运用了数字滤波和滑动窗口算法保证了充电器的正常工作。
Employing digital filter and sliding window algorithm guarantees the normal work to charger.
由于入口算法简单高效,可以很容易实现室内场景的隐藏面消除。
It could be applied to the hidden surface removal in the indoor scene easily because of its simple but effective algorithm.
最后给出了固定窗口算法的复杂性分析,并讨论了窗口宽度的最佳选取。
The complexity analysis of the fixed window algorithm and the optimal length of window are also discussed.
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