# List of available Indices

Order by: Name [^][v] • Abbreviation [^][v] • Applications [^][v] • Sensors [^][v] • References [^][v]

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Nr Name Abbrev. Formula Variables Source # Sens. # Appl. # Ref.
1 Crop water stress index CWSI $\frac{{C}-{A}}{{B}-{A}}$ Original Formula 0 6 6
2 Greenness Above Bare Soil GRABS ${\mathrm{GVI}}-0.09178{\mathrm{SBI}}+5.58959$ Original Formula 0 0 2
3 Modified Normalized Difference Vegetation Index RVI MRVI $\frac{{\mathrm{RVI}}-1}{{\mathrm{RVI}}+1}$ Original Formula 0 1 1
4 Optimized vegetation normalized index OVNI Original Formula 0 0 1
5 Relative Drought Index RDI $\frac{{\mathrm{WSDact}}}{{\mathrm{WSDcrit}}}$ Original Formula 0 0 0
6 Relative Greenness Index RGI Original Formula 0 0 1
7 Relative Water Content Index RWC $\frac{{\mathrm{FW}}-{\mathrm{DW}}}{{\mathrm{TW}}-{\mathrm{DW}}}$ Original Formula 0 2 2
8 Residual Moisture Index RMI Original Formula 0 0 1
9 Saturation S $\frac{\mathrm{max}\left({R},{G},{B}\right)-\mathrm{min}\left({R},{G},{B}\right)}{\mathrm{max}\left({R},{G},{B}\right)}$ Original Formula 0 1 1
10 Simple Ratio SWIRI/SWIRII Clay Minerals SRSWIRI/SWIRII $\frac{{\mathrm{SWIRI}}}{{\mathrm{SWIRII}}}$ Original Formula 0 2 0
11 Stress Index SI Original Formula 0 0 1
12 Tasselled Cap - nonesuch Derived 0 0 4
13 Vegetation Condition Index VCI $\frac{{\mathrm{NDVIj}}-{\mathrm{NDVImin}}}{{\mathrm{NDVImax}}-{\mathrm{NDVImin}}}·100$ Original Formula 0 2 0
14 Yellowness index YI $-10\frac{{\mathrm{580nm}}-2{\mathrm{624nm}}+{\mathrm{668nm}}}{{{\mathrm{44nm}}}^{2}}$ Original Formula 0 0 1
15 Simple Ration 355 / 365 gk $\left(\frac{{\mathrm{355nm}}}{{l}}·{\mathrm{365nm}}\right)$ l=1.1 Derived 2 0 0
16 Silica 1 $\frac{{\mathrm{\left[8475:8825\right]}}}{{\mathrm{\left[8125:8475\right]}}}$ Derived 3 2 0
17 Silica 4 $\frac{{\mathrm{\left[8475:8825\right]}}·{\mathrm{\left[8475:8825\right]}}}{\frac{{\mathrm{\left[8125:8475\right]}}}{{\mathrm{\left[8925:9275\right]}}}}$ Derived 3 1 0
18 Siliceous Rocks $\frac{{\mathrm{\left[8475:8825\right]}}·{\mathrm{\left[8475:8825\right]}}}{{\mathrm{\left[8125:8475\right]}}·{\mathrm{\left[8925:9275\right]}}}$ Derived 3 2 1
19 Silica 2 $\frac{{\mathrm{\left[8475:8825\right]}}}{{\mathrm{\left[8925:9275\right]}}}$ Derived 4 2 0
20 Triangular greenness index TGI ${\mathrm{–0.5}}\left(\left({\mathrm{\left[665:675\right]–\left[475:485\right]}}\right)·\left({\mathrm{670nm–550nm}}\right){–}\left({\mathrm{\left[665:675\right]–\left[545:555\right]}}\right)\left({\mathrm{670nm–480nm}}\right)\right)$ Original Formula 4 0 1
21 Basic Degree Index - SIO2 $\frac{{\mathrm{\left[8925:9275\right]}}}{{\mathrm{\left[10250:10950\right]}}}$ Derived 5 3 2
22 Quartz Rich Rocks $\frac{{\mathrm{\left[10950:11650\right]}}}{{\mathrm{\left[8925:9275\right]}}}$ Derived 5 3 1
23 SiO2 $\frac{{\mathrm{\left[10250:10950\right]}}}{{\mathrm{\left[8925:9275\right]}}}$ Derived 5 1 0
24 Carbonate $\frac{{\mathrm{\left[10250:10950\right]}}}{{\mathrm{\left[10950:11650\right]}}}$ Derived 6 2 2
25 Silica 3 $\frac{{\mathrm{\left[10250:10950\right]}}}{{\mathrm{\left[8125:8475\right]}}}$ Derived 7 2 0
26 Modified Normalized Difference 850/1788/1928 ND850/1788/1928 $\frac{{\mathrm{850nm–1788nm}}}{{\mathrm{850nm}}+{\mathrm{1928nm}}}$ Original Formula 8 0 1
27 Modified Normalized Difference 850/2218/1928 ND850/2218/1928 $\frac{{\mathrm{850nm–2218nm}}}{{\mathrm{850nm}}+{\mathrm{1928nm}}}$ Original Formula 8 0 1
28 Cellulose absorption index 2 CAI $0,5\left({\mathrm{2020nm}}+{\mathrm{2220nm}}\right)-{\mathrm{2100nm}}$ Original Formula 9 3 4
29 Normalized Difference 1080/1180 ND1080/1180 $\frac{{\mathrm{1080nm}}-{\mathrm{1180nm}}}{{\mathrm{1080nm}}+{\mathrm{1180nm}}}$ Original Formula 9 0 1
30 Normalized Difference 1094/1205 Leaf water VI 2 LWVI-2 $\frac{{\mathrm{1094nm}}-{\mathrm{1205nm}}}{{\mathrm{1094nm}}+{\mathrm{1205nm}}}$ Original Formula 9 2 1
31 Normalized Difference 1180/1450 ND1180/1450 $\frac{{\mathrm{1180nm}}-{\mathrm{1450nm}}}{{\mathrm{1180nm}}+{\mathrm{1450nm}}}$ Original Formula 9 0 1
32 Normalized Difference 1260/1450 ND1260/1450 $\frac{{\mathrm{1260nm}}-{\mathrm{1450nm}}}{{\mathrm{1260nm}}+{\mathrm{1450nm}}}$ Original Formula 9 0 1
33 Simple Ratio 1080/1180 SR1080/1180 $\frac{{\mathrm{1080nm}}}{{\mathrm{1180nm}}}$ Original Formula 9 0 1
