[1] |
Cai BF (蔡博峰), Shao X (绍霞) (2007). Leaf area index petrieval based on remotely sensed data and PROSPECT+SAIL model. Remote Sensing for Land & Resources (国土资源遥感), (2),39-43. (in Chinese with English abstract)
|
[2] |
Charles I, Arnon K (1996). A review of mixture modeling techniques for sub-pixel land cover estimation. Remote Sensing Reviews, 13,161-186.
|
[3] |
Che DW (车大为), Chen SB (陈圣波), Lü LT (吕乐婷), Jin SY (金晟业), Yang PY (杨培玉) (2008). The research and advance of bi-directional reflectance model in multi-angle remote sensing. Journal of Jilin University (Earth Science Edition) (吉林大学学报(地球科学版)), 38,229-231. (in Chinese with English abstract)
|
[4] |
Chen JM, Leblanc SG (1997). A four-scale bidirectional reflectance model based on canopy architecture. IEEE Transactions on Geoscience and Remote Sensing, 35,1316-1337.
|
[5] |
Deng F, Chen JM, Plummer S, Chen MZ, Pisek J (2006). Algorithm for global leaf area index retrieval using satellite imagery. IEEE Transactions on Geoscience and Remote Sensing, 44,2219-2229.
|
[6] |
Huemmrich KF (2001). The GeoSAIL model: a simple addition to the SAIL model to describe discontinuous canopy reflectance. Remote Sensing of Environment, 75,423-431.
|
[7] |
Idso SB, de Wit CT (1970). Light relations in plant canopies. Applied Optics, 9,177-184.
DOI
URL
PMID
|
[8] |
Jasinski MF, Eagleson PS (1990). Estimation of subpixel vegetation cover using red-infrared scattergrams. IEEE Transactions on Geoscience and Remote Sensing, 28,253-267.
|
[9] |
Li X, Strahler AH (1992). Geometric-optical bidirectional reflectance modeling of the discrete crown vegetation canopy: effect of crown shape and mutual shadowing. IEEE Transactions on Geoscience and Remote Sensing, 30,276-291.
|
[10] |
Liu J (刘佳), Fan WY (范文义) (2008). Review on BRDF model and the inversion strategy. Remote Sensing Technology and Application(遥感技术与应用), 23,104-110. (in Chinese with English abstract)
|
[11] |
Myneni RB, Ross J, Asrar G (1989). A review on the theory of photon transport in leaf canopies. Agriculture and Forest Meteorology, 45,1-153.
|
[12] |
Nilson T, Kuusk A (1989). A reflectance model for the homogeneous plant canopy and its inversion. Remote Sensing of Environment, 27,157-167.
|
[13] |
Niu Z (牛铮), Wang CY (王长耀) (2008). Remote Sensing Foundation and Application of Carbon Cycling (碳循环遥感基础与应用). Science Press, Beijing. 69. (in Chinese)
|
[14] |
Ross J (1981). The Radiation Regime and Architecture of Plant Stands. Kluwer Academic Publishers, Hague, The Netherlands. 391.
|
[15] |
Verhoef W (1984). Light scattering by leaf layers with application to canopy reflectance modeling: the SAIL model. Remote Sensing of Environment, 16,125-141.
|
[16] |
Wang Q (王强), Guo ZF (过志峰), Sun GQ (孙国清), Luo CW (罗传文), Liu DD (刘丹丹) (2010). Construction of MGeoSALL: a hybrid BRDF model for discontinuous vegetation canopies. Acta Geodaetica et Cartographica Sinica (测绘学报), 39,195-201. (in Chinese with English abstract)
|
[17] |
Xue Y (薛云), Chen SM (陈水森), Xia LH (夏丽华), Chen YB (陈颖彪) (2005). A brief introduction to several typical leaf/canopy models. Journal of West China Forestry Science (西部林业科学), 34,70-73. (in Chinese with English abstract)
|
[18] |
Yang XG (杨曦光), Fan WY (范文义), Yu Y (于颖) (2010). Estimation of forest canopy chlorophyll content based on PROSPECT and SAIL models. Spectroscopy and Spectral Analysis (光谱学与光谱分析), 30,3022-3026. (in Chinese with English abstract)
|