Sensor: LandsatMSS (Landsat1-3)

LandsatMSS (Landsat1-3)

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Basic information

Name LandsatMSS (Landsat1-3)
Full Name Landsat Multispectral Scanner
Bands 4
Spectrum [nm] 500-1100
Spat.Res. [m] 80-80
Inclination 0
Orbit Height 917
Orbit Type polar, sun-synchronous
Platform Landsat
Operator NASA
Date of Launch 1972-07-23
status expired, March 31, 1983
Comment
Usable for Indices yes
Description

Bands/Channels

Bands
zoom Bands

Nr. Name Start WL Middle WL End WL Sp.Rg. Spat. Res. Comment
1 500 550 600 100 80
2 600 650 700 100 80
3 700 750 800 100 80
4 800 950 1100 300 80

Indices

Nr. Name Specific Formula Calculated Comment
1 Adjusted transformed soil-adjusted VI 1.22 4 - 1.22 2 - 0.03 1.22 4 + 2 - 1.22 · 0.03 + 0.08 ( 1 + 1.222 ) Automatic
2 Anthocyanin reflectance index 1 1 - 1 2 Automatic
3 Ashburn Vegetation Index 2.0 4 - 2 Automatic
4 Atmospherically Resistant Vegetation Index 2 -0.18 + 1.17 ( 4 - 2 4 + 2 ) Automatic
5 Average reflectance 750 to 850 Averagereflectancebetween3and4 Automatic
6 Browning Reflectance Index 1 1 - 1 2 4 Automatic
7 Canopy Chlorophyll Content Index 4 - 3 4 + 3 4 - Red 4 + Red Automatic
8 Chlorophyll Absorption Ratio Index ( 3 2 ) ( 3 - 1 150 · 670 + 2 + ( 1 - ( 3 - 1 150 · 550 ) ) ) 2 ( 3 - 1 1502 + 1 ) 0.5 Automatic
9 Chlorophyll Absorption Ratio Index 2 ( | ( 3 - 1 150 · 2 + 2 + 1 - ( a · 1 ) ) | ( a2 + 1 ) 0.5 ) ( 3 2 ) Automatic
10 Chlorophyll Green ( 3 1 ) ( -1 ) Automatic
11 Chlorophyll Index Green 4 1 - 1 Automatic
12 Chlorophyll IndexRedEdge 4 3 - 1 Automatic
13 Chlorophyll vegetation index 4 2 12 Automatic
14 Corrected Transformed Vegetation Index ( 2 - 1 2 + 1 ) + 0 ,5 | ( 2 - 1 2 + 1 ) + 0 ,5| · | ( ( 2 - 1 2 + 1 ) ) + 0 ,5| Automatic
15 CRI700 1 ( -1 ) - 2 ( -1 ) Automatic
16 Datt1 4 - 3 4 - 2 Automatic
17 Datt4 2 1 · 3 Automatic
18 Datt6 4 1 · 3 Automatic
19 Difference 678/500 2 - 1 Automatic
20 Difference 800/550 3 - 1 Automatic
21 Difference 800/680 3 - 2 Automatic
22 Difference 833/658 4 - 2 Automatic
23 Difference NIR/Green 4 - 1 Automatic
24 Differenced Vegetation Index MSS 2.4 4 - 2 Automatic
25 DmSR DR ( 3 ) - DR ( 1 ) DR ( 3 ) + DR ( 1 ) Automatic
26 Enhanced Vegetation Index 2 2.4 4 - 2 4 + 2 + 1 Automatic
27 Enhanced Vegetation Index 2 2.5 4 - 2 4 + 2.4 2 + 1 Automatic
28 EPI a 2 ( 1 · 3 ) b Automatic
29 Ferric iron, Fe3+ 2 1 Automatic