34 Simple Ratio 1180/1080 SR1180/1080 $\frac{{\mathrm{1180nm}}}{{\mathrm{1080nm}}}$ Original Formula 9 0 1
35 Simple Ratio 1180/1450 SR1180/1450 $\frac{{\mathrm{1180nm}}}{{\mathrm{1450nm}}}$ Original Formula 9 0 1
36 Simple Ratio 1193/1126 Water content WC $\frac{{\mathrm{1193nm}}}{{\mathrm{1126nm}}}$ Original Formula 9 2 1
37 Simple Ratio 1260/1450 SR1260/1450 $\frac{{\mathrm{1260nm}}}{{\mathrm{1450nm}}}$ Original Formula 9 0 1
38 Simple Ratio 1450/1180 SR1450/1180 $\frac{{\mathrm{1450nm}}}{{\mathrm{1180nm}}}$ Original Formula 9 0 1
39 Simple Ratio 1450/1260 SR1450/1260 $\frac{{\mathrm{1450nm}}}{{\mathrm{1260nm}}}$ Original Formula 9 0 1
40 Three-Band Ratio 975 RATIO975 $2\frac{{\mathrm{\left[960:990\right]}}}{{\mathrm{\left[920:940\right]}}+{\mathrm{\left[1090:1110\right]}}}$ Original Formula 9 2 1
41 Cellulose Absorption Index CAI $100\left(0.5\left({\mathrm{2030nm}}+{\mathrm{2210nm}}\right)-{\mathrm{2100nm}}\right)$ Original Formula 10 3 0
42 Modified Chlorophyll Absorption in Reflectance Index 1510 MCARI1510 $\left(\left({\mathrm{700nm}}-{\mathrm{1510nm}}\right)-0.2\left({\mathrm{700nm}}-{\mathrm{550nm}}\right)\right)\left(\frac{{\mathrm{700nm}}}{{\mathrm{1510nm}}}\right)$ Original Formula 10 2 1
43 Normalized Difference 1070/1200 NDWI-Hyperion NDWI-Hyp $\frac{{\mathrm{1070nm}}-{\mathrm{1200nm}}}{{\mathrm{1070nm}}+{\mathrm{1200nm}}}$ Original Formula 10 0 2
44 Normalized Difference 1080/1450 ND1080/1450 $\frac{{\mathrm{1080nm}}-{\mathrm{1450nm}}}{{\mathrm{1080nm}}+{\mathrm{1450nm}}}$ Original Formula 10 0 1
45 Normalized Difference 1080/2170 ND1080/2170 $\frac{{\mathrm{1080nm}}-{\mathrm{2170nm}}}{{\mathrm{1080nm}}+{\mathrm{2170nm}}}$ Original Formula 10 0 1
46 Normalized Difference 1180/2170 ND1180/2170 $\frac{{\mathrm{1180nm}}-{\mathrm{2170nm}}}{{\mathrm{1180nm}}+{\mathrm{2170nm}}}$ Original Formula 10 0 1
47 Normalized Difference 2260/1490 Normalized Difference leaf mass per area NDlma $\frac{{\mathrm{2260nm-1490nm}}}{{\mathrm{2260nm}}+{\mathrm{1490nm}}}$ Original Formula 10 2 1
48 Normalized Difference 800/1180 ND800/1180 $\frac{{\mathrm{800nm}}-{\mathrm{1180nm}}}{{\mathrm{800nm}}+{\mathrm{1180nm}}}$ Original Formula 10 0 1
49 Normalized Difference 960/1180 ND960/1180 $\frac{{\mathrm{960nm}}-{\mathrm{1180nm}}}{{\mathrm{960nm}}+{\mathrm{1180nm}}}$ Original Formula 10 0 1
50 Normalized Difference Lignin Index NDLI $\frac{\mathrm{log}\left(\frac{1}{{\mathrm{1754nm}}}\right)-\mathrm{log}\left(\frac{1}{{\mathrm{1680nm}}}\right)}{\mathrm{log}\left(\frac{1}{{\mathrm{1754nm}}}\right)+\mathrm{log}\left(\frac{1}{{\mathrm{1680nm}}}\right)}$ Original Formula 10 1 1
51 Simple Ratio 1080/1450 SR1080/1450 $\frac{{\mathrm{1080nm}}}{{\mathrm{1450nm}}}$ Original Formula 10 0 1
52 Simple Ratio 1080/2170 SR1080/2170 $\frac{{\mathrm{1080nm}}}{{\mathrm{2170nm}}}$ Original Formula 10 0 1
53 Simple Ratio 1180/2170 SR1180/2170 $\frac{{\mathrm{1180nm}}}{{\mathrm{2170nm}}}$ Original Formula 10 0 1
54 Simple Ratio 1450/1080 SR1450/1080 $\frac{{\mathrm{1450nm}}}{{\mathrm{1080nm}}}$ Original Formula 10 0 1
55 Simple Ratio 2170/1080 SR2170/1080 $\frac{{\mathrm{2170nm}}}{{\mathrm{1080nm}}}$ Original Formula 10 0 1
56 Simple Ratio 2170/1180 SR2170/1180 $\frac{{\mathrm{2170nm}}}{{\mathrm{1180nm}}}$ Original Formula 10 0 1
57 Simple Ratio 800/1180 SR800/1180 $\frac{{\mathrm{800nm}}}{{\mathrm{1180nm}}}$ Original Formula 10 0 1
58 Simple Ratio 960/1180 SR960/1180 $\frac{{\mathrm{960nm}}}{{\mathrm{1180nm}}}$ Original Formula 10 0 1
59 Single Band 1900 SB1900 ${\mathrm{1900nm}}$ Original Formula 10 2 1
60 TCARI1510/OSAVI1510 TCARI1510/OSAVI1 $\frac{3\left(\left({\mathrm{700nm}}-{\mathrm{1510nm}}\right)-0,2\left({\mathrm{700nm}}-{\mathrm{550nm}}\right)\left(\frac{{\mathrm{700nm}}}{{\mathrm{1510nm}}}\right)\right)}{\frac{\left(1+{L}\right)\left({\mathrm{800nm}}-{\mathrm{1510nm}}\right)}{{\mathrm{800nm}}+{\mathrm{1510nm}}+{L}}}$ Original Formula 10 0 1
61 Three-Band Ratio 1200 RATIO1200 $2\frac{{\mathrm{\left[1180:1220\right]}}}{{\mathrm{\left[1090:1110\right]}}+\left({\mathrm{\left[1265:1285\right]}}\right)}$ Original Formula 10 1 1
62 Transformed Chlorophyll Absorbtion Ratio 1510 TCARI1510 $3\left(\left({\mathrm{700nm}}-{\mathrm{1510nm}}\right)-0,2\left({\mathrm{700nm}}-{\mathrm{550nm}}\right)\left(\frac{{\mathrm{700nm}}}{{\mathrm{1510nm}}}\right)\right)$ Original Formula 10 0 1
