In order to implement the multi-channel filtering of the photonic crystal, the numerical calculation and theoretical analysis for the one-dimensional photonic crystal were performed.
为了实现光子晶体的多通道滤波,对设计出的一维掺杂光子晶体进行了数值计算和理论分析。
Under proper operating parameters, quite perfect multi channel filtering properties, corresponding to a perfect factor of 10 -4, can be obtained with the complex period photonic crystals.
在适当的参数条件下,可以获得非常理想的多通道滤波特性,对应的理想因子值在10- 4以下。
In principle, this allows us to apply any standard texture recognition algorithm for the task (e. g., the multi-channel Gabor filtering technique).
原则上,我们可以采用任意一种标准的纹理识别算法(例如:多通道伽柏滤波器方法)。
Conclusion in order to realize real time processing in multi channel synchronous ECG machine, powerful hardware resource, considerable software design and fast filtering method were all necessary.
结论为了在多导同步数字心电图机中实现高速实时处理,必须采用合理的硬件资源与软件构架,并采取快速滤波算法。
A partitioned optimal filtering algorithm for multi-channel systems with multiplicative noise among observation channels is proposed.
针对多通道观测环境下带乘性噪声系统的最优滤波问题,提出了1种状态最优滤波的分部算法。
These narrowband multi-channel filters and narrow bandpass filter arrays show good filtering features and can be utilized in many optical applications.
两种类型的滤光片都展示了良好的光学特性,在光学器件、光通讯等领域都有良好的应用前景。
These narrowband multi-channel filters and narrow bandpass filter arrays show good filtering features and can be utilized in many optical applications.
两种类型的滤光片都展示了良好的光学特性,在光学器件、光通讯等领域都有良好的应用前景。
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