30 Global Environment Monitoring Index ( 2 ( 42 - 22 ) + 1.5 4 + 0.5 2 4 + 2 + 0.5 ( 1 - 0.25 2 ( 42 - 22 ) + 1.5 4 + 0.5 2 4 + 2 + 0.5 ) - 2 - 0.125 1 - 2 ) Automatic
31 Green Normalized Difference Vegetation Index 4 - 1 4 + 1 Automatic
32 Green Optimized Soil Adjusted Vegetation Index 4 - 1 4 + 1 + Y Automatic
33 Green Soil Adjusted Vegetation Index 4 - 1 4 + 1 + L ( 1 + L ) Automatic
34 Green-Red NDVI 4 - ( 1 + 2 ) 4 + ( 1 + 2 ) Automatic
35 Ideal vegetation index 4 - b a · 2 Automatic
36 Infrared percentage vegetation index 4 4 + 2 2 ( ( 2 - 1 2 + 1 ) + 1 ) Automatic
37 Inverse reflectance 550 1 ( -1 ) Automatic
38 Inverse reflectance 700 2 ( -1 ) Automatic
39 Leaf Chlorophyll Index 4 - 3 4 + 2 Automatic
40 Log Ratio log ( 4 2 ) Automatic
41 MCARI/MTVI2 ( ( 3 - 2 ) - 0.2 ( 3 - 1 ) ) ( 3 2 ) ( 1.5 1.2 ( 4 - 1 ) - 2.5 ( 2 - 1 ) ( 2 4 + 1 ) 2 - ( 6 4 - 5 2 ) - 0.5 ) Automatic
42 MCARI/OSAVI ( 3 - 2 ) - 0.2 ( 3 - 1 ) ( 3 2 ) ( 1 + 0.16 ) 4 - 2 4 + 2 + 0.16 Automatic
43 mCRIRE ( 1 ( -1 ) - 2 ( -1 ) ) · 4 Automatic
44 Misra Green Vegetation Index -0.386 1 - 0.530 2 + 0.535 3 + 0.532 4 Automatic
45 Misra Non Such Index 0.404 1 - 0.039 2 - 0.505 3 + 0.762 4 Automatic
46 Misra Soil Brightness Index 0.406 1 + 0.600 2 + 0.645 3 + 0.243 4 Automatic
47 Misra Yellow Vegetation Index 0.723 1 - 0.597 2 + 0.206 3 - 0.278 4 Automatic
48 Modified anthocyanin reflectance index ( 1 ( -1 ) - 2 ( -1 ) ) · 4 Automatic
49 Modified Chlorophyll Absorption in Reflectance Index ( ( 3 - 2 ) - 0.2 ( 3 - 1 ) ) ( 3 2 ) Automatic
50 Modified Chlorophyll Absorption in Reflectance Index 1 1.2 ( 2.5 ( 3 - 2 ) - 1.3 ( 3 - 1 ) ) Automatic
51 Modified Chlorophyll Absorption in Reflectance Index 2 ( 1.5 2.5 ( 3 - 2 ) - 1.3 ( 3 - 1 ) ( 2 3 + 1 ) 2 - ( 6 3 - 5 2 ) - 0.5 ) Automatic
52 Modified Simple Ratio 670,800 3 2 - 1 3 2 + 1 Automatic
53 Modified Simple Ratio NIR/RED ( 4 2 ) - 1 ( 4 2 ) + 1 Automatic
54 Modified Soil Adjusted Vegetation Index 2 4 + 1 - ( 2 4 + 1 ) 2 - 8 ( 4 - 2 ) 2 Automatic
55 Modified Soil Adjusted Vegetation Index hyper ( 0.5 ) ( ( 2 3 + 1 ) - ( 2 3 + 1 ) 2 - 8 ( 3 - 2 ) ) Automatic
56 Modified Triangular Vegetation Index 1 1.2 ( 1.2 ( 3 - 1 ) - 2.5 ( 2 - 1 ) ) Automatic
57 Modified Triangular Vegetation Index 2 ( 1.5 1.2 ( 3 - 1 ) - 2.5 ( 2 - 1 ) ( 2 3 + 1 ) 2 - ( 6 3 - 5 2 ) - 0.5 ) Automatic
58 Nonlinear vegetation index 42 - 2 42 + 2 Automatic
59 Norm G 1 4 + 2 + 1 Automatic
60 Norm NIR 4 4 + 2 + 1 Automatic
61 Norm R 2 4 + 2 + 1 Automatic
62 Normalized Difference 550/650 1 - 2 1 + 2 Automatic
