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  1. U.S. Geological Survey, Landsat Data Users Handbook (U.S. Geological Survey, Washington, D.C., 1979).
  2. U.S. Geological Survey, Landsat 4 Data Users Handbook (U.S. Geological Survey and National Oceans and Atmospheric Association, Washington, D.C., 1984).
  3. NASA, Interface Control Document between the NASA Goddard Space Flight Center (GSFC) and the Department of Interior, EROS Data Center (EDC) for Landsat-D Thematic Mapper Computer Compatible Tape (CCT-AT, CCT-PT), Revision A, NASA Document LAD-1CD-105 (1983).
  4. K. B. Kidwell, NOAA Polar Orbiter Data (TIROS-N and NOAA-6) Users Guide (NOAA, Environmental and Data Information Service, U.S. Department of Commerce, Washington, D.C., 1981).
  5. ITT Aerospace Optical Division, Advanced Very High Resolution Radiometer (Mod 2) for the TIROS-N Spacecraft: Alignment and Calibration Data Book AVHRR/2 Protoflight Model, contract NAS5-23400 (1979).
  6. F. J. Ahearn, J. Murphy, Radiometric Calibration and Correction of Landsat 1,2 and 3 MSS Data, Research Report 78–4, Canada Centre for Remote Sensing (1978).
  7. V. L. Thomas, Generation and Physical Characteristics of the Landsat 1 and 2 MSS Computer Compatible Tapes, NASA/GSFC Report, X-563-75-223 (1975).
  8. M. J. Duggin, “Intercalibration of Landsat 1-3 and NOAA 6 and 7 Scanner Data,” Appl. Opt. 20, 3815 (1981).
    [CrossRef] [PubMed]
  9. M. J. Duggin, “Effect of Instrument Spectral Response on use of the Landsat MSS for Vegetative Disease Assessment,” Appl. Opt. 19, 2081 (1980).
    [CrossRef] [PubMed]
  10. M. J. Duggin, “Factors Limiting the Discrimination and Quantification of Terrestrial Features using Remotely Sensed Radiance,” Int. J. Remote Sensing 6, 3 (1985).
    [CrossRef]
  11. P. N. Slater, “A Re-examination of the Landsat MSS,” Photogramm. Eng. Remote Sensing 45, 1479 (1979).
  12. J. C. Kollenkark, V. C. Vanderbilt, C. S. T. Daughtry, M. E. Bauer, “Influence of Solar Illumination Angle on Soybean Canopy Reflectance,” Appl. Opt. 21, 1179 (1982).
    [CrossRef] [PubMed]
  13. J. Smith, Manual of Remote Sensing (American Society for Photogrammetry, Falls Church, Va., 1983).
  14. M. R. B. Forshaw, A. Haskell, P. F. Miller, D. J. Stanley, J. R. G. Townshend, “Spatial Resolution of Remotely Sensed Imagery: A Review Paper,” Int. J. Remote Sensing 4, 497, (1983).
    [CrossRef]
  15. M. J. Duggin, L. B. Schoch, “The Effect of Point-Spread Function Interaction with Radiance from Heterogeneous Scenes on Multitemporal Signature Analysis,” in Landsat-4 Science Investigations Summary, Vol. 2, NASA Conf. Publ. 2326, pp. 64–68.

1985

M. J. Duggin, “Factors Limiting the Discrimination and Quantification of Terrestrial Features using Remotely Sensed Radiance,” Int. J. Remote Sensing 6, 3 (1985).
[CrossRef]

1983

M. R. B. Forshaw, A. Haskell, P. F. Miller, D. J. Stanley, J. R. G. Townshend, “Spatial Resolution of Remotely Sensed Imagery: A Review Paper,” Int. J. Remote Sensing 4, 497, (1983).
[CrossRef]

1982

1981

1980

1979

P. N. Slater, “A Re-examination of the Landsat MSS,” Photogramm. Eng. Remote Sensing 45, 1479 (1979).

Ahearn, F. J.

F. J. Ahearn, J. Murphy, Radiometric Calibration and Correction of Landsat 1,2 and 3 MSS Data, Research Report 78–4, Canada Centre for Remote Sensing (1978).

Bauer, M. E.

Daughtry, C. S. T.

Duggin, M. J.

