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  1. F. C. Polcyn, W. L. Brown, I. J. Sattinger, “The Measurement of Water Depth by Remote Sensing Techniques,” Report 8973-26-F, Willow Run Laboratories, U. Michigan, Ann Arbor (1970).
  2. N. G. Jerlov, Optical Oceanography (Elsevier, Amsterdam, 1976).
  3. D. R. Lyzenga, Appl. Opt. 17, 379 (1978).
    [CrossRef] [PubMed]
  4. D. R. Lyzenga, J. Livisay, Documentation of Computer Software for Multispectral Bathymetry Analysis, Report 148900-1-F, Environmental Research Institute of Michigan, Applications Division, Ann Arbor, Apr.1980.
  5. D. R. Lyzenga, J. S. Ott, J. P. Livisay, F. C. Polcyn, Remote Bathymetry With a Multispectral Active/Passive Airborne System, Report 149600-1-F, Environmental Research Institute of Michigan, Applications Division, Ann Arbor, Feb.1982.

1978

Brown, W. L.

F. C. Polcyn, W. L. Brown, I. J. Sattinger, “The Measurement of Water Depth by Remote Sensing Techniques,” Report 8973-26-F, Willow Run Laboratories, U. Michigan, Ann Arbor (1970).

Jerlov, N. G.

N. G. Jerlov, Optical Oceanography (Elsevier, Amsterdam, 1976).

Livisay, J.

D. R. Lyzenga, J. Livisay, Documentation of Computer Software for Multispectral Bathymetry Analysis, Report 148900-1-F, Environmental Research Institute of Michigan, Applications Division, Ann Arbor, Apr.1980.

Livisay, J. P.

D. R. Lyzenga, J. S. Ott, J. P. Livisay, F. C. Polcyn, Remote Bathymetry With a Multispectral Active/Passive Airborne System, Report 149600-1-F, Environmental Research Institute of Michigan, Applications Division, Ann Arbor, Feb.1982.

Lyzenga, D. R.

D. R. Lyzenga, Appl. Opt. 17, 379 (1978).
[CrossRef] [PubMed]

D. R. Lyzenga, J. S. Ott, J. P. Livisay, F. C. Polcyn, Remote Bathymetry With a Multispectral Active/Passive Airborne System, Report 149600-1-F, Environmental Research Institute of Michigan, Applications Division, Ann Arbor, Feb.1982.

D. R. Lyzenga, J. Livisay, Documentation of Computer Software for Multispectral Bathymetry Analysis, Report 148900-1-F, Environmental Research Institute of Michigan, Applications Division, Ann Arbor, Apr.1980.

Ott, J. S.

D. R. Lyzenga, J. S. Ott, J. P. Livisay, F. C. Polcyn, Remote Bathymetry With a Multispectral Active/Passive Airborne System, Report 149600-1-F, Environmental Research Institute of Michigan, Applications Division, Ann Arbor, Feb.1982.

Polcyn, F. C.

D. R. Lyzenga, J. S. Ott, J. P. Livisay, F. C. Polcyn, Remote Bathymetry With a Multispectral Active/Passive Airborne System, Report 149600-1-F, Environmental Research Institute of Michigan, Applications Division, Ann Arbor, Feb.1982.

F. C. Polcyn, W. L. Brown, I. J. Sattinger, “The Measurement of Water Depth by Remote Sensing Techniques,” Report 8973-26-F, Willow Run Laboratories, U. Michigan, Ann Arbor (1970).

Sattinger, I. J.

F. C. Polcyn, W. L. Brown, I. J. Sattinger, “The Measurement of Water Depth by Remote Sensing Techniques,” Report 8973-26-F, Willow Run Laboratories, U. Michigan, Ann Arbor (1970).

Appl. Opt.

Other

F. C. Polcyn, W. L. Brown, I. J. Sattinger, “The Measurement of Water Depth by Remote Sensing Techniques,” Report 8973-26-F, Willow Run Laboratories, U. Michigan, Ann Arbor (1970).

N. G. Jerlov, Optical Oceanography (Elsevier, Amsterdam, 1976).

D. R. Lyzenga, J. Livisay, Documentation of Computer Software for Multispectral Bathymetry Analysis, Report 148900-1-F, Environmental Research Institute of Michigan, Applications Division, Ann Arbor, Apr.1980.

D. R. Lyzenga, J. S. Ott, J. P. Livisay, F. C. Polcyn, Remote Bathymetry With a Multispectral Active/Passive Airborne System, Report 149600-1-F, Environmental Research Institute of Michigan, Applications Division, Ann Arbor, Feb.1982.

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Equations (17)

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L i = L s i + k i r B exp ( κ i f Z ) ,
r A 1 / r A 2 = r B 1 / r B 2 = ,
r A 1 ( r A 2 ) 1 = r B 1 ( r B 2 ) 1 = .
( r A 1 ) c 1 ( r A 2 ) c 2 = ( r B 1 ) c 1 ( r B 2 ) c 2 = = α ,
Z = ( 1 / f κ i ) ( ln r B i X i ) .
Z = w 1 ( 1 / f κ 1 ) ( ln r B 1 X 1 ) + w 2 ( 1 / f κ 2 ) ( ln r B 2 X 2 ) ,
w 1 = c 1 κ 1 / ( c 1 κ 1 + c 2 κ 2 ) , w 2 = c 2 κ 2 / ( c 1 κ 1 + c 2 κ 2 ) .
Z = ( w 1 / f κ 1 ) ln r B 1 + ( w 2 / f κ 2 ) ln r B 1 [ ( w 1 / f κ 1 ) X 1 + ( w 2 / f κ 2 ) X 2 ] .
Z = [ 1 / f ( c 1 κ 1 + c 2 κ 2 ) ] [ c 1 ln r B 1 + c 2 ln r B 2 ( c 1 X 1 + c 2 X 2 ) ] .
c 1 ln r B 1 + c 2 ln r B 2 = 1.
Z = [ 1 / f ( c 1 κ 1 + c 2 κ 2 ) ] ( 1 c 1 X 1 c 2 X 2 ) ,
( r A 1 ) c 1 ( r A 2 ) c 2 ( r A n ) c n = ( r B 1 ) c 1 ( r B 2 ) c 2 ( r B n ) c n = = α .
c 1 ln r A 1 + c 2 ln r A 2 + + c n ln r A n = ln α c 1 ln r B 1 + c 2 ln r B 2 + + c n ln r B n = ln α
w i = c i κ i / j = 1 n c j κ j .
Z = ( 1 / f j = 1 n c j κ j ) ( 1 c 1 X 1 c 2 X 2 c n X n ) .
B 0 = 1 / f j = 1 n c j κ j , B i = c i / f j = 1 n c j κ j ( i 1 ) ,
Z = B 0 + B 1 X 1 + + B n X n ,

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