63 Normalized Difference 1080/1260 ND1080/1260 $\frac{{\mathrm{1080nm}}-{\mathrm{1260nm}}}{{\mathrm{1080nm}}+{\mathrm{1260nm}}}$ Original Formula 11 0 1
64 Normalized Difference 1094/983 Leaf water VI 1 LWVI-1 $\frac{{\mathrm{1094nm}}-{\mathrm{893nm}}}{{\mathrm{1094nm}}+{\mathrm{893nm}}}$ Original Formula 11 2 1
65 Normalized Difference 1180/1675 ND1180/1675 $\frac{{\mathrm{1180nm}}-{\mathrm{1675nm}}}{{\mathrm{1180nm}}+{\mathrm{1675nm}}}$ Original Formula 11 0 1
66 Normalized Difference 2160/1540 Normalized Difference leaf canopy biomass NDBleaf $\frac{{\mathrm{2160nm-1540nm}}}{{\mathrm{2160nm}}+{\mathrm{1540nm}}}$ Original Formula 11 2 0
67 Normalized Difference 800/1450 ND800/1450 $\frac{{\mathrm{800nm}}-{\mathrm{1450nm}}}{{\mathrm{800nm}}+{\mathrm{1450nm}}}$ Original Formula 11 0 1
68 Normalized Difference 960/1450 ND960/1450 $\frac{{\mathrm{960nm}}-{\mathrm{1450nm}}}{{\mathrm{960nm}}+{\mathrm{1450nm}}}$ Original Formula 11 0 1
69 Normalized Difference Nitrogen Index NDNI $\frac{\mathrm{log}\left(\frac{1}{{\mathrm{1510nm}}}\right)-\mathrm{log}\left(\frac{1}{{\mathrm{1680nm}}}\right)}{\mathrm{log}\left(\frac{1}{{\mathrm{1510nm}}}\right)+\mathrm{log}\left(\frac{1}{{\mathrm{1680nm}}}\right)}$ Original Formula 11 4 2
70 Simple Ratio 1058/1148 RVIhyp $\frac{{\mathrm{1058nm}}}{{\mathrm{1148nm}}}$ Original Formula 11 1 1
71 Simple Ratio 1080/1260 SR1080/1260 $\frac{{\mathrm{1080nm}}}{{\mathrm{1260nm}}}$ Original Formula 11 0 1
72 Simple Ratio 1180/1675 SR1180/1675 $\frac{{\mathrm{1180nm}}}{{\mathrm{1675nm}}}$ Original Formula 11 0 1
73 Simple Ratio 1260/1080 SR1260/1080 $\frac{{\mathrm{1260nm}}}{{\mathrm{1080nm}}}$ Original Formula 11 0 1
74 Simple Ratio 1450/960 SR1450/960 $\frac{{\mathrm{1450nm}}}{{\mathrm{960nm}}}$ Original Formula 11 0 1
75 Simple Ratio 1675/1180 SR1675/1180 $\frac{{\mathrm{1675nm}}}{{\mathrm{1180nm}}}$ Original Formula 11 0 1
76 Simple Ratio 800/1450 SR800/1450 $\frac{{\mathrm{800nm}}}{{\mathrm{1450nm}}}$ Original Formula 11 0 1
77 Simple Ratio 960/1450 SR960/1450 $\frac{{\mathrm{960nm}}}{{\mathrm{1450nm}}}$ Original Formula 11 0 1
78 Single Band 1820 SB1820 ${\mathrm{1820nm}}$ Original Formula 11 2 1
79 Amphibole / MgOH $\frac{{\mathrm{\left[2185:2225\right]}}+{\mathrm{\left[2360:2430\right]}}}{{\mathrm{\left[2295:2365\right]}}}$ Derived 12 2 1
80 Carbonate/Chlorite/Epidote $\frac{{\mathrm{\left[2235:2365\right]}}+{\mathrm{\left[2360:2430\right]}}}{{\mathrm{\left[2295:2365\right]}}}$ Derived 12 3 1
81 Curvative Index CI ${\mathrm{675nm}}\frac{{\mathrm{690nm}}}{{{\mathrm{683nm}}}^{2}}$ Original Formula 12 0 2
82 Dolomite $\frac{{\mathrm{\left[2185:2225\right]}}+{\mathrm{\left[2295:2365\right]}}}{{\mathrm{\left[2235:2365\right]}}}$ Derived 12 3 1
83 Epidote/Chlorite/Amphibole $\frac{{\mathrm{\left[2185:2225\right]}}+{\mathrm{\left[2360:2430\right]}}}{{\mathrm{\left[2235:2365\right]}}+{\mathrm{\left[2295:2365\right]}}}$ Derived 12 2 0
84 Modified Normalized Difference 734/747/715/720 MD734/747/715/72 $\frac{{\mathrm{734nm}}-{\mathrm{747nm}}}{{\mathrm{715nm}}-{\mathrm{720nm}}}$ Original Formula 12 2 6
85 Modifies NLI MNLI $\frac{\left({{\mathrm{1760nm}}}^{2}-{\mathrm{824nm}}\right)·1,5}{{{\mathrm{1760nm}}}^{2}+{\mathrm{824nm}}+0,5}$ Original Formula 12 0 1
86 Normalized Difference 1080/1675 ND1080/1675 $\frac{{\mathrm{1080nm}}-{\mathrm{1675nm}}}{{\mathrm{1080nm}}+{\mathrm{1675nm}}}$ Original Formula 12 0 1
87 Normalized Difference 1260/2170 ND1260/2170 $\frac{{\mathrm{1260nm}}-{\mathrm{2170nm}}}{{\mathrm{1260nm}}+{\mathrm{2170nm}}}$ Original Formula 12 0 1
88 Normalized Difference 960/1260 ND960/1260 $\frac{{\mathrm{960nm}}-{\mathrm{1260nm}}}{{\mathrm{960nm}}+{\mathrm{1260nm}}}$ Original Formula 12 0 1
89 Optimized Soil Adjusted Vegetation Index 1510 OSAVI1510 $\frac{\left(1+{L}\right)\left({\mathrm{800nm}}-{\mathrm{1510nm}}\right)}{{\mathrm{800nm}}+{\mathrm{1510nm}}+{L}}$ Original Formula 12 1 1
90 Simple Ratio 1080/1675 SR1080/1675 $\frac{{\mathrm{1080nm}}}{{\mathrm{1675nm}}}$ Original Formula 12 0 1
91 Simple Ratio 1260/2170 SR1260/2170 $\frac{{\mathrm{1260nm}}}{{\mathrm{2170nm}}}$ Original Formula 12 0 1
92 Simple Ratio 1675/1080 SR1675/1080 $\frac{{\mathrm{1675nm}}}{{\mathrm{1080nm}}}$ Original Formula 12 0 1
