If the same processing is required for each array element, with no dependencies in the computations, and no communication required between tasks, we have an ideal parallel computing opportunity.
如果每个数组的元素都需要被处理,而且数组间没有依赖关系,执行的计算任务之间也不需要通信,这样的话将是一个执行并行式计算的理想环境。
With the number increasement of array antenna element, traditional electronics technology cannot meet the requirement of real-time processing.
随着相控阵雷达天线阵元数目的增大,传统的电子学技术将很难满足实时信号处理的要求。
Element position error, mutual coupling between elements, and the difference in frequency responses of receiver channels influence directly the performance of array radar signal processing.
阵元位置误差、阵元间互耦的影响、接收机通道的频率响应的差异都直接影响着雷达阵列信号处理的性能。
Effects of element failure in different cases are discussed on array pattern, clutter characteristic and space-time adaptive processing (STAP) performance in allusion to a rectangle array.
本文针对矩形面阵的情况,讨论了面阵上不同阵元失效情况对阵列方向图、杂波特性及STAP性能的影响。
Effects of element failure in different cases are discussed on array pattern, clutter characteristic and space-time adaptive processing (STAP) performance in allusion to a rectangle array.
本文针对矩形面阵的情况,讨论了面阵上不同阵元失效情况对阵列方向图、杂波特性及STAP性能的影响。
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