Emergency Passive Optical Access System’s Architecture Design and Network Simulation

Shu Hua Yin; Dong Hong Xie; Zhen Ming Liu; Bo Ning Wang

doi:10.4028/www.scientific.net/AMR.433-440.6850

Paper Titles

Research on Driving Mechanism and Movement Principle of Underwater Glider
p.6825

Multivariable Grinding Circuit Control: An Modifed Analytical Decoupling Control Approach within a Unity Feedback Control Structure
p.6832

Design and Implementation of Information Management System for Gas Valve Remote Monitoring and Control
p.6838

FEM Analysis of Single-Sided Linear Induction Motor with Different Secondary Conductor Structures
p.6843

Emergency Passive Optical Access System’s Architecture Design and Network Simulation
p.6850

Design of RFID Based Robot System for Automatic Search of Books in Libraries
p.6856

Analysis of Pivotal Technical Standards of Multi-Format Full-HD Camcorder
p.6861

Research on the Imaging Technology of 3DTV
p.6866

Winged Aerostat Systems for Better Station Keeping for Aerial Surveillance
p.6871

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 433-440Emergency Passive Optical Access System’s...

Emergency Passive Optical Access System’s Architecture Design and Network Simulation

Abstract:

The emergency optical access system is proposed for communication interruptions caused by irresistible natural disasters. The system which is based on EPON adopts modular design and realizes hardware and software’s organic integration. By using dynamic bandwidth allocation algorithm, the system can provide an integrated access of data, video, voice and multimedia business on the same platform. It uses the G.652 optical fiber. When the transmission distance is 20 kms, it reaches the system’s capacity as the downstream and upstream rates are 1.25 Gb/s. The system performance is simulated and verified through network software, and it provides grounds for the system’s organizing and management in a mobile environment.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 433-440)

Pages:

6850-6855

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.433-440.6850

Citation:

Cite this paper

Online since:

January 2012

Authors:

Shu Hua Yin, Dong Hong Xie, Zhen Ming Liu, Bo Ning Wang

Keywords:

Architecture Design, Dynamic Bandwidth Allocation, Emergency, Multi-Functional Interface, Network Test, Optical Access System

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] CHEN hong, SU li, SHI guo-wei. Survivability of EPON Access Network [J].TSINGHUA UNIVERSITY, 2004(7): 933-937.

Google Scholar

[2] JIANG jian-ping, HE xiao-xu, LI bing. IP soft core design of EPON client dedicated chip[J]. STUDY ON OPTICAL COMMUNICATIONS,2009(4): 21-23.

Google Scholar

[3] YIN shu-hua. Design of the Multi-functional Interface Based on Optical Transport Network [J]. SEMICONDUCTOR OPTOELECTRONICS,2006(5): 598-601.

Google Scholar

[4] Yuksel K, Moeyaert V, Wuilpart M, et al. Optical layer monitoring in Passive Optical Networks: A review [A]. ICTON 2008 [C].Athens,Greece: The National Institute of Telecommunications, 2008, 92-98.

DOI: 10.1109/icton.2008.4598379

Google Scholar

[5] ZHANG su-wen. Hardware Design and Implementation of ONU Based on PAS6201[J]. OPTICAL COMMUNICATION TECHNOLOGY, 2008(9): 26-28.

Google Scholar