93 Simple Ratio 2170/1260 SR2170/1260 $\frac{{\mathrm{2170nm}}}{{\mathrm{1260nm}}}$ Original Formula 12 0 1
94 Simple Ratio 960/1260 SR960/1260 $\frac{{\mathrm{960nm}}}{{\mathrm{1260nm}}}$ Original Formula 12 0 1
95 Single Band 1940 SB1940 ${\mathrm{1940nm}}$ Original Formula 12 7 1
96 Alunite/Kaolinite/Pyrophylite $\frac{{\mathrm{\left[1600:1700\right]}}+{\mathrm{\left[2185:2225\right]}}}{{\mathrm{\left[2145:2185\right]}}}$ Derived 13 3 1
97 Amphibole $\frac{{\mathrm{\left[2185:2225\right]}}}{{\mathrm{\left[2295:2365\right]}}}$ Derived 13 3 1
98 Clay $\frac{{\mathrm{\left[2145:2185\right]}}·{\mathrm{\left[2235:2365\right]}}}{{\mathrm{\left[2185:2225\right]}}·{\mathrm{\left[2185:2225\right]}}}$ Derived 13 3 1
99 Host Rock $\frac{{\mathrm{\left[2145:2185\right]}}}{{\mathrm{\left[2185:2225\right]}}}$ Derived 13 3 0
100 Kaolinitic $\frac{{\mathrm{\left[2235:2365\right]}}}{{\mathrm{\left[2145:2185\right]}}}$ Derived 13 2 1
101 Modified Normalised Difference 734/747/715/726 Vogelmann indices 2 Vog2 $\frac{{\mathrm{734nm}}-{\mathrm{747nm}}}{{\mathrm{715nm}}+{\mathrm{726nm}}}$ Original Formula 13 2 8
102 Muscovite $\frac{{\mathrm{\left[2235:2365\right]}}}{{\mathrm{\left[2185:2225\right]}}}$ Derived 13 3 1
103 Normalized Difference 1260/1675 ND1260/1675 $\frac{{\mathrm{1260nm}}-{\mathrm{1675nm}}}{{\mathrm{1260nm}}+{\mathrm{1675nm}}}$ Original Formula 13 0 1
104 Normalized Difference 1510/660 NRI1510 ND1510/660 $\frac{{\mathrm{1510nm}}-{\mathrm{660nm}}}{{\mathrm{1510nm}}+{\mathrm{660nm}}}$ Original Formula 13 0 1
105 Phengitic $\frac{{\mathrm{\left[2145:2185\right]}}}{{\mathrm{\left[2185:2225\right]}}}$ Derived 13 2 1
106 Sericite/Muscovite/Illite/Smecite $\frac{{\mathrm{\left[2145:2185\right]}}+{\mathrm{\left[2235:2365\right]}}}{{\mathrm{\left[2185:2225\right]}}}$ Derived 13 2 1
107 Simple Ratio 1260/1675 SR1260/1675 $\frac{{\mathrm{1260nm}}}{{\mathrm{1675nm}}}$ Original Formula 13 0 1
108 Simple Ratio 1675/1260 SR1675/1260 $\frac{{\mathrm{1675nm}}}{{\mathrm{1260nm}}}$ Original Formula 13 0 1
109 Simple Ratio 800/1280 SR800/1280 $\frac{{\mathrm{800nm}}}{{\mathrm{1280nm}}}$ Original Formula 13 0 1
110 Single Band 1960 SB1960 ${\mathrm{1960nm}}$ Original Formula 13 3 1
111 Single Band 1980 SB1980 ${\mathrm{1980nm}}$ Original Formula 13 2 1
112 Single Band 2000 SB2000 ${\mathrm{2000nm}}$ Original Formula 13 2 1
113 Single Band 2060 SB2060 ${\mathrm{2060nm}}$ Original Formula 13 3 1
114 Normalized Difference 800/1260 ND800/1260 $\frac{{\mathrm{800nm}}-{\mathrm{1260nm}}}{{\mathrm{800nm}}+{\mathrm{1260nm}}}$ Original Formula 14 0 1
115 Normalized Difference 850/1650 Normalized Difference Infrared Index NDII $\frac{{\mathrm{850nm}}-{\mathrm{1650nm}}}{{\mathrm{850nm}}+{\mathrm{1650nm}}}$ Original Formula 14 2 1
116 Simple Ratio 1250/1050 LAI determining index LAIDI $\frac{{\mathrm{1250nm}}}{{\mathrm{1050nm}}}$ Original Formula 14 3 0
117 Single Band 1400 SB1400 ${\mathrm{1400nm}}$ Original Formula 14 2 1
118 Single Band 1450 SB1450 ${\mathrm{1450nm}}$ Original Formula 14 5 1
119 Single Band 1788 SB1788 ${\mathrm{1788nm}}$ Original Formula 14 0 2
120 sLAIDI sLAIDI ${S}\frac{{\mathrm{1050nm}}-{\mathrm{1250nm}}}{{\mathrm{1050nm}}+{\mathrm{1250nm}}}$ S=5 Original Formula 14 0 0
121 Gitelson2 $\left(\frac{{\mathrm{750nm}}-{\mathrm{800nm}}}{{\mathrm{695nm}}-{\mathrm{740nm}}}\right)-1$ Original Formula 15 0 1
122 Normalized Difference 415/435 Normalized Phaeophytinization Index , Normalized difference pigment index NDPI NPQI $\frac{{\mathrm{415nm}}-{\mathrm{435nm}}}{{\mathrm{415nm}}+{\mathrm{435nm}}}$ Original Formula 15 3 6
123 Normalized Difference 960/2170 ND960/2170 $\frac{{\mathrm{960nm}}-{\mathrm{2170nm}}}{{\mathrm{960nm}}+{\mathrm{2170nm}}}$ Original Formula 15 0 1
124 Simple Ratio 2170/960 SR2170/960 $\frac{{\mathrm{2170nm}}}{{\mathrm{960nm}}}$ Original Formula 15 0 2
125 Simple Ratio 960/2170 SR960/2170 $\frac{{\mathrm{960nm}}}{{\mathrm{2170nm}}}$ Original Formula 15 0 1
126 Single Band 1420 SB1420 ${\mathrm{1420nm}}$ Original Formula 15 2 1
127 Single Band 1490 SB1490 ${\mathrm{1490nm}}$ Original Formula 15 3 1
128 Single Band 1780 SB1780 ${\mathrm{1780nm}}$ Original Formula 15 4 1
129 WI/NDVI WI/NDVI $\frac{\frac{{\mathrm{900nm}}}{{\mathrm{970nm}}}}{\frac{{\mathrm{800nm}}-{\mathrm{680nm}}}{{\mathrm{800nm}}+{\mathrm{680nm}}}}$ Original Formula 15 2 1
