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首页> 外文会议>Institute of Electrical and Electronics Engineers International Conference on Electronics and Nanotechnology >Possibility of the pipelining technique application in a space/spatial-frequency filter implementation based on the local frequency estimation
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Possibility of the pipelining technique application in a space/spatial-frequency filter implementation based on the local frequency estimation

机译:基于局部频率估计的流水线技术在空间/空间频率滤波器实现中的应用可能性

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摘要

Possibility of the pipelining technique application in a local frequency estimation-based system for nonstationary two-dimensional (2D) FM signals estimation, initially observed in [1], [2], but completely developed, implemented (in FPGA), and adapted (extended to the highly nonstationary signals case) in [3], is considered here. The applied technique allows the implemented filter to overlape in execution unconditional steps performing in neighboring space/spatial-frequency (S/SF) instants and, therefore, to significantly improve execution time. In this way, the improvement in execution time coresponding to the one clock cycle (CLK) by an S/SF point is achieved, which means that the improvement by an S/SF point can reach 50% in a great part of S/SF space. The achieved improvement in execution time by an SSF point is presented on the example of the multicomponent nonstationary noisy signal filering.
机译:可能在基于局部频率估计的系统中进行流水线技术应用,以进行非平稳的二维(2D)FM信号估计,最初在[1],[2]中观察到,但已完全开发,实施(在FPGA中)并进行了修改(在[3]中扩展到高度非平稳信号的情况),这里考虑。所应用的技术允许所实现的滤波器在执行在相邻空间/空间频率(S / SF)瞬间执行的无条件步骤中重叠,因此可以显着缩短执行时间。以此方式,实现了与一个时钟周期(CLK)相对应的S / SF点执行时间的改进,这意味着在S / SF的大部分时间内,S / SF点的改进可以达到50%。空间。在多分量非平稳噪声信号过滤的示例中介绍了通过SSF点实现的执行时间改进。

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