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|Title: ||CFDP performance over weather-dependent Ka-band channel|
|Authors: ||Sung, I. U.|
Gao, Jay L.
|Keywords: ||CCSDS File Delivery Protocol (CFDP)|
deep space communications
|Issue Date: ||19-Jun-2006 |
|Publisher: ||American Institute of Aeronautics and Astronautics, Inc.|
|Citation: ||SpaceOps 2006 Conference, Rome, Italy, June 19-23, 2006|
|Series/Report no.: ||AIAA|
|Abstract: ||This study presents an analysis of the delay performance of the CCSDS File Delivery Protocol (CFDP) over weather-dependent Ka-band channel. The Ka-band channel condition is determined by the strength of the atmospheric noise temperature, which is weather dependent. Noise temperature data collected from the Deep Space Network (DSN) Madrid site is used to characterize the correlations between good and bad channel states in a twostate Markov model. Specifically, the probability distribution of file delivery latency using the CFDP deferred Negative Acknowledgement (NAK) mode is derived and quantified. Deep space communication scenarios with different file sizes and bit error rates (BERs) are studied and compared. Furthermore, we also examine the sensitivity of our analysis with respect to different data sampling methods. Our analysis shows that while the weather dependent channel only results in fairly small increases in the average number of CFDP retransmissions required, the maximum number of transmissions required to complete 99 percentile, on the other hand, is significantly larger for the weather-dependent channel due to the significant correlation of poor weather states.|
|Appears in Collections:||JPL TRS 1992+|
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