130 Difference 1725/970 Difference LAI DLAI ${\mathrm{1725nm}}-{\mathrm{970nm}}$ Original Formula 16 2 1
131 Double Difference Index DD $\left({\mathrm{749nm}}-{\mathrm{720nm}}\right)-\left({\mathrm{701nm}}-{\mathrm{672nm}}\right)$ Original Formula 16 2 2
132 Double Peak Index DPI $\frac{{\mathrm{688nm}}+{\mathrm{710nm}}}{{{\mathrm{697nm}}}^{2}}$ Original Formula 16 3 2
133 Hyperspectral perpendicular VI PVIhyp $\frac{{\mathrm{1148nm}}-{a}·{\mathrm{807nm}}-{b}}{{\left(1+{{a}}^{2}\right)}^{0.5}}$ a=1.17, b=3.37 Original Formula 16 2 1
134 Normalized Difference 860/1240 Normalized Difference Water Index NDWI $\frac{{\mathrm{860nm}}-{\mathrm{1240nm}}}{{\mathrm{860nm}}+{\mathrm{1240nm}}}$ Original Formula 16 2 9
135 Simple Ratio 860/1240 SRWI $\frac{{\mathrm{860nm}}}{{\mathrm{1240nm}}}$ Original Formula 16 1 1
136 Single Band 1120 SB1120 ${\mathrm{1120nm}}$ Original Formula 16 2 1
137 Single Band 1200 SB1200 ${\mathrm{1200nm}}$ Original Formula 16 5 1
138 Single Band 1510 SB1510 ${\mathrm{1510nm}}$ Original Formula 16 3 2
139 Single Band 1530 SB1530 ${\mathrm{1530nm}}$ Original Formula 16 2 1
140 Single Band 1540 SB1540 ${\mathrm{1540nm}}$ Original Formula 16 3 1
141 Normalized Difference 857/1241 Normalized Difference Water Index NDWI2 $\frac{{\mathrm{857nm}}-{\mathrm{1241nm}}}{{\mathrm{857nm}}+{\mathrm{1241nm}}}$ Original Formula 17 2 1
142 Normalized Difference 960/1675 ND960/1675 $\frac{{\mathrm{960nm}}-{\mathrm{1675nm}}}{{\mathrm{960nm}}+{\mathrm{1675nm}}}$ Original Formula 17 0 1
143 Ratio 675/700/650 R675/700/650 $\frac{{\mathrm{675nm}}}{{\mathrm{700nm}}·{\mathrm{650nm}}}$ Original Formula 17 2 2
144 Ratio Analysis of Reflectance Spectra B1 RARSb1 $\frac{\frac{{\mathrm{675nm}}}{{\mathrm{650nm}}}·{\mathrm{700nm}}}{{\mathrm{r650}}\frac{{\mathrm{r700}}}{{\mathrm{r675}}}}$ Original Formula 17 2 1
145 Ratio of WI and Normalised Difference 750/660 WI/ND750 $\frac{\frac{{\mathrm{900nm}}}{{\mathrm{970nm}}}}{\frac{{\mathrm{750nm–705nm}}}{{\mathrm{750nm}}+{\mathrm{705nm}}}}$ Original Formula 17 3 1
146 Red-Edge Stress Vegetation Index RVSI $\frac{{\mathrm{718nm}}+{\mathrm{748nm}}}{2}-{\mathrm{733nm}}$ Original Formula 17 2 0
147 Simple Ratio 1675/960 SR1675/960 $\frac{{\mathrm{1675nm}}}{{\mathrm{960nm}}}$ Original Formula 17 0 1
148 Simple Ratio 705/722 D2 $\frac{{\mathrm{705nm}}}{{\mathrm{722nm}}}$ Original Formula 17 0 1
149 Simple Ratio 960/1675 SR960/1675 $\frac{{\mathrm{960nm}}}{{\mathrm{1675nm}}}$ Original Formula 17 0 1
150 CASI NDVI CASI NDVI $\frac{\left({\mathrm{\left[770:780\right]}}+{\mathrm{\left[784:790\right]}}\right)-\left({\mathrm{\left[655:665\right]}}+{\mathrm{\left[676:685\right]}}\right)}{\left({\mathrm{\left[770:780\right]}}+{\mathrm{\left[784:790\right]}}\right)+\left({\mathrm{\left[655:665\right]}}+{\mathrm{\left[676:685\right]}}\right)}$ Original Formula 18 3 1
151 CASI TM4/3 CASI TM4/3 $\frac{{\mathrm{\left[770:780\right]}}+{\mathrm{\left[784:790\right]}}}{{\mathrm{\left[655:665\right]}}+{\mathrm{\left[676:685\right]}}}$ Original Formula 18 3 1
152 MCARI2/OSAVI2 MCARI2/OSAVI2 $\left(\frac{1.5\frac{2.5\left({\mathrm{800nm}}-{\mathrm{670nm}}\right)-1.3\left({\mathrm{800nm}}-{\mathrm{550nm}}\right)}{\sqrt{{\left(2{\mathrm{800nm}}+1\right)}^{2}-\left(6{\mathrm{800nm}}-5\sqrt{{\mathrm{670nm}}}\right)-0.5}}}{\left(1+0.16\right)\frac{{\mathrm{750nm}}-{\mathrm{705nm}}}{{\mathrm{750nm}}+{\mathrm{705nm}}+0.16}}\right)$ Original Formula 18 0 1
153 Normalized Difference 570/539 ND570/539 $\frac{{\mathrm{570nm}}-{\mathrm{539nm}}}{{\mathrm{570nm}}+{\mathrm{539nm}}}$ Original Formula 18 0 1
154 RVSI RVSI $\frac{{\mathrm{714nm}}+{\mathrm{752nm}}}{2}-{\mathrm{733nm}}$ Original Formula 18 0 1
155 Single Band 2080 SB2080 ${\mathrm{2080nm}}$ Original Formula 18 3 1
156 Aerosol free vegetation index 2100 AFRI2100 $\left({\mathrm{NIR}}-0.5\frac{{\mathrm{2100nm}}}{{\mathrm{NIR}}+0.56{\mathrm{2100nm}}}\right)$ Original Formula 19 3 2
157 Ratio Analysis of Reflectance Spectra B2 RARSb2 $\frac{\frac{{\mathrm{680nm}}}{{\mathrm{635nm}}}·{\mathrm{700nm}}}{{\mathrm{r635}}\frac{{\mathrm{r700}}}{{\mathrm{r680}}}}$ Original Formula 19 2 1
158 Simple Ratio 715/705 Vogelmann indices 3 Vog3 $\frac{{\mathrm{715nm}}}{{\mathrm{705nm}}}$ Original Formula 19 2 5