63 Normalized Difference 682/553 2 - 1 2 - 1 Automatic
64 Normalized Difference 750/550 3 - 1 3 + 1 Automatic
65 Normalized Difference 750/650 3 - 2 3 + 2 Automatic
66 Normalized Difference 750/660 750–660 3 + 2 Automatic
67 Normalized Difference 750/680 3 - 2 3 + 2 Automatic
68 Normalized Difference 774/677 3 - 2 3 + 2 Automatic
69 Normalized Difference 780/550 3 - 1 3 + 1 Automatic
70 Normalized Difference 782/666 3 - 2 3 + 2 Automatic
71 Normalized Difference 790/670 3 - 2 3 + 2 Automatic
72 Normalized Difference 800/500 3 - 1 3 + 1 Automatic
73 Normalized Difference 800/550 3 - 1 3 + 1 Automatic
74 Normalized Difference 800/635 3 - 2 3 - 2 Automatic
75 Normalized Difference 800/650 3 - 2 3 + 2 Automatic
76 Normalized Difference 800/675 3 - 2 3 + 2 Automatic
77 Normalized Difference 800/680 3 - 2 3 + 2 Automatic
78 Normalized Difference 827/668 4 - 2 4 + 2 Automatic
79 Normalized Difference 833/658 4 - 2 4 + 2 Automatic
80 Normalized Difference 895/675 4 - 2 4 + 2 Automatic
81 Normalized Difference 900/680 4 - 2 4 + 2 Automatic
82 Normalized Difference 925/710 4−3 4 + 3 Automatic
83 Normalized Difference Green/Red 1 - 2 1 + 2 Automatic
84 Normalized Difference NIR/Green 4 - 1 4 + 1 Automatic
85 Normalized Difference NIR/Red 3 - 2 3 + 2 Automatic
86 Normalized Difference NIR/Rededge 4 - 3 4 + 3 Automatic
87 Normalized Difference Red/Green 2 - 1 2 + 1 Automatic
88 Normalized Difference Rededge/Red 3 - 2 3 + 2 Automatic
89 Normalized Difference Vegetation Index 690-710 4 - 2 4 + 2 Automatic
90 Optimized Soil Adjusted Vegetation Index ( 1 + 0.16 ) 3 - 2 3 + 2 + 0.16 Automatic
91 Plant Senescence Reflectance Index 2 - 1 3 Automatic
92 Ratio Analysis of Reflectance Spectra A1 2 3 r675 r700 Automatic
93 Ratio Analysis of Reflectance Spectra A2 2 3 r680 r700 Automatic
94 Ratio Analysis of Reflectance Spectra A3 2 3 r670 r800 Automatic
95 Ratio Analysis of Reflectance Spectra A4 2 3 r680 r800 Automatic
96 Ratio Analysis of Reflectance Spectra B3 2 2 · 4 r650 r800 r675 Automatic
97 Ratio Analysis of Reflectance Spectra B4 2 2 · 4 r635 r800 r680 Automatic
98 Ratio Analysis of Reflectance Spectra C1 3 1 r760 r500 Automatic
99 Ratio Analysis of Reflectance Spectra C3 3 1 r800 r500 Automatic
100 RDVI 3 - 2 ( 3 + 2 ) 0.5 Automatic
101 RDVI2 4 - 2 4 + 2 Automatic
102 Red edge 1 3 2 Automatic
103 Red edge 2 3 - 2 3 + 2 Automatic
104 Reflectance at the inflexion point 2 + 3 2 Automatic
105 Renormalized Difference Vegetation Index 3 - 2 3 + 2 Automatic
