Application of Optical Communication Technology of User Access
Network
Xie Chunmao
School of Physics and Electronic Information, China West Normal University, Nanchong, Sichuan, 637000, China
Keywords: User Access Network, Optical Communication Technology, Optical Signal Multiplexing Technology.
Abstract: The development of information technology has brought human society with opportunities. The culture and
economy of human society has been developed in the information age. As one of the core techniques in
information age, optical communication technology applies exchange of optical and electrical signals to
achieve transmission, communication and sharing of information. User access network can realize
information transmission to users and make them enjoy the whole information services according to the
relations among service nodes. Optical communication technology is the main form of user access network
and the carrier of full-service development. It plays an important role in full-service broadband
communication.
1 INTRODUCTION
With the development of information transmission
technology, information can travel to the given
direction on optical fiber with the speed close to
light. The optical fiber is the key vehicle of
information transmission, and light carrier is the load
bearing of information. With the development of
information technology, more stable and convenient
combination of them has brought great opportunity
for human society. Optical communication
technology, invented in 1960s, has got great progress
after going through half a century. Optical signal
multiplexing technology is the core problem of
research of optical communication technology. At
present, wavelength division multiplexing
technology is the main application of optical
communication technology. In addition, frequency
and space division multiplexing techniques are
widely used in application of optical communication
technology.
2 RISE OF OPTICAL
COMMUNICATION
TECHNOLOGY AND USER
ACCESS NETWORK
2.1 User Access Network and Optical
Communication Technology
As a huge network system including the main line,
wiring line and entrance line, user access network
bears transmission and carrying functions of
information. It is the carrier of information
communication among user network interfaces and
service nodes, as well as the network system for
connection among users and service provision
points. At present, user access network contains
cable, wireless and integrated networks. Optical
communication technology is the main form of cable
access network. Cable optical communication
technology applies the fiber to communicate. It is the
main form of user access network. Wireless optical
communication technology free space optical
communication (FSO) is widely used. Optical
communication technology provides the users with
full-service access network, so the users can enjoy
more convenient information network services.
198
198
Chunmao X.
Application of Optical Communication Technology of User Access Network.
DOI: 10.5220/0006022101980201
In Proceedings of the Information Science and Management Engineering III (ISME 2015), pages 198-201
ISBN: 978-989-758-163-2
Copyright
c
2015 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
2.2 Rise of Optical Communication
Technology
Optical communication technology, started in 1960s,
was blocked by disturbance of weather and
electromagnetic wave. It was brought to
commercialization by a revolution of WDM
technology in 1980s. Since 2000, optical
communication technology has made great progress
in optical transmission media, optoelectronic devices
and optical communication systems. Optical
communication technology plays an important role
in future economic development.
The development of optical communication
technology, as the inevitable trend of science and
technology progress, can meet the requirements of
full-service in access network transmission. Firstly,
rise of optical communication can promote
information communication of people, thus breaking
the technical limit. Secondly, with the development
of technology, the cost decrease of optical
communication provides users with convenient,
quick, economic and efficient access network
services, thus promoting communication industry.
Thirdly, optical communication technology, with
wide capacity and high speed, has been widely
applied in society of large communication and fast
life rhythm. Fourthly, information can be transferred
timely and accurately based on small loss and error
rate of optical communication technology.
3 COMPOSITION AND
TOPOLOGY STRUCTURE OF
OPTICAL ACCESS NETWORK
3.1 Composition of User Access
Network
Optical fiber is the main carrier of optical
communication. Fiber is applied to connect local side
with user side and form convenient and quick
information transmission, thus transferring
information resources to the user terminal devices.
At first, information source is transformed into
source encoding, and into channel encoding in
transmitting terminal. The transmitting terminal,
affected by electric signal, sends electrical signal.
Then, the light carrier travelling on fiber is received
in the receiving terminal. The source and channel
information is encoded to transform the light carrier
into optical signal. At last, the optical signal is
amplified to form electric signal for the users.
Optical detector plays an important role in
optical signal transmission. Fibers, as the
transmission medium of electric signal, consist of
single-mode and multimode ones. Light carrier is the
supporter of electric signal, with three generations of
wavelength. The first generation is the multimode
fiber with the wavelength of 0.85 pm; the second and
third are the hybrid of multimode and single-mode
fibers with a wavelength of 1.31 pm; the fourth is the
single-mode fiber with a wavelength of 1.55 pm. In
optical communication, the light carrier with longer
wavelength has less loss and higher efficiency in
transmission, thus providing services with higher
quality.
3.2 Topology Structure of Optical
Access Network
The main form of optical access network involves
bus, star and ring structures. Fiber is taken as the
common bus in bus structure. User access network is
achieved by direct connection with bus. Bus
structure can be seemed as canals (user connection
lines) derived from the same great river (common
bus). This structure, with little disturbance to users,
can flexibly expand services and save investment by
trunk fiber sharing. The largest disadvantage is that
the large dependence on trunk fiber and accumulated
loss can affect user access. In star structure,
information exchange is controlled by the central
node. With simple dilatancy, convenient updating
and large complex coefficient, this decoupling has
solved the accumulated loss and saved fiber number
and construction cost. The disadvantage is high cost
of initial construction and large dependence on
central node. Ring structure is a closed circuit
formed by a fiber, with the largest characteristic of
strong self-repair. Besides, tree and net structures
have potential in application in future.
