POV-ray应用于冠层可视光照和阴影组分比例变化分析

王剑庚; 赵峰; 李虎; 余涛; 顾行发; 薛廉; 叶李灶

doi:10.11834/jrs.20100203

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POV-ray应用于冠层可视光照和阴影组分比例变化分析
Sunlit coponents’ fractions and gap fraction of canopies based on POV-ray
2010年14卷第2期页码：232-251
纸质出版日期： 2010 ，
DOI： 10.11834/jrs.20100203

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[1]王剑庚,赵峰,李虎,余涛,顾行发,薛廉,叶李灶.POV-ray应用于冠层可视光照和阴影组分比例变化分析[J].遥感学报,2010,14(02):232-251.

Sunlit coponents’ fractions and gap fraction of canopies based on POV-ray[J]. Journal of Remote Sensing, 2010,14(2):232-251.
[1]王剑庚,赵峰,李虎,余涛,顾行发,薛廉,叶李灶.POV-ray应用于冠层可视光照和阴影组分比例变化分析[J].遥感学报,2010,14(02):232-251. DOI： 10.11834/jrs.20100203.

Sunlit coponents’ fractions and gap fraction of canopies based on POV-ray[J]. Journal of Remote Sensing, 2010,14(2):232-251. DOI： 10.11834/jrs.20100203.

摘要

利用POV-ray快速计算三维冠层的四分量比例及孔隙率

在与计算机模拟模型对比结果、验证其可靠性的基础上

针对植被真实结构模型的主要参数对冠层四分量比例和孔隙率的敏感性进行分析。敏感性分析结果表明:当冠层为垄行结构时

相对于其他因素

行结构对四分量比例和孔隙率的影响占主导

因此当植被冠层为垄行结构时

四分量比例和孔隙率的变化较连续冠层更加复杂;集聚指数可以有效的控制叶片的空间分布模式

进而影响到视场中植被与土壤的相对面积比例

对于四分量比例和孔隙率结果有较大影响;叶倾角分布类型对四分量比例和孔隙率结果的各向异性特征影响明显;同时

通过对垄行作物3个典型生长期的四分量比例和孔隙率结果分析得出

在作物生长初期土壤对结果影响更大

在作物生长后期植被对结果的影响占主导

亮叶分量比例各向异性特征较为明显。研究表明

POV-ray是进行植被定量遥感研究的有利工具

具有较好的应用前景。

Abstract

The fractions of four components （sunlit leaves

shaded leaves

sunlit soil and shaded soil） and gap fraction are characteristic geometric parameters of canopy’s structure

and have great influence on radiative transfer of the vegetation. In this paper

POV-ray software was introduced to efficiently and accurately calculate the four components’ fractions and gap fraction of three-dimensional （3D） canopies. With the good agreements of computed four components’ fractions and gap fraction be- tween POV-ray and Radiosity-Graphics combined Model （RGM） based on the same 3D canopy structure

more 3D structures generated by the Clumped Architecture Model of Plants （CLAMP） model were used to study the characteristics of four compo- nents’ fractions and gap fraction. The key parameters of CLAMP model include sowing scheme

clumping index

average leaf angle （ALA） and leaf area index （LAI）. By analyzing the sensitivity of these parameters to four components’ fractions and gap fraction

the changing features of four components’ fractions and gap fraction were found. The results show that: clumping index can effectively control the spatial distribution of leaves

which affects the relative proportion of vegetation and soil in the scene. Therefore

clumping index has a great impact on the distribution pattern of four components’ fractions and gap fraction. Average leaf angle influences the anisotropy of the results. When the average leaf angle is larger

the magnitude of anisotropy is higher. Compared with other parameters

the impact of row effect on the four components’ fractions and gap fraction is primary when the scene’s row structure is obvious. Therefore

when the canopy is in a row structure

the characteristic change of four components’ fractions and gap fraction is more complex than that of homogeneous canopy. At the same time

the results of row canopy in three typical growing stages were compared

which shows that soil has a higher contribution to the four components’ fractions and gap fraction than that of vegetation at the early stage. With the increase of leaf area index

the influence of vegetation on the result is gradually enhanced and the fraction of sunlit leaves shows more apparent anisotropy. The research of this paper shows that POV-ray is a powerful tool to quantitatively study vegetation by remote sensing technology

and has potential of wider applications.