106 Simple Ratio 520/670 1 2 Automatic
107 Simple Ratio 520/760 1 3 Automatic
108 Simple Ratio 542/750 1 3 Automatic
109 Simple Ratio 550/670 1 2 Automatic
110 Simple Ratio 550/680 1 2 Automatic
111 Simple Ratio 550/760 1 3 Automatic
112 Simple Ratio 550/800 1 3 Automatic
113 Simple Ratio 554/677 1 2 Automatic
114 Simple Ratio 556/750 1 3 Automatic
115 Simple Ratio 560/658 1 2 Automatic
116 Simple Ratio 605/760 2 3 Automatic
117 Simple Ratio 672/550 2 1 Automatic
118 Simple Ratio 672/708 2 3 Automatic
119 Simple Ratio 674/553 2 1 Automatic
120 Simple Ratio 675/555 2 1 Automatic
121 Simple Ratio 675/700 2 3 Automatic
122 Simple Ratio 675/705 2 3 Automatic
123 Simple Ratio 678/750 2 3 Automatic
124 Simple Ratio 683/510 2 1 Automatic
125 Simple Ratio 685/735 2 3 Automatic
126 Simple Ratio 690/735 2 3 Automatic
127 Simple Ratio 690/740 2 3 Automatic
128 Simple Ratio 694/840 2 4 Automatic
129 Simple Ratio 695/760 2 3 Automatic
130 Simple Ratio 695/800 2 3 Automatic
131 Simple Ratio 700 1 2 Automatic
132 Simple Ratio 700/670 3 2 Automatic
133 Simple Ratio 710/670 3 2 Automatic
134 Simple Ratio 750/550 3 1 Automatic
135 Simple Ratio 750/555 3 1 Automatic
136 Simple Ratio 750/700 3 2 Automatic
137 Simple Ratio 752/690 3 2 Automatic
138 Simple Ratio 760/500 3 1 Automatic
139 Simple Ratio 760/695 3 2 Automatic
140 Simple Ratio 774/677 3 2 Automatic
141 Simple Ratio 800/500 3 1 Automatic
142 Simple Ratio 800/550 3 1 Automatic
143 Simple Ratio 800/600 3 1 Automatic
144 Simple Ratio 800/635 3 2 Automatic
145 Simple Ratio 800/650 3 2 Automatic
146 Simple Ratio 800/670 3 2 Automatic
147 Simple Ratio 800/675 3 2 Automatic
148 Simple Ratio 800/680 3 2 Automatic
149 Simple Ratio 800/960 3 4 Automatic
150 Simple Ratio 801/550 4 1 Automatic
151 Simple Ratio 801/670 4 2 Automatic
152 Simple Ratio 810/560 4 1 Automatic
153 Simple Ratio 833/658 4 2 Automatic
154 Simple Ratio 850/710 4 3 Automatic
155 Simple Ratio 860/550 4 1 Automatic
156 Simple Ratio 860/708 4 3 Automatic
157 Simple Ratio 900/680 4 2 Automatic
158 Simple Ratio NIR/700-715 4 3 Automatic
159 Simple Ratio NIR/G 4 1 Automatic
160 Simple Ratio NIR/RED 4 2 Automatic
161 Simple Ratio NIR/Rededge 4 3 Automatic
162 Simple Ratio Red/Green 2 1 Automatic
163 Simple Ratio Red/NIR 2 4 Automatic
164 Simple Ratio Rededge/Red 3 2 Automatic
165 Single Band 1020 4 Automatic
166 Single Band 1040 4 Automatic
167 Single Band 550 1 Automatic
168 Single Band 555 1 Automatic
169 Single Band 635 2 Automatic