4 APPLICATION OF OPTICAL
COMMUNICATION
TECHNOLOGY IN USER
ACCESS NETWORK
4.1 Application Situation of Optical
Communication Technology
Optical communication technology is an information
communication technique derived from application
of optical complex characteristics such as acousto-
optic effect, electro-optic effect, etc. Information is
resolved to the form of light carrier by technical
methods and transferred on fiber. After reaching the
user terminal, light carrier is transformed into
Application of Optical Communication Technology of User Access Network
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Application of Optical Communication Technology of User Access Network
199
information to achieve full information service of
communication. Fiber can be taken as sensitive
element for detection of physical quantity, thus
achieving overall, high speed and accurate
information transmission. It is widely used in fields
as the guidance of base network construction and
information communication. In application, optical
communication technology should be innovated to
improve technical methods for human service at first.
Then, the coincidence of optical communication
technology and user access network requirement
should be emphasized. Optical communication
should be deeply researched to improve application
potential and technology. In addition, feedback,
collection and analysis of user information should be
emphasized to meet the market requirement. At last,
optical communication technology is applied to build
a full service transmission platform of information
application for the connection of human society. This
plat form should be researched in security and
stability, thus proving users with quality full
information services.
4.2 Wavelength Division Multiplexing
Technology in Optical
Communication Application
As the most common optical communication
technology, Wavelength division multiplexing
(WDM) has been widely used in optical transport
and access networks. It applies WDM devices to
transfer optical carriers with different wavelengths
by one fiber. The advantage is to expand capacity of
the original cable for service development.
Meanwhile, transmission of electric signal is
invertible, and different demultiplexing and
multiplexing can be completed in one device, thus
enhancing flexibility of user access network and
transmission capacity. In addition, the transparent
data transmission by WDM is easy for detection,
with long transmission distance. The most common
is the multiplexing of waves with wavelengths of
1.31 and 1.55 pm. WDM is used to achieve
information transmission and full information
services. At first, the electric signals with different
wavelengths sent by transmitter (e.g., r
1
and r
2
) are
transformed into complex wave by multiplexer
(combiner) and transferred into fiber. Then, light
carrier is decomposed into electric signals (e.g., α
1
and α
2
) with different wavelengths by wave separator
and transferred to receiver in the receiving terminal.
At last, user terminal receives and applies
information by the receiver. With great advantages
and developed technology, WDM has been widely
used in user access network.
Networking mode of WDM application contains
ring, point-to-point and linear network. The
transmission capacity can be greatly improved based
on dilatancy. Dense wavelength division
multiplexing (DWDM) has huge capacity to expand
fiber transmission capacity to 8, 16 and 32 times. In
addition, with flexible networking, it can apply light
carriers with different lengths in different directions
to achieve bipolar transmission on one fiber and a
large number of data transmissions. Unpredictable
service of user access network can be solved.
Support of multi user and application can ensure
expansion of user access network. Firstly, WDM can
greatly decrease application cost of optical
communication technology. Ring network is
convenient for expansion and application of main
network. Secondly, waves with different
wavelengths can be integrated to transfer as the form
of complex wave by WDM, thus decreasing overload
devices and risks in transmission. The service can be
inverted to secure path by different wavelengths,
thus ensuring fast, reliable and safe full information
transmission. Consequently, application of optical
communication technology can be easily detected
and controlled.
4.3 Other Optical Communication
Techniques in Application
Frequency division multiplexing (FDM), as the
extension of WDM, is an optical technique derived
from frequency-wavelength relation of optical and
electric signals. The key of FDM frequency
division multiplexer requires high resolution. Optical
signals with different frequencies pass through
tunable filter to achieve information transmission by
coherent light communication technology. With
mature application and high complex coefficient, this
technique has been widely used in user access
network. Optical time division multiplexing
(OTDM) applied time differences of optical signals
on the same cable to spread information after
information transformation. The coordination of
devices and accuracy at high transmission speed are
researched for application. OTDM has the largest
advantage of huge capacity information
transmission. Optical signal processing at high speed
realizes convenient AON compatibility. In subcarrier
multiplexing (SCM) process, optical or electric
signal after frequency division is loaded by light and
modulated to transfer on fiber. The compatibility of
information data services is improved to strengthen
independence of signals and security of optical
communication in user access network application.
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4.4 Development of Fiber Techniques
in Optical Communication
Application
With the development of optical communication
technology, optical communication technology has
great space to develop in user access network.
Optical signal multiplexing technology realizes
electric information transmission with high speed,
large capacity and digitization. It is the one of the
key factors of fiber transmission capacity. As the
transmission medium, fiber is another key factor in
optical communication application. The wave band
of fiber should be expanded to satisfy optical signal
multiplexing technology, thus improving
transmission capacity. Fiber provides strong support
for the development of optical information
technology. E.g., G.665 and G.666 fiber, widely used
in China, has made a great contribution to
application of optical communication.
5 CONCLUSIONS
The development of science and technology has
brought us a modern information technology age.
Full information transmission service is improved to
develop optical communication technology and
achieve diversified selection in user access network.
It has advantages including high efficiency, large
transmission capacity, stable applications and low
cost. The increased business requirement makes
space for the development of optical communication
technology. Some new techniques are researched.
Application of optical communication technology
should be emphasized to develop theoretical
knowledge for the development of information
network technology and requirement of internetwork
communication.
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Wang Yanjin, Shao Yufeng, Chi Nan, 2013(03):380-385.
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Zhang Haiyi, 2013(01):19-21. Optical communication tech
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