1) Observation probability
观测几率
2) POD (probablity of detection)
探测几率
3) non detection probability
非探测几率
4) observation efficiency
观测效率
1.
Fiber Positioning System of LAMOST focal plane is based on subarea thinking and adopts a parallel controllable positioning program, so the observation efficiency of the system becomes an important problem.
LAMOST焦面光纤定位系统基于分区思想,采用并行可控式光纤定位方案,这就使得系统的观测效率成为一个重要的问题。
2.
It ensures that there is no mechanical collision during observations and higher observation efficiency.
软件仿真表明 ,该方案满足子系统需要 ,可获得较高的观测效率 ,对以后整个并行光纤观测系统 ( 4 0 0 0个单元 )具有一定的参考价
5) sensing frequency
观测频率
1.
Based on one kind of applications,we exploit the temporal correlation among sensed data to illust rate the relationships between information accuracy and sensing frequency as wel l as energy consumption and sensing frequency.
针对一类具体的应用,利用测量数据间的时域相关性分析了信息精确度与观测频率以及能耗与观测频率的关系,构建了信息精确度与能耗的关系模型。
6) observation density
观测概率
1.
It has great impact on the recognition performance how well HMM observation density can describe the actual distribution.
HMM的观测概率能否很好描述模型的实际分布对识别性能有很大的影响。
补充资料:大坝内部变形观测(见水工建筑物变形观测)
大坝内部变形观测(见水工建筑物变形观测)
daba neibubianxing guanCe大坝内部变形观测见水工建筑物变形观测。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条