Lecturer and Subject Leader for Communication Engineering and Signal Processing at Sheffield Hallam University and heads the Optical Fibre Communication Systems research group with interests in high-speed fibre systems and modulation techniques as well as optical and molecular sensors.
Izzat Darwazeh graduated with a Ph.D. from UMIST in 1991 for his studies on high-speed fibre receiver designs and FDDI systems before moving to the University of Wales at Bangor, working on multigigahertz fibre systems and MMIC design techniques. He now lectures at UMIST where he is a member of both the Fibre Communications and the Solid State Electronics research groups, working on high-speed optical fibre systems, advanced MMIC and OEIC optical receiver structures and optical fibre networks.
Zabih Ghassemlooy obtained his Ph.D. from UMIST in 1987 for work on analogue fibre systems employing multiplexed pulse time modulation for TV signal transmission. He in now a Principal Lecturer and Subject Leader for Communication Engineering and Signal Processing at Sheffield Hallam University and heads the Optical Fibre Communication Systems research group with interests in high-speed fibre systems and modulation techniques as well as optical and molecular sensors.
Izzat Darwazeh graduated with a Ph.D. from UMIST in 1991 for his studies on high-speed fibre receiver designs and FDDI systems before moving to the University of Wales at Bangor, working on multigigahertz fibre systems and MMIC design techniques. He now lectures at UMIST where he is a member of both the Fibre Communications and the Solid State Electronics research groups, working on high-speed optical fibre systems, advanced MMIC and OEIC optical receiver structures and optical fibre networks.
Content
Chapter 1: Subcarrier multiplexing in optical communication network
Chapter 2: Coherent techniques in analogue signal transmission
Chapter 3: Analogue intensity modulation for optical-fibre video transmission
Chapter 4: Pulse time modulation techniques for optical fibre communications
Chapter 5: Soliton pulse position modulation
Chapter 6: Optical fibre digital pulse position modulation
Chapter 7: Performance assessment of subcarrier-multiplexed optical systems
Chapter 8: Optoelectronics for millimetre-wave radio over fibre systems
Chapter 9: Optical generation and delivery of modulated mm-waves for mobile communications
Chapter 10: Optical receiver design for optical-fibre SCM systems
Chapter 11: Optical fibre amplifiers and WDM
Chapter 2: Coherent techniques in analogue signal transmission
Chapter 3: Analogue intensity modulation for optical-fibre video transmission
Chapter 4: Pulse time modulation techniques for optical fibre communications
Chapter 5: Soliton pulse position modulation
Chapter 6: Optical fibre digital pulse position modulation
Chapter 7: Performance assessment of subcarrier-multiplexed optical systems
Chapter 8: Optoelectronics for millimetre-wave radio over fibre systems
Chapter 9: Optical generation and delivery of modulated mm-waves for mobile communications
Chapter 10: Optical receiver design for optical-fibre SCM systems
Chapter 11: Optical fibre amplifiers and WDM