Modeling and Simulation of FC-AE-ASM Network

Jin Huang; Bo Xu; Kun Qiu

doi:10.4028/www.scientific.net/AMR.748.941

Paper Titles

Effect of Distance on the Maximum Data Transfer for Different Mounting Elevations of XBee Pro Module in Viral Advertisement System
p.921

Critical Evaluation on Steganography Metrics
p.927

Efficient Scratchpad Memory Management for Mobile Multimedia Application
p.932

A Tiny Development Platform with Virtualized Peripherals for Education of Embedded Software Design
p.936

Modeling and Simulation of FC-AE-ASM Network
p.941

Implementation of Vehicle Control System Based on IPV6-CAN Gateway
p.946

The Research of Electronic Payment Platform Based on Public Key Infrastructure
p.953

A Provably Secure E-Cash Scheme with Loss-Tracing
p.958

A Note on Optimal Function for Similarity Measure in Ontology Application
p.967

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 748Modeling and Simulation of FC-AE-ASM Network

Modeling and Simulation of FC-AE-ASM Network

Abstract:

Fibre Channel (FC) as a Universal Avionics Network (UAN) candidate solution for the advanced integrated avionics systems can enable high-bandwidth, low-latency, high-reliability and hard real-time communication on aircraft platforms spanning military and commercial applications. Fibre Channel Avionics Environment-Anonymous Subscriber Messaging protocol (FC-AE-ASM) is one of the five high level protocols in fiber channel avionic environment which is used to transport command, control, signal processing and sensor / video data of the aircraft[1,2].The objective of this paper is to conduct a modeling and simulation on the performance of the FC–AE-ASM network. Through modeling the message transmission of the FC-AE-ASM with accompanying Eclipse, some network performance parameters such as bandwidth, throughput and end-to-end message delay can be gained and analyzed.

You might also be interested in these eBooks

Material and Manufacturing Technology IV

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 748)

Pages:

941-945

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.748.941

Citation:

Cite this paper

Online since:

August 2013

Authors:

Jin Huang, Bo Xu, Kun Qiu

Keywords:

FC-AE-ASM Protocol, Hard Real-Time, Universal Avionics Network

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] TR-INCITS. FC-AE-ASM (Fibre Channel Anonymous Subscriber Messaging), Rev 1.2 February 7, 2006 [S]

Google Scholar

[2] TR-INCITS. FC-AE (Fibre Channel Avionics Environment), Rev 2.6 Feb 7, (2002)

Google Scholar

[1] Xiong Hua-gang; Zhou Gui-rong; Li Qiao. A Survey on Avionics Bus and Network Interconnections and Their Progress. Acta Aeronautica Et Astronautica Sinica[J], 2006, PP: 1135-1144

Google Scholar

[3] Guo Cai-jian; Xiong Hua-gang; Xu Ya-jun. Real-time Performance Test for Different Topologies and Classes of Service of Fibre Channel in Avionics Systems. Computer Engineering and Applications[J],2009, pp: 60-62

Google Scholar

[4] Zhu Xiao-lu; Zhang Feng-ming; Wang Yong; Bai Yun. Simulation and estimation of End-to-End Delay of Fiber Channel Network in Avionic System. Electronics Optics & Control[J], 2011.5, PP: 54-58.

Google Scholar

[5] F.C Mckinzie. Achieving Greater Automation in Fibre Channel Test Equipment for Parametric and ASM Protocol Analysis and Testing [military avionics]. AUTOTESTCON, 2003, PP: 636-642

DOI: 10.1109/autest.2003.1243643

Google Scholar

[6] Ding Fan; Song Li-ru; Xiong Hua-gang. A Data Transmission Control Algorithm for FC-AE-ASM Network. Electronics & Information Technology[J], 2009, pp: 1509-1512

Google Scholar