170 Single Band 640 2 Automatic
171 Single Band 655 2 Automatic
172 Single Band 660 2 Automatic
173 Single Band 670 2 Automatic
174 Single Band 675 2 Automatic
175 Single Band 680 2 Automatic
176 Single Band 700 2 Automatic
177 Single Band 703 3 Automatic
178 Single Band 705 3 Automatic
179 Single Band 720 3 Automatic
180 Single Band 735 3 Automatic
181 Single Band 801 4 Automatic
182 Single Band 850 4 Automatic
183 Single Band 885 4 Automatic
184 Single Band 910 4 Automatic
185 Single Band 930 4 Automatic
186 Single Band 970 4 Automatic
187 Single Band 990 4 Automatic
188 Soil Adjusted Vegetation Index 3 - 2 3 + 2 + L ( 1 + L ) Automatic
189 Soil and Atmospherically Resistant Vegetation Index ( 1 + L ) 3 - ( Rr - y ( RB - Rr ) ) 3 + - ( Rr - y ( RB - Rr ) ) + L Automatic
190 Soil and Atmospherically Resistant Vegetation Index 3 ( 1 + 0 ,5 ) 4 - 2 4 + 2 + 0 ,5 Automatic
191 Soil Background Line 4 - 2.4 2 Automatic
192 Soil-adjusted vegetation index 2 4 2 + b a Automatic
193 Spectral Polygon Vegetation Index 0.4 ( 3.7 ( 3 - 2 ) - 1.2 | 1 - 2 | ) Automatic
194 SQRT(IR/R) 4 2 Automatic
195 Structure Intensive Pigment Index 2 3 - 1 3 - 2 Automatic
196 Tasselled Cap - Green Vegetation Index MSS -0.283 1 - 0.660 2 + 0.577 3 + 0.388 4 Automatic
197 Tasselled Cap - Non Such Index MSS -0.016 1 + 0.131 2 - 0.425 3 + 0.882 4 Automatic
198 Tasselled Cap - Soil Brightness Index MSS 0.332 1 + 0.603 2 + 0.675 3 + 0.262 4 Automatic
199 Tasselled Cap - Yellow Vegetation Index MSS -0.899 1 + 0.428 2 + 0.076 3 - 0.041 4 Automatic
200 TCARI/OSAVI 3 ( 3 - 2 ) - 0.2 ( 3 - 1 ) 3 2 ( 1 + 0.16 ) 4 - 2 4 + 2 + 0.16 Automatic
201 Transformed Chlorophyll Absorbtion Ratio 3 ( ( 3 - 2 ) - 0.2 ( 3 - 1 ) ( 3 2 ) ) Automatic
202 Transformed NDVI 4 - 2 4 + 2 + 0.5 Automatic
203 Transformed Soil Adjusted Vegetation Index B ( 4 - B · 2 - A ) 2 + B ( 4 - A ) + X ( 1 + B2 ) Automatic
204 Transformed Soil Adjusted Vegetation Index 2 a · 4 - a · 2 - b 2 + a · 4 - a · b Automatic
205 Transformed Vegetation Index ( ( 2 - 1 2 + 1 ) ) + 0 ,5 Automatic
206 Triangular chlorophyll index 1.2 ( 3 - 1 ) - 1.5 ( 2 - 1 ) · 3 2 Automatic
207 Triangular Vegetation Index 0.5 ( 120 ( 3 - 1 ) - 200 ( 2 - 1 ) ) Automatic
208 Vegetation Index 700 3 - 2 3 + 2 Automatic
209 Visible Atmospherically Resistant Indices RedEdge 3 - 2 3 + 2 Automatic
210 Weighted Difference Vegetation Index 4 - a · 2 Automatic
211 Wide Dynamic Range Vegetation Index 0.1 4 - 2 0.1 4 + 2 Automatic

