600 
Liang, S. and A. H. Strahler, 1993a. Calculation of the angular radiance distribution for a coupled atmosphere 
and canopy. IEEE Trans. Geosci. Remote Sens., 31:491-502. 
Liang, S. and A. H. Strahler, 1993b. An analytic BRDF model of canopy radiative transfer and its inversion 
IEEE Trans. Geosci. Remote Sens., in press. 
Myneni, R. B., 1991. Modeling radiative transfer and photosynthesis in three-dimensional vegetation canopies. 
Agricultural and Forest Meteorology, 55:323-344. 
Myneni, R. B. and G. Asrar, 1991. Photon interaction cross sections for aggregations of finite-dimensional 
leaves. Remote Sensing of Environment, 37:219-224. 
Myneni, R. B. and G. Asrar, 1993. Radiative transfer in three-dimensional atmosphere-vegetation media. J. 
Quant. Spectrosc. Radiat. Transfer, 49:585-598. 
Myneni, R. B. and B. D. Ganapol, 1991. A simplified formulation of photon transport in leaf canopies with 
scatterers of finite dimensions. J. Quant. Spectrosc. Radiat. Transfer, 46:135-140. 
Myneni, R. B., G. Asrar and S. A. W. Gerstl, 1990. Radiative transfer in three dimensional leaf canopies. 
Transport Theory and Statistical Physics, 19:205-250. 
Myneni, R. B., A. L. Marshak and Y. V. Knyazikhin, 1991. Transport theory for a leaf canopy of finite-dimen 
sional scattering centers. J. Quant. Spectrosc. Radiat. Transfer, 46:259-280. 
Myneni, R. B„ G. Asrar and F. G. Hall, 1992a. A three-dimensional radiative transfer method for optical 
remote sensing of vegetated land surfaces. Remote Sensing of Environment, 41:105-121. 
Myneni, R. B„ B. D. Ganapol and G. Asrar, 1992b. Remote sensing of vegetation canopy photosynthetic and 
stomatal conductance efficiencies. Remote Sens. Environ., 42:217-238. 
Myneni, R. B., G. Asrar, D. Tanre, and B. J. Choudhury, 1992c. Remote sensing of solar radiation absorbed 
and reflected by vegetated land surfaces. IEEE Trans. Geosci. Remote Sens., 30:302-314. 
Myneni, R. B., I. Impens and G. Asrar, 1993. Simulation of space measurements of vegetation canopy bidirec 
tional reflectance factors. Remote Sens. Rev., 7:19-41. 
Nicodemus, F. E„ J. C. Richmond, J. J. Hsia, W. I. Ginsberg and T. Limperis, 1977. Geometrical Considera 
tions and Nomenclature for Reflectance. National Bureau of Standards Monograph 160, Institute for Basic 
Standards, Washington, D. C. 
Nilson, T. and A. Kuusk, 1989. A reflectance model for the homogeneous plant canopy and its inversion. 
Remote Sens. Environ., 27:157-167. 
Pinty, B., M. M. Verstraete and R. E. Dickinson, 1990. A physical model of the bidirectional reflectance of 
vegetation canopies. 2. Inversion and validation. J. Geophys. Res., 95:11,767-11,775 
Rahman, H., M. M. Verstraete and B. Pinty, 1993a. Coupled surface-atmosphere reflectance (CSAR) model. 
1. Model description and inversion on synthetic data. J. Geophys. Res., 98:20,779-20,789. 
Rahman, H„ B. Pinty and M. M. Verstraete, 1993b. Coupled surface-atmosphere reflectance (CSAR) model. 
2. Semiempirical surface model usable with NOAA Advanced Very High Resolution Radiometer data. J. 
Geophys. Res., 98:20,791-20,801. 
Ranson, K. J., L. L. Biehl and C. S. T. Daughtry, 1984. Soybean Canopy Reflectance Modeling Data Sets. 
Technical Rept. 071584, Laboratory for the Application of Remote Sensing (LARS), Purdue University. 
West Lafayette, Indiana, USA, 46 pp. 
Roujean, J.-L., M. Leroy and P.-Y. Deschamps, 1992. A bidirectional reflectance model of the earth’s surface 
for the correction of remote sensing data. J. Geophys. Res., D18:20,455-20,468. 
Running, S. R., C. Justice, D. Hall, A. Huete, Y. Kaufman, J. Muller, A. Strahler, V. Vanderbilt, Z. Wan, P 
Teillet and D. Carneggie, 1994. Terrestrial remote sensing science and algorithms planned for EOS/MODIS. 
Int. J. Remote Sens., in press. 
Schaaf, C. B. and A. H. Strahler, 1994. Validation of bidirectional and hemispherical reflectances from a geo 
metric-optical model using ASAS imagery and pyranometer measurements of a spruce forest. Remote Sens. 
Environ., in press. 
Strahler, A. H., X. Li, S. Liang, J.-P. Muller, M. J. Barnsley and P. Lewis, 1994. MODIS BRDF/Albedo Prod 
uct. Algorithm Technical Basis Document. NASA-GSFC Report, in preparation. 
Suits, G. H., 1972. The calculation of the directional reflectance of a vegetation canopy. Remote Sens, of 
Environ., 2:117-125. 
Tanre, D., M. Herman and P.-Y. Deschamps, 1983. Influence of the atmosphere on space measurements of 
directional properties. Appl. Opt., 22:733-741. 
Verstraete, M., B. Pinty and R. E. Dickinson, 1990. A physical model of the bidirectional reflectance of vege 
tation canopies. 1. Theory. J. Geophys. Res., 95-755-765. 
Walthall, C. L„ J. M. Norman, J. M. Welles, G. Campbell and B. L. Blad, 1985. Simple equation to approxi 
mate the bidirectional reflectance from vegetation canopies and bare soil surfaces. Appl. Optics., 24:383-387. 
Zibordi, G. and K. J. Voss, 1989. Geometrical and spectral distribution of sky radiance: Comparison between 
simulations and field measurements. Remote Sens. Environ., 27:343-358. 
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