159 Simple Ratio 730/706 D1 $\frac{{\mathrm{730nm}}}{{\mathrm{706nm}}}$ Original Formula 19 0 1
160 Simple Ratio 970/902 Water band index WBI $\frac{{\mathrm{970nm}}}{{\mathrm{902nm}}}$ Original Formula 19 3 1
161 Disease water stress index DSWI $\frac{{\mathrm{802nm}}+{\mathrm{547nm}}}{{\mathrm{1657nm}}+{\mathrm{682nm}}}$ Original Formula 20 3 1
162 Simple Ratio 970/900 Plant Water Index, Water Band Index (WBI), Water Index (WI) PWI $\frac{{\mathrm{970nm}}}{{\mathrm{900nm}}}$ Original Formula 20 3 13
163 Simple Ratio MIR/SWIR Cley Mineral-Index, Salinity Index SI $\frac{{\mathrm{MIR}}}{{\mathrm{SWIR}}}$ Original Formula 20 1 0
164 Single Band 2100 SB2100 ${\mathrm{2100nm}}$ Original Formula 20 3 1
165 Single Band 2340 SB2340 ${\mathrm{2340nm}}$ Original Formula 20 2 1
166 Modified Normalised Difference 750/705 MND750/705 $\frac{{\mathrm{750nm}}-{\mathrm{705nm}}}{{\mathrm{750nm}}+{\mathrm{705nm}}-2{\mathrm{445nm}}}$ Original Formula 21 2 4
167 Modified Simple Ratio 705/445 MSR705/445 $\frac{{\mathrm{750nm}}-{\mathrm{445nm}}}{{\mathrm{705nm}}-{\mathrm{445nm}}}$ Original Formula 21 2 4
168 Normalized Difference 800/2170 ND800/2170 $\frac{{\mathrm{800nm}}-{\mathrm{2170nm}}}{{\mathrm{800nm}}+{\mathrm{2170nm}}}$ Original Formula 21 0 0
169 Red-Edge Inflection Point 2 REIP2 $702+40\left(\frac{\left(\frac{{\mathrm{667nm}}+{\mathrm{782nm}}}{2}\right)-{\mathrm{702nm}}}{{\mathrm{742nm}}-{\mathrm{702nm}}}\right)$ Original Formula 21 3 4
170 Simple Ratio 605/420 SR605/420 $\frac{{\mathrm{605nm}}}{{\mathrm{420nm}}}$ Original Formula 21 0 2
171 Simple Ratio 715/705 SR715/705 $\frac{{\mathrm{\left[710:720\right]}}}{{\mathrm{\left[700:710\right]}}}$ Original Formula 21 2 3
172 Simple Ratio 740/720 hyper Vogelmann indices 1 Vog1hyper $\frac{{\mathrm{740nm}}}{{\mathrm{720nm}}}$ Original Formula 21 2 5
173 Simple Ratio 800/2170 SR800/2170 $\frac{{\mathrm{800nm}}}{{\mathrm{2170nm}}}$ Original Formula 21 0 1
174 Simple Ratio 800/960 SR800/960 $\frac{{\mathrm{800nm}}}{{\mathrm{960nm}}}$ Original Formula 21 0 1
175 Simple Ratio 895/972 Water band index 4 WBI4 $\frac{{\mathrm{895nm}}}{{\mathrm{972nm}}}$ Original Formula 21 3 1
176 Simple Ratio 950/900 Water band index WBI3 $\frac{{\mathrm{950nm}}}{{\mathrm{900nm}}}$ Original Formula 21 3 2
177 Single Band 2320 SB2320 ${\mathrm{2320nm}}$ Original Formula 21 2 1
178 Single Band 2350 SB2350 ${\mathrm{2350nm}}$ Original Formula 21 4 1
179 Normalized Difference 531/570 Photochemical Reflectance Index 531/570 PRI531/570 $\frac{{\mathrm{531nm}}-{\mathrm{570nm}}}{{\mathrm{531nm}}+{\mathrm{570nm}}}$ Original Formula 22 2 10
180 Normalized Difference 550/531 ND550/531 $\frac{{\mathrm{550nm}}-{\mathrm{531nm}}}{{\mathrm{550nm}}+{\mathrm{531nm}}}$ Original Formula 22 0 1
181 Normalized Difference 570/531 Photochemical Reflectance Index 570/531 PRI570/531 $\frac{{\mathrm{570nm}}-{\mathrm{531nm}}}{{\mathrm{570nm}}+{\mathrm{531nm}}}$ Original Formula 22 1 4
182 Single Band 2310 SB2310 ${\mathrm{2310nm}}$ Original Formula 22 2 1
183 Ferric iron, Fe2+ Fe2+ $\frac{{\mathrm{\left[2145:2185\right]}}}{{\mathrm{\left[760:860\right]}}}+\frac{{\mathrm{\left[520:600\right]}}}{{\mathrm{\left[630:690\right]}}}$ Derived 23 3 1
184 Ferrous iron $\frac{{\mathrm{\left[2145:2185\right]}}}{{\mathrm{\left[760:860\right]}}}+\frac{{\mathrm{\left[520:600\right]}}}{{\mathrm{\left[630:690\right]}}}$ Derived 23 3 1
185 MCARI/MTVI2 MCARI/MTVI2 $\frac{\left(\left({\mathrm{700nm}}-{\mathrm{670nm}}\right)-0.2\left({\mathrm{700nm}}-{\mathrm{550nm}}\right)\right)\left(\frac{{\mathrm{700nm}}}{{\mathrm{670nm}}}\right)}{\left(1.5\frac{1.2\left({\mathrm{800nm}}-{\mathrm{550nm}}\right)-2.5\left({\mathrm{670nm}}-{\mathrm{550nm}}\right)}{\sqrt{{\left(2{\mathrm{800nm}}+1\right)}^{2}-\left(6{\mathrm{800nm}}-5\sqrt{{\mathrm{670nm}}}\right)-0.5}}\right)}$ Original Formula 23 2 2
186 MCARI/OSAVI MCARI/OSAVI $\frac{\left({\mathrm{700nm}}-{\mathrm{670nm}}\right)-0.2\left({\mathrm{700nm}}-{\mathrm{550nm}}\right)\left(\frac{{\mathrm{700nm}}}{{\mathrm{670nm}}}\right)}{\left(1+0.16\right)\frac{{\mathrm{800nm}}-{\mathrm{670nm}}}{{\mathrm{800nm}}+{\mathrm{670nm}}+0.16}}$ Original Formula 23 0 4
187 Normalized Difference 925/710 Normalized Difference Chlorophyll NDchl $\frac{{\mathrm{925nm-710nm}}}{{\mathrm{925nm}}+{\mathrm{710nm}}}$ Original Formula 23 2 1