Applications

Nr. Name
1 Agriculture
2 Agriculture - Crop parameters
3 Agriculture - Crop yield
4 Agriculture - Land management
5 Agriculture - Precision Crop Management
6 Forestry
7 Forestry - Boreal
8 Hyperspectral remote sensing - Red-edge position
9 Metal
10 Metal - Heavy metal contamination
11 Metal - Iron
12 Oil
13 Soil
14 Vegetation
15 Vegetation - Biomass
16 Vegetation - Cellulose
17 Vegetation - Chlorophyll
18 Vegetation - Fluorescence
19 Vegetation - LAI
20 Vegetation - Lignin
21 Vegetation - PAR
22 Vegetation - Protein
23 Vegetation - Starch
24 Vegetation - Stress
25 Vegetation - Vitality
26 Vegetation - Water
27 Vegetation - Water stress

References

Nr. Author/Title Year Comment
1 ENVI Help
2 Abera, Berhe Gebreselassie - Application of Remote sensing and Spatial Data Integration Modeling to Predicitive Mapping of Apatite-Mineralized zones in the Bikilal Layered Gabbro Complex, Western Ethiopia 2005
3 Bannari, A.; Morin, D.; Bonn, F.; Huete, A. R. - A review of vegetation indices 1995
4 Bastiaanssen, Wim G. M.; Molden, David J.; Makin, Ian W. - Remote sensing for irrigated agriculture: examples from research and possible applications 2000
5 Becker-Reshef, I.; Vermote, E.; Lindeman, M.; Justice, C. - A generalized regression-based model for forecasting winter wheat yields in Kansas and Ukraine using MODIS data 2010
6 Brown, Daniel G.; Duh, Jiunn-Der; Drzyzga, Scott A. - Estimating Error in an Analysis of Forest Fragmentation Change Using North American Landscape Characterization (NALC) Data 2000
7 Escadafal, R.; Belghith, A.; Ben Moussa, H. - Indices spectraux pour la dégradation des milieux naturels en Tunisie aride 1994
8 Glenn, E. P.; Nagler, P. L.; Huete, A. R. - Vegetation Index Methods for Estimating Evapotranspiration by Remote Sensing 2010
9 Hecker, Jeanna Hyde - Investigation of the Relationship between Chlorophyll Concentration and High Spectral Resolution Data of Phragmites australis in Heavy Metal Contaminated Sites 2003
10 Huete, A. R.; Jackson, R. D. - Soil and atmosphere influences on the spectra of partial canopies 1988
11 Jackson, Ray D.; Huete, Alfredo R. - Interpreting vegetation indices 1991
12 Kaufman, Y. J.;Tanre, D. - Atmospherically resistant vegetation index (ARVI) for EOS-MODIS 1992
13 Key, C.H.; N. Benson; D. Ohlen; S. Howard; R. McKinley; Zhu Z. - The normalized burn ratio and relationships to burn severity: ecology, remote sensing and implementation 2002
14 Lymburner, L.; Beggs, PJ.; Jacobson, CR. - Estimation of canopy-average surface-specific leaf area using Landsat TM data 2000
15 Metternicht, G. - Vegetation indices derived from high-resolution airborne videography for precision crop management 2003
16 Moulin, S.; Bondeau, A.; Delecolle, R. - Combining agricultural crop models and satellite observations: from field to regional scales 1998
17 Pinder, J. E.; McLeod, K. W. - Indications of relative drought stress in longleaf pine from Thematic Mapper data 1999
18 Richardson, A.J.; Wiegand, C.L. - Distinguishing vegetation from soil background information 1977
19 Rock, B. N.; Vogelmann, J. E.; Williams, D. L.; Vogehnann, A. F.; Hoshizaki, T. - Remote detection of forest damage 1986
20 Rondeaux, Geneviève; Steven, Michael; Baret, Frédéric - Optimization of soil-adjusted vegetation indices 1996
21 Rouse, J.W., Jr.; Haas,R.H.; Schell, J.A.; Deering, D.W. - Monitoring the vernal advancement and retrogradation (green wave effect) of natural vegetation 1973
22 Rouse, J.W.; Haas, R.H.; Schell, J.A.; Deering, D.W. - Monitoring vegetation systems in the Great Plains with ERTS 1974
23 Schmidt, H.; Karnieli, A. - Sensitivity of vegetation indices to substrate brightness in hyper-arid environment: The Makhtesh Ramon Crater (Israel) case study 2001
24 Thenkabail, P. S.; Smith, R. B.; De Pauw, E. - Evaluation of narrowband and broadband vegetation indices for determining optimal hyperspectral wavebands for agricultural crop characterization 2002
25 Tucker, C. J.; Elgin Jr, J. H.; McMurtrey Iii, J. E.; Fan, C. J. - Monitoring corn and soybean crop development with hand-held radiometer spectral data 1979
26 Wittich, K. P.; Hansing, O. - AREA-AVERAGED VEGETATIVE COVER FRACTION ESTIMATED FROM SATELLITE DATA 1995
27 Zheng, Guang; Moskal, L. Monika - Retrieving Leaf Area Index (LAI) Using Remote Sensing: Theories, Methods and Sensors 2009