M. J. Duggin, “Factors Limiting the Discrimination and Quantification of Terrestrial Features using Remotely Sensed Radiance,” Int. J. Remote Sensing 6, 3 (1985).
[CrossRef]

M. J. Duggin, “Intercalibration of Landsat 1-3 and NOAA 6 and 7 Scanner Data,” Appl. Opt. 20, 3815 (1981).
[CrossRef] [PubMed]

M. J. Duggin, “Effect of Instrument Spectral Response on use of the Landsat MSS for Vegetative Disease Assessment,” Appl. Opt. 19, 2081 (1980).
[CrossRef] [PubMed]

M. J. Duggin, L. B. Schoch, “The Effect of Point-Spread Function Interaction with Radiance from Heterogeneous Scenes on Multitemporal Signature Analysis,” in Landsat-4 Science Investigations Summary, Vol. 2, NASA Conf. Publ. 2326, pp. 64–68.

Forshaw, M. R. B.

M. R. B. Forshaw, A. Haskell, P. F. Miller, D. J. Stanley, J. R. G. Townshend, “Spatial Resolution of Remotely Sensed Imagery: A Review Paper,” Int. J. Remote Sensing 4, 497, (1983).
[CrossRef]

Haskell, A.

M. R. B. Forshaw, A. Haskell, P. F. Miller, D. J. Stanley, J. R. G. Townshend, “Spatial Resolution of Remotely Sensed Imagery: A Review Paper,” Int. J. Remote Sensing 4, 497, (1983).
[CrossRef]

Kidwell, K. B.

K. B. Kidwell, NOAA Polar Orbiter Data (TIROS-N and NOAA-6) Users Guide (NOAA, Environmental and Data Information Service, U.S. Department of Commerce, Washington, D.C., 1981).

Kollenkark, J. C.

Miller, P. F.

M. R. B. Forshaw, A. Haskell, P. F. Miller, D. J. Stanley, J. R. G. Townshend, “Spatial Resolution of Remotely Sensed Imagery: A Review Paper,” Int. J. Remote Sensing 4, 497, (1983).
[CrossRef]

Murphy, J.

F. J. Ahearn, J. Murphy, Radiometric Calibration and Correction of Landsat 1,2 and 3 MSS Data, Research Report 78–4, Canada Centre for Remote Sensing (1978).

Schoch, L. B.

M. J. Duggin, L. B. Schoch, “The Effect of Point-Spread Function Interaction with Radiance from Heterogeneous Scenes on Multitemporal Signature Analysis,” in Landsat-4 Science Investigations Summary, Vol. 2, NASA Conf. Publ. 2326, pp. 64–68.

Slater, P. N.

P. N. Slater, “A Re-examination of the Landsat MSS,” Photogramm. Eng. Remote Sensing 45, 1479 (1979).

Smith, J.

J. Smith, Manual of Remote Sensing (American Society for Photogrammetry, Falls Church, Va., 1983).

Stanley, D. J.

M. R. B. Forshaw, A. Haskell, P. F. Miller, D. J. Stanley, J. R. G. Townshend, “Spatial Resolution of Remotely Sensed Imagery: A Review Paper,” Int. J. Remote Sensing 4, 497, (1983).
[CrossRef]

Thomas, V. L.

V. L. Thomas, Generation and Physical Characteristics of the Landsat 1 and 2 MSS Computer Compatible Tapes, NASA/GSFC Report, X-563-75-223 (1975).

Townshend, J. R. G.

M. R. B. Forshaw, A. Haskell, P. F. Miller, D. J. Stanley, J. R. G. Townshend, “Spatial Resolution of Remotely Sensed Imagery: A Review Paper,” Int. J. Remote Sensing 4, 497, (1983).
[CrossRef]

Vanderbilt, V. C.

Appl. Opt.

Int. J. Remote Sensing

M. R. B. Forshaw, A. Haskell, P. F. Miller, D. J. Stanley, J. R. G. Townshend, “Spatial Resolution of Remotely Sensed Imagery: A Review Paper,” Int. J. Remote Sensing 4, 497, (1983).
[CrossRef]

M. J. Duggin, “Factors Limiting the Discrimination and Quantification of Terrestrial Features using Remotely Sensed Radiance,” Int. J. Remote Sensing 6, 3 (1985).
[CrossRef]

Photogramm. Eng. Remote Sensing

P. N. Slater, “A Re-examination of the Landsat MSS,” Photogramm. Eng. Remote Sensing 45, 1479 (1979).

Other

U.S. Geological Survey, Landsat Data Users Handbook (U.S. Geological Survey, Washington, D.C., 1979).