188 Ratio Analysis of Reflectance Spectra B3 RARSb3 $\frac{\frac{{\mathrm{675nm}}}{{\mathrm{650nm}}}·{\mathrm{800nm}}}{{\mathrm{r650}}\frac{{\mathrm{r800}}}{{\mathrm{r675}}}}$ Original Formula 23 2 1
189 Ratio Analysis of Reflectance Spectra B4 RARSb4 $\frac{\frac{{\mathrm{680nm}}}{{\mathrm{635nm}}}·{\mathrm{800nm}}}{{\mathrm{r635}}\frac{{\mathrm{r800}}}{{\mathrm{r680}}}}$ Original Formula 23 2 1
190 Red-Edge Inflection Point 1 REIP1 $700+40\left(\frac{\left(\frac{{\mathrm{670nm}}+{\mathrm{780nm}}}{2}\right)-{\mathrm{700nm}}}{{\mathrm{740nm}}-{\mathrm{700nm}}}\right)$ Original Formula 23 3 5
191 Red-Edge Inflection Point 3 REIP3 $705+35\left(\frac{\left(\frac{{\mathrm{665nm}}+{\mathrm{783nm}}}{2}\right)-{\mathrm{705nm}}}{{\mathrm{740nm}}-{\mathrm{705nm}}}\right)$ Original Formula 23 3 4
192 Simple Ratio 1650/2218 TM5/TM7 $\frac{{\mathrm{1650nm}}}{{\mathrm{2218nm}}}$ Original Formula 23 0 1
193 Simple Ratio 695/420 Carter1 Ctr1 $\frac{{\mathrm{695nm}}}{{\mathrm{420nm}}}$ Original Formula 23 3 7
194 Simple Ratio 710/420 SR710/420 $\frac{{\mathrm{710nm}}}{{\mathrm{420nm}}}$ Original Formula 23 0 2
195 TCARI/OSAVI TCARI/OSAVI $\frac{3\left({\mathrm{700nm}}-{\mathrm{670nm}}\right)-0.2\left({\mathrm{700nm}}-{\mathrm{550nm}}\right)\frac{{\mathrm{700nm}}}{{\mathrm{670nm}}}}{\left(1+0.16\right)\frac{{\mathrm{800nm}}-{\mathrm{670nm}}}{{\mathrm{800nm}}+{\mathrm{670nm}}+0.16}}$ Original Formula 23 0 9
196 Disease-Water Stress Index 5 DSWI-5 $\frac{{\mathrm{800nm}}-{\mathrm{550nm}}}{{\mathrm{1660nm}}+{\mathrm{680nm}}}$ Original Formula 24 3 1
197 MCARI/OSAVI750 MCARI/OSAVI750 $\frac{\left({\mathrm{750nm}}-{\mathrm{705nm}}\right)-0.2\left({\mathrm{750nm}}-{\mathrm{550nm}}\right)\left(\frac{{\mathrm{750nm}}}{{\mathrm{705nm}}}\right)}{\left(1+0.16\right)\frac{{\mathrm{750nm}}-{\mathrm{705nm}}}{{\mathrm{750nm}}+{\mathrm{705nm}}+0.16}}$ Original Formula 24 0 1
198 Modified Chlorophyll Absorption Ratio Index 705,750 MCARI705 $\left(\left({\mathrm{750nm}}-{\mathrm{705nm}}\right)-0.2\left({\mathrm{750nm}}-{\mathrm{550nm}}\right)\right)\left(\frac{{\mathrm{750nm}}}{705}\right)$ Original Formula 24 2 1
199 Red-Edge Position Linear Interpolation REP $700+40\frac{\left(\frac{{\mathrm{670nm}}+{\mathrm{780nm}}}{2}\right)-{\mathrm{700nm}}}{{\mathrm{740nm}}-{\mathrm{700nm}}}$ Original Formula 24 1 5
200 Simple Ratio 740/720 Vog1 $\frac{{\mathrm{\left[734:747\right]}}}{{\mathrm{\left[715:726\right]}}}$ Original Formula 24 2 2
201 Simple Ratio 754/704 Datt3 Datt3 $\frac{{\mathrm{754nm}}}{{\mathrm{704nm}}}$ Original Formula 24 2 3
202 Single Band 1040 SB1040 ${\mathrm{1040nm}}$ Original Formula 24 2 1
203 Single Band 2130 SB2130 ${\mathrm{2130nm}}$ Original Formula 24 2 1
204 Single Band 2180 SB2180 ${\mathrm{2180nm}}$ Original Formula 24 3 1
205 Single Band 2218 SB2218 ${\mathrm{2218nm}}$ Original Formula 24 0 1
206 Single Band 2240 SB2240 ${\mathrm{2240nm}}$ Original Formula 24 2 1
207 Single Band 2300 SB2300 ${\mathrm{2300nm}}$ Original Formula 24 3 1
208 Tasselled Cap - brightness SBI $0.3037{\mathrm{\left[450:520\right]}}+0.2793{\mathrm{\left[520:600\right]}}+0.4743{\mathrm{\left[630:690\right]}}+0.5585{\mathrm{\left[760:900\right]}}+0.5082{\mathrm{\left[1150:1750\right]}}+0.1863{\mathrm{\left[2080:2350\right]}}$ Original Formula 24 1 7
209 Tasselled Cap - vegetation GVI $-0.2848{\mathrm{\left[450:520\right]}}-0.2435{\mathrm{\left[520:600\right]}}-0.5436{\mathrm{\left[630:690\right]}}+0.7243{\mathrm{\left[760:900\right]}}+0.0840{\mathrm{\left[1550:1750\right]}}-0.1800{\mathrm{\left[2080:2350\right]}}$ Original Formula 24 1 13
210 Tasselled Cap - wetness WET $0.1509{\mathrm{\left[450:520\right]}}+0.1973{\mathrm{\left[520:600\right]}}+0.3279{\mathrm{\left[630:690\right]}}+0.3406{\mathrm{\left[760:900\right]}}-0.7112{\mathrm{\left[1550:1750\right]}}-0.4572{\mathrm{\left[2080:2350\right]}}$ Original Formula 24 1 7
211 TCARI/OSAVI 705,750 TCARI/OSAVI705 $\frac{3\left({\mathrm{750nm}}-{\mathrm{705nm}}\right)-0.2\left({\mathrm{750nm}}-{\mathrm{550nm}}\right)\left(\frac{{\mathrm{750nm}}}{{\mathrm{705nm}}}\right)}{\left(1+0.16\right)\frac{{\mathrm{750nm}}-{\mathrm{705nm}}}{{\mathrm{750nm}}+{\mathrm{705nm}}+0.16}}$ Original Formula 24 0 2
