Autor: |
Yesmagambetov, Bulat-Batyr, Mussabekov, Akhmetbek, Alymov, Nurlybek, Apsemetov, Abdulkhak, Balabekova, Madina, Kayumov, Kamil, Arystanbayev, Kuttybek, Imanbayeva, Aigul |
Předmět: |
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Zdroj: |
Computation; Jun2023, Vol. 11 Issue 6, p111, 15p |
Abstrakt: |
In the radio telemetry systems of spacecraft, various data compression methods are used for data processing. When using any compression methods, the data obtained as a result of compression is formed randomly, and transmission over radio communication channels should be carried out evenly over time. This leads to the need to use special buffer storage devices. In addition, existing spacecraft radio telemetry systems require grouping of compressed data streams by certain characteristics. This leads to the need to sort compressed data by streams. Therefore, it is advisable to use associative buffer storage devices in such systems. This article is devoted to the analysis of the processes of formation of output streams of compressed data generated at the output of an associative storage device (ASD). Since the output stream of compressed data is random, queue theory and probability theory are used for analysis. At the same time, associative memory is represented as a queue system. Writing and reading in an ASD can be interpreted as servicing orders in a queue system. The purpose of the analysis is to determine the characteristics of an associative storage device (ASD). Such characteristics are the queue length M{N} in the ASD, the deviation of the queue length D{N} in the ASD and the probability p n of a given volume n of compressed data in the ASD (including the probability of emptying and the probability of memory overflow). The results obtained are of great practical importance, since they can be used to select the amount of memory of an associative storage device (ASD) when designing compression devices for telemetry systems of spacecraft. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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