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由威胁警戒接收机预计会遇到的脉冲高密度环境所要求的最大处理速率,可以用以下两种方法来解决.第一种方法采用丢弃来自已知发射源的接收脉冲来“稀释”脉冲数据流.第二种方法采用预测由某个发射源到达的下一个脉冲的参数的方法,在预处理机中跟踪该发射源.两种方法都采用对脉冲描述符字的各参数进行多维比较的办法.并且都已在硬件预处理机中加以实现.然而,因为电子战的战况是不断变化的,所以希望有一个程控的预处理机.本文研究采用 MIL—STD—1750A 标准指令系统结构构成一个跟踪型预处理机的可行性,当采用超大规模集成电路技术时探索了它预计可达到的性能.
The maximum processing rate required for a pulsed high-density environment that is expected to be encountered by a threat guard receiver can be solved in two ways: The first method uses a received pulse from a known source to “dilute” the impulse data The second method uses the method of predicting the parameters of the next pulse arriving by a certain transmitting source in a preprocessor to track the transmission source Both methods use a multidimensional comparison of the parameters of the pulse descriptor word Method, and have been implemented in the hardware preprocessor.However, because the warfare of electronic warfare is constantly changing, so I hope there is a programmable preprocessor.In this paper, the use of MIL-STD-1750A standard instruction structure to form a The feasibility of a track-based preprocessor explores what it expects to achieve when using very large scale integrated circuit technology.