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Visualisation of Indices

Sensor:

Indices:

Adjusted transformed soil-adjusted VI

Anthocyanin reflectance index

Ashburn Vegetation Index

Atmospherically Resistant Vegetation Index 2

Average reflectance 750 to 850

Browning Reflectance Index

Canopy Chlorophyll Content Index

Chlorophyll Absorption Ratio Index

Chlorophyll Absorption Ratio Index 2

Chlorophyll Green

Chlorophyll Index Green

Chlorophyll IndexRedEdge

Chlorophyll vegetation index

Corrected Transformed Vegetation Index

CRI700

Datt1

Datt4

Datt6

Difference 678/500

Difference 800/550

Difference 800/680

Difference 833/658

Difference NIR/Green

Differenced Vegetation Index MSS

DmSR

Enhanced Vegetation Index 2

Enhanced Vegetation Index 2

EPI

Ferric iron, Fe3+

Global Environment Monitoring Index

Green Normalized Difference Vegetation Index

Green Optimized Soil Adjusted Vegetation Index

Green Soil Adjusted Vegetation Index

Green-Red NDVI

Ideal vegetation index

Infrared percentage vegetation index

Inverse reflectance 550

Inverse reflectance 700

Leaf Chlorophyll Index

Log Ratio

MCARI/MTVI2

MCARI/OSAVI

mCRIRE

Misra Green Vegetation Index

Misra Non Such Index

Misra Soil Brightness Index

Misra Yellow Vegetation Index

Modified anthocyanin reflectance index

Modified Chlorophyll Absorption in Reflectance Index

Modified Chlorophyll Absorption in Reflectance Index 1

Modified Chlorophyll Absorption in Reflectance Index 2

Modified Simple Ratio 670,800

Modified Simple Ratio NIR/RED

Modified Soil Adjusted Vegetation Index

Modified Soil Adjusted Vegetation Index hyper

Modified Triangular Vegetation Index 1

Modified Triangular Vegetation Index 2

Nonlinear vegetation index

Norm G

Norm NIR

Norm R

Normalized Difference 550/650

Normalized Difference 682/553

Normalized Difference 750/550

Normalized Difference 750/650

Normalized Difference 750/660

Normalized Difference 750/680

Normalized Difference 774/677

Normalized Difference 780/550

Normalized Difference 782/666

Normalized Difference 790/670

Normalized Difference 800/500

Normalized Difference 800/550

Normalized Difference 800/635

Normalized Difference 800/650

Normalized Difference 800/675

Normalized Difference 800/680

Normalized Difference 827/668

Normalized Difference 833/658

Normalized Difference 895/675

Normalized Difference 900/680

Normalized Difference 925/710

Normalized Difference Green/Red

Normalized Difference NIR/Green

Normalized Difference NIR/Red

Normalized Difference NIR/Rededge

Normalized Difference Red/Green

Normalized Difference Rededge/Red

Normalized Difference Vegetation Index 690-710

Optimized Soil Adjusted Vegetation Index

Plant Senescence Reflectance Index

Ratio Analysis of Reflectance Spectra A1

Ratio Analysis of Reflectance Spectra A2

Ratio Analysis of Reflectance Spectra A3

