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Network Analyzer for Nonstatic Jamming

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Interim technical rept.

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The survivability of a packet radio network PRNET under jamming attack is an important issue. The goal of this research is to develop the analytical methods for understanding as well as predicting the behavior of PRNETs under various jamming conditions. Jamming can be stationary or nonstationary. For the stationary jamming, the jamming strategy is fixed, but it can be described stochastically. For instance, we may say that a node is jammed with probability 0.5 in each slot. Therefore, although the jamming strategy is fixed, the actual jamming pattern changes from slot to slot. A subclass of the stationary jamming is the static jamming, where the jamming pattern is fixed. For the nonstationary jamming, the jamming strategy changes from time to time. A subclass of the nonstationary jamming is the nonstatic jamming, where a fixed jamming pattern is applied in each block of time, but the jamming pattern changes from block to block. We analyzed the behavior of PRNETs under static jamming attack in our previous report. In this report, we introduce a method of analyzing the PRNET behavior under the nonstatic jamming attack. The analytical results for the static jamming attack scenario were presented in our previous report for both the transmitter-based code and the receiver-based code networks. The numerical results were given only for the receiver-based code case. Simulations were performed to verify the accuracy of the analytical approach. The analytical methods are based on the queueing network analyzer QNA algorithm and the Silvester-and-Lee SL algorithm.

Subject Categories:

  • Radio Countermeasures
  • Radio Communications

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