Performance of DTN protocols in space communications

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• 作者：Xue Sun (1)
  Qian Yu (1)
  Ruhai Wang (1) (2)
  Qinyu Zhang (3)
  Zhiguo Wei (1)
  Jianling Hu (1)
  Athanasios V. Vasilakos (4)
  
• 关键词：DTN ; Satellite communications ; Space networks ; Protocol testing and analysis ; Licklider transmission protocol (LTP)
• 刊名：Wireless Networks
• 出版年：2013
• 出版时间：November 2013
• 年：2013
• 卷：19
• 期：8
• 页码：2029-2047
• 全文大小：986KB
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• 作者单位：Xue Sun (1)
  Qian Yu (1)
  Ruhai Wang (1) (2)
  Qinyu Zhang (3)
  Zhiguo Wei (1)
  Jianling Hu (1)
  Athanasios V. Vasilakos (4)
  
  1. School of Electronics and Information Engineering, Soochow University, Suzhou, People鈥檚 Republic of China
  2. Phillip M. Drayer Department of Electrical Engineering, Lamar University, Beaumont, TX, USA
  3. Department of Electronics and Information Engineering, Harbin Institute of Technology Shenzhen Graduate School, Shenzhen, People鈥檚 Republic of China
  4. Department of Computer and Telecommunications Engineering, University of Western Macedonia, N. Erythraia, 14671, Kozani, Greece
  
• ISSN：1572-8196

文摘

Delay/disruption tolerant networking (DTN) was developed to enable automated network communications despite the long link delay and frequent link disruptions that generally characterize space communications. The performance of DTN convergence layer adapter (CLA) protocols over asymmetric space communication channels has not yet been comprehensively characterized. In this paper, we present an experimental performance evaluation of DTN CLA protocols for reliable data transport over a space communication infrastructure involving asymmetric channel rates, with particular attention to the recently developed Licklider transmission protocol (LTP) CLA (i.e., LTPCL). The performance of LTPCL is evaluated in comparison with other two reliable CLAs, TCP CLA and a hybrid of TCP CLA and LTPCL, for long-delay cislunar communications in the presence of highly asymmetric channel rates. LTPCL is also evaluated and analyzed in a deep-space communication scenario characterized by a very long link delay and lengthy link disruptions.