Ratio Analysis of Reflectance Spectra A4

Ratio Analysis of Reflectance Spectra B3

Ratio Analysis of Reflectance Spectra B4

Ratio Analysis of Reflectance Spectra C1

Ratio Analysis of Reflectance Spectra C3

RDVI

RDVI2

Red edge 1

Red edge 2

Reflectance at the inflexion point

Renormalized Difference Vegetation Index

Simple Ratio 520/670

Simple Ratio 520/760

Simple Ratio 542/750

Simple Ratio 550/670

Simple Ratio 550/680

Simple Ratio 550/760

Simple Ratio 550/800

Simple Ratio 554/677

Simple Ratio 556/750

Simple Ratio 560/658

Simple Ratio 605/760

Simple Ratio 672/550

Simple Ratio 672/708

Simple Ratio 674/553

Simple Ratio 675/555

Simple Ratio 675/700

Simple Ratio 675/705

Simple Ratio 678/750

Simple Ratio 683/510

Simple Ratio 685/735

Simple Ratio 690/735

Simple Ratio 690/740

Simple Ratio 694/840

Simple Ratio 695/760

Simple Ratio 695/800

Simple Ratio 700

Simple Ratio 700/670

Simple Ratio 710/670

Simple Ratio 750/550

Simple Ratio 750/555

Simple Ratio 750/700

Simple Ratio 752/690

Simple Ratio 760/500

Simple Ratio 760/695

Simple Ratio 774/677

Simple Ratio 800/500

Simple Ratio 800/550

Simple Ratio 800/600

Simple Ratio 800/635

Simple Ratio 800/650

Simple Ratio 800/670

Simple Ratio 800/675

Simple Ratio 800/680

Simple Ratio 800/960

Simple Ratio 801/550

Simple Ratio 801/670

Simple Ratio 810/560

Simple Ratio 833/658

Simple Ratio 850/710

Simple Ratio 860/550

Simple Ratio 860/708

Simple Ratio 900/680

Simple Ratio NIR/700-715

Simple Ratio NIR/G

Simple Ratio NIR/RED

Simple Ratio NIR/Rededge

Simple Ratio Red/Green

Simple Ratio Red/NIR

Simple Ratio Rededge/Red

Single Band 1020

Single Band 1040

Single Band 550

Single Band 555

Single Band 635

Single Band 640

Single Band 655

Single Band 660

Single Band 670

Single Band 675

Single Band 680

Single Band 700

Single Band 703

Single Band 705

Single Band 720

Single Band 735

Single Band 801

Single Band 850

Single Band 885

Single Band 910

Single Band 930

Single Band 970

Single Band 990

Soil Adjusted Vegetation Index

Soil and Atmospherically Resistant Vegetation Index

Soil and Atmospherically Resistant Vegetation Index 3

Soil Background Line

Soil-adjusted vegetation index 2

Spectral Polygon Vegetation Index

SQRT(IR/R)

Structure Intensive Pigment Index 2

Tasselled Cap - Green Vegetation Index MSS

Tasselled Cap - Non Such Index MSS

Tasselled Cap - Soil Brightness Index MSS

Tasselled Cap - Yellow Vegetation Index MSS

TCARI/OSAVI

Transformed Chlorophyll Absorbtion Ratio

Transformed NDVI

Transformed Soil Adjusted Vegetation Index

Transformed Soil Adjusted Vegetation Index 2

Transformed Vegetation Index

Triangular chlorophyll index

Triangular Vegetation Index

Vegetation Index 700

Visible Atmospherically Resistant Indices RedEdge

Weighted Difference Vegetation Index

Wide Dynamic Range Vegetation Index

List of Sensors