Mazzoni et al(人名)提出了另一种方法。(2007)并且在这里被命名为延伸荧光检测器(eFLD),其光谱分辨率是03nm。他们估计F在三个主要的吸收波段。这一系列黑线随着甚高型分辨率出现在一个单一的吸收带而来代替频谱(见图2)。类似我们已经描述的cFLD和iFLD。这种方法(eFLD)首要目的是重建表面反射率在所有已知的吸收线呈现的一个单一特征(即波段)。因为这个目的,我们假设局部最大值在这个事件中的辐射谱没用相应的被吸收-并不总是满意-并且适合R这些局部最大值去获得连续的反射基线,根据下面的公式: 在这种方式下。类似的假设对那些iFLD仅仅是基于反射功能,其F的频谱形状并没有确定(规定)。
This article in the analysis comparison spatial databases and ESRI in Corporation's spatial databases engine ArcSDE foundation, proposed that uses ArcSDE to save the magnanimous phantom data the solution, realizes the remote sensing phantom spatial data and the attribute data unification integration This article in Visual under the Stutio environment, based on ArcEngine, the c# language design has developed the remote sensing phantom inquiry demonstration demonstration prototype system, has used for reference based on the content retrieval and the spatial data Yuan data management way, has designed one new remote sensing phantom data bank administration way, namely based on the phantom interpretation content with the Yuan data's remote sensing phantom retrieval, realizes the phantom fast inquiry and the localization In the article introduced emphatically system's database design and the system major function realize the method, as well as the system realizes some key