U.S. Geological Survey, Landsat 4 Data Users Handbook (U.S. Geological Survey and National Oceans and Atmospheric Association, Washington, D.C., 1984).

NASA, Interface Control Document between the NASA Goddard Space Flight Center (GSFC) and the Department of Interior, EROS Data Center (EDC) for Landsat-D Thematic Mapper Computer Compatible Tape (CCT-AT, CCT-PT), Revision A, NASA Document LAD-1CD-105 (1983).

K. B. Kidwell, NOAA Polar Orbiter Data (TIROS-N and NOAA-6) Users Guide (NOAA, Environmental and Data Information Service, U.S. Department of Commerce, Washington, D.C., 1981).

ITT Aerospace Optical Division, Advanced Very High Resolution Radiometer (Mod 2) for the TIROS-N Spacecraft: Alignment and Calibration Data Book AVHRR/2 Protoflight Model, contract NAS5-23400 (1979).

F. J. Ahearn, J. Murphy, Radiometric Calibration and Correction of Landsat 1,2 and 3 MSS Data, Research Report 78–4, Canada Centre for Remote Sensing (1978).

V. L. Thomas, Generation and Physical Characteristics of the Landsat 1 and 2 MSS Computer Compatible Tapes, NASA/GSFC Report, X-563-75-223 (1975).

M. J. Duggin, L. B. Schoch, “The Effect of Point-Spread Function Interaction with Radiance from Heterogeneous Scenes on Multitemporal Signature Analysis,” in Landsat-4 Science Investigations Summary, Vol. 2, NASA Conf. Publ. 2326, pp. 64–68.

J. Smith, Manual of Remote Sensing (American Society for Photogrammetry, Falls Church, Va., 1983).

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Figures (2)

Fig. 1
Fig. 1

Spectral responses of two different remote sensing devices, one of which has two adjacent channels similar in combined wavelength coverage to a single channel on the other device, shown with the spectral upwelling scene radiance.

Fig. 2
Fig. 2

Interaction of the point spread function of a sensor with a heterogeneous scene composed of elements whose optical properties (and, therefore, scene radiance values) differ.

Equations (4)

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V 1 = 1 b A [ λ A 0 λ A 0 I A ( λ ) · L ( λ ) · d λ λ A 0 λ A 0 I A ( λ ) · d λ a A ] + 1 b B [ λ B 0 λ B 0 I B ( λ ) · L ( λ ) · d λ λ B 0 λ B 0 I B ( λ ) · d λ a B ] .
V 2 = 1 b C [ λ C 0 λ C 0 I C ( λ ) · L ( λ ) · d λ λ C 0 λ C 0 I C ( λ ) · d λ a C ] .
L r ( θ , ϕ ) = λ A 0 λ A 0 I ( λ ) [ 0 π π / 2 π / 2 { E ( θ , ϕ , λ ) 0 X 0 Y [ g 1 ( x , y ) R 1 ( θ , ϕ ; θ , ϕ , λ ) P 1 ( x , y ) + g 2 ( x , y ) R 2 ( θ , ϕ ; θ , ϕ , λ ) P 2 ( x , y ) + + g n ( x , y ) R n ( θ , ϕ ; θ , ϕ , λ ) P n ( x , y ) ] τ ( θ , ϕ , λ ) d y d x } d θ d ϕ + L p ( θ 1 , ϕ 1 , θ 1 , ϕ 1 , λ ) ] d λ λ A 0 λ A 0 I ( λ ) · d λ ,
L r ( θ , ϕ ) = λ A 0 λ A 0 I ( λ ) [ 0 π π / 2 π / 2 { E ( θ , ϕ , λ ) 0 x 0 y [ g 1 ( x , y ) R 1 ( θ , ϕ ; θ , ϕ , λ ) P 1 ( x , y ) + g 2 ( x , y ) R 2 ( θ , ϕ ; θ , ϕ , λ ) P 2 ( x , y ) ] + + g n ( x , y ) R n ( θ , ϕ ; θ , ϕ , λ ) P n ( x , y ) + L r ( θ , ϕ ) = + g c ( x , y ) R c ( λ ) P c ( x , y ) ] τ ( θ , ϕ , λ ) d y d x } d θ d ϕ + L p ( θ 1 , ϕ 1 , θ 1 , ϕ 1 , λ ) ] d λ λ 1 λ 2 I ( λ ) · d x ,

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