Abstract
In this paper, we investigate the disruptive
effects of solar scintillation in Deep Space Networks (DSNs) and we applied
Network Coded Cooperation in DSNs to improve throughput, robustness and
security of the communication systems. Simulations illustrate the comparisons
between direct links and NCC links for both Rayleigh fading channel and Rician
fading channel models. The effects of solar scintillation are modelled from
previous studies and the outage probabilities of these links are given
graphically for all channel types. Besides the computer simulations in MATLAB,
proposed system model is implemented with Software Defined Radio (SDR) nodes
and the error performances are illustrated on bar charts with Bit Error Rates
(BER) to Signal-to-Noise Ratios (SNR). As a result, it is seen that NCC system
decreases the outage probabilities of that communication system, improves error
performance, and also decreases the transmission time between transmitters and
receivers.
Keywords
Network Coded Cooperation Deep Space Networks Solar Scintillation Rayleigh Fading Channels Rician Fading Channels Outage Probability
References
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- [9] H. Li, J. Gao, M. Yang, G. Lv, M. Li, and Q. Guo, “Study on ar4ja code in deep space fading channel,” in 7th International Conference on Communications and Networking in China, Aug 2012, pp. 150–154.
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- [11] Jet Propulsion Laboratory and NASA, "NASA facts - Deep Space Network,". [Online]. Available: http://www.jpl.nasa.gov/news/fact_sheets/DSN-0203.pdf. Accessed: Feb. 28, 2017.
- [12] Q. Li, L. Yin, and J. Lu, “Application of ldpc codes for deep space communication under solar scintillation condition,” Earth, vol. 1, no. 2L, p. 0R, 2011.
- [13] S. Hu, “Scintillation effects on deep space telecommunication links through solar corona,” in 2009 5th International Conference on Wireless Communications, Networking and Mobile Computing, Sept 2009, pp. 1–4.
- [14] Y. Feria, M. Belongie, T. McPheeters, and H. Tan, “Solar scintillation effects on telecommunication links at ka-band and x-band,” The Telecommunications and Data Acquisition Progress Report 42-129, January–March 1997, pp. 1–11, 1997.
- [15] M. D. Renzo, M. Iezzi, and F. Graziosi, “On diversity order and coding gain of multisource multirelay cooperative wireless networks with binary network coding,” IEEE Transactions on Vehicular Technology, vol. 62, no. 3, pp. 1138–1157, March 2013.
- [16] P. Shaft, “On the relationship between scintillation index and rician fading,” IEEE Transactions on Communications, vol. 22, no. 5, pp. 731–732, May 1974.
- [17] B. J. Choi and X. Shen, “Distributed clock synchronization in delay tolerant networks,” in 2010 IEEE International Conference on Communications, May 2010, pp. 1–6.
Abstract
References
- [1] W. Chen, L. Hanzo, and Z. Cao, “Network coded modulation for two-way relaying,” in 2011 IEEE Wireless Communications and Networking Conference, March 2011, pp. 1765–1770.
- [2] T. Ho and D. Lun, Network coding: an introduction. Cambridge University Press, 2008.
- [3] J. N. Laneman, D. N. C. Tse, and G. W. Wornell, “Cooperative diversity in wireless networks: Efficient protocols and outage behavior,” IEEE Transactions on Information Theory, vol. 50, no. 12, pp. 3062–3080, Dec 2004.
- [4] Z. Ding and K. K. Leung, “On the combination of cooperative diversity and network coding for wireless uplink transmissions,” IEEE Transactions on Vehicular Technology, vol. 60, no. 4, pp. 1590–1601, May 2011.
- [5] S. T. Basaran, G. K. Kurt, M. Uysal, and I. Altunbas, “A tutorial on network coded cooperation,” IEEE Communications Surveys Tutorials, vol. 18, no. 4, pp. 2970–2990, Fourthquarter 2016.
- [6] A. El Gamal and Y.-H. Kim, Network information theory. Cambridge University press, 2011.
- [7] O. Çalik, T. Ensezgin, B. Öztaner, S. Gökçeli, S. T. Başaran, and G. K. Kurt, “Network coded cooperation in delay tolerant networks,” in 2016 National Conference on Electrical, Electronics and Biomedical Engineering (ELECO), Dec 2016, pp. 627–631.
- [8] NASA and Jet Propulsion Laboratory, "History," in Deep Space Network. [Online]. Available: https://deepspace.jpl.nasa.gov/about/history/. Accessed: Feb. 28, 2017.
- [9] H. Li, J. Gao, M. Yang, G. Lv, M. Li, and Q. Guo, “Study on ar4ja code in deep space fading channel,” in 7th International Conference on Communications and Networking in China, Aug 2012, pp. 150–154.
- [10] J. H. Yuen, Deep space telecommunications systems engineering. Springer Science & Business Media, 2013.
- [11] Jet Propulsion Laboratory and NASA, "NASA facts - Deep Space Network,". [Online]. Available: http://www.jpl.nasa.gov/news/fact_sheets/DSN-0203.pdf. Accessed: Feb. 28, 2017.
- [12] Q. Li, L. Yin, and J. Lu, “Application of ldpc codes for deep space communication under solar scintillation condition,” Earth, vol. 1, no. 2L, p. 0R, 2011.
- [13] S. Hu, “Scintillation effects on deep space telecommunication links through solar corona,” in 2009 5th International Conference on Wireless Communications, Networking and Mobile Computing, Sept 2009, pp. 1–4.
- [14] Y. Feria, M. Belongie, T. McPheeters, and H. Tan, “Solar scintillation effects on telecommunication links at ka-band and x-band,” The Telecommunications and Data Acquisition Progress Report 42-129, January–March 1997, pp. 1–11, 1997.
- [15] M. D. Renzo, M. Iezzi, and F. Graziosi, “On diversity order and coding gain of multisource multirelay cooperative wireless networks with binary network coding,” IEEE Transactions on Vehicular Technology, vol. 62, no. 3, pp. 1138–1157, March 2013.
- [16] P. Shaft, “On the relationship between scintillation index and rician fading,” IEEE Transactions on Communications, vol. 22, no. 5, pp. 731–732, May 1974.
- [17] B. J. Choi and X. Shen, “Distributed clock synchronization in delay tolerant networks,” in 2010 IEEE International Conference on Communications, May 2010, pp. 1–6.
Details
| Subjects | Engineering |
|---|---|
| Journal Section | Articles |
| Authors | |
| Publication Date | July 27, 2017 |
| Published in Issue | Year 2017 Volume: 17 Issue: 2 |