212 Transformed Chlorophyll Absorbtion Ratio 2 TCARI2 $3\left(\left({\mathrm{750nm}}-{\mathrm{705nm}}\right)-0,2\left({\mathrm{750nm}}-{\mathrm{550nm}}\right)\left(\frac{{\mathrm{750nm}}}{{\mathrm{705nm}}}\right)\right)$ Original Formula 24 1 1
213 Alteration $\frac{{\mathrm{\left[1600:1700\right]}}}{{\mathrm{\left[2145:2185\right]}}}$ Derived 25 3 1
214 Ferrous Silicates $\frac{{\mathrm{\left[2145:2185\right]}}}{{\mathrm{\left[1600:1700\right]}}}$ Derived 25 3 0
215 Laterite $\frac{{\mathrm{\left[1600:1700\right]}}}{{\mathrm{\left[2145:2185\right]}}}$ Derived 25 2 1
216 MERIS Terrestrial chlorophyll index MTCI $\frac{{\mathrm{754nm}}-{\mathrm{709nm}}}{{\mathrm{709nm}}-{\mathrm{681nm}}}$ Original Formula 25 2 5
217 Modified Chlorophyll Absorption Ratio Index 710 MCARI710 $\left(\left({\mathrm{750nm}}-{\mathrm{710nm}}\right)-0.2\left({\mathrm{750nm}}-{\mathrm{550nm}}\right)\right)\left(\frac{{\mathrm{750nm}}}{710}\right)$ Original Formula 25 2 1
218 Normalized Difference Salinity Index NDSI $\frac{{\mathrm{\left[1600:1700\right]}}-{\mathrm{\left[2145:2185\right]}}}{{\mathrm{\left[1600:1700\right]}}+{\mathrm{\left[2145:2185\right]}}}$ Derived 25 1 2
219 Plant Senescence Reflectance Index PSRI $\frac{{\mathrm{678nm}}-{\mathrm{500nm}}}{{\mathrm{750nm}}}$ Original Formula 25 1 3
220 Simple Ratio 550/420 Carter6 Ctr6 $\frac{{\mathrm{550nm}}}{{\mathrm{420nm}}}$ Original Formula 25 0 2
221 Simple Ratio 735/710 SR735/710 $\frac{{\mathrm{735nm}}}{{\mathrm{\left[700:710\right]}}}$ Original Formula 25 2 1
222 Single Band 2250 SB2250 ${\mathrm{2250nm}}$ Original Formula 25 2 1
223 Normalized Difference 528/587 Photochemical Reflectance Index 528/587 PRI528/587 $\frac{{\mathrm{528nm}}-{\mathrm{567nm}}}{{\mathrm{528nm}}+{\mathrm{567nm}}}$ Original Formula 26 1 3
224 Simple Ratio 1660/550 Disease-Water Stress Index 2 DSWI-2 $\frac{{\mathrm{1660nm}}}{{\mathrm{550nm}}}$ Original Formula 26 3 1
225 Single Band 2270 SB2270 ${\mathrm{2270nm}}$ Original Formula 26 3 1
226 Single Band 2280 SB2280 ${\mathrm{2280nm}}$ Original Formula 26 3 1
227 Chlorophyll Index RedEdge 710 CIrededge710 $\frac{{\mathrm{750nm}}}{{\mathrm{710nm}}}-1$ Original Formula 27 4 1
228 Datt1 Datt1 $\frac{{\mathrm{850nm}}-{\mathrm{710nm}}}{{\mathrm{850nm}}-{\mathrm{680nm}}}$ Original Formula 27 2 3
229 Leaf Chlorophyll Index LCI $\frac{{\mathrm{\left[850\right]}}-{\mathrm{\left[710\right]}}}{{\mathrm{\left[850\right]}}+{\mathrm{\left[680\right]}}}$ Original Formula 27 3 2
230 Modified Simple Ratio 705,750 MSR705 $\frac{\frac{{\mathrm{750nm}}}{{\mathrm{705nm}}}-1}{\sqrt{\frac{{\mathrm{750nm}}}{{\mathrm{705nm}}}+1}}$ Original Formula 27 0 1
231 mSR2 mSR2 $\left(\frac{{\mathrm{750nm}}}{{\mathrm{705nm}}}\right)-\frac{1}{\sqrt{\left(\frac{{\mathrm{750nm}}}{{\mathrm{705nm}}}\right)+1}}$ Original Formula 27 0 1
232 Normalized Difference 550/530 Physiological reflectance index PRI550/530 $\frac{{\mathrm{550nm}}-{\mathrm{530nm}}}{{\mathrm{550nm}}+{\mathrm{530nm}}}$ Original Formula 27 0 1
233 Normalized Difference 750/705 Chl NDI NDVI705 $\frac{{\mathrm{750nm}}-{\mathrm{705nm}}}{{\mathrm{750nm}}+{\mathrm{705nm}}}$ Original Formula 27 2 6
234 Normalized Difference 750/710 Red Edge NDVI reNDVI $\frac{{\mathrm{750nm}}-{\mathrm{710nm}}}{{\mathrm{750nm}}+{\mathrm{710nm}}}$ Original Formula 27 1 2
235 Optimized Soil Adjusted Vegetation Index 2 OSAVI2 $\left(1+0.16\right)\frac{{\mathrm{750nm}}-{\mathrm{705nm}}}{{\mathrm{750nm}}+{\mathrm{705nm}}+0.16}$ Original Formula 27 1 1
236 Simple Ratio 520/420 SR520/420 $\frac{{\mathrm{520nm}}}{{\mathrm{420nm}}}$ Original Formula 27 0 1
237 Simple Ratio 706/750 Chl-a SR706/750 $\frac{{\mathrm{706nm}}}{{\mathrm{750nm}}}$ Original Formula 27 2 1
238 Simple Ratio 750/705 SR750/705 $\frac{{\mathrm{750nm}}}{{\mathrm{705nm}}}$ Original Formula 27 0 5
239 Simple Ratio 750/710 Zarco-Tejada & Miller (ZM) SR750/710 $\frac{{\mathrm{750nm}}}{{\mathrm{710nm}}}$ Original Formula 27 2 5
240 Average reflectance 750 to 850 AR750/850 ${\mathrm{Averagereflectancebetween750nmand850nm}}$ Original Formula 28 1 2
241 Datt6 Datt6 $\frac{{\mathrm{860nm}}}{{\mathrm{550nm}}·{\mathrm{708nm}}}$ Original Formula 28 2 3
242 new Double Difference Index DDn $2\left({\mathrm{710nm}}-{\mathrm{760nm}}-{\mathrm{760nm}}\right)$ Original Formula 28 0 2
243 Normalized Difference 800/1675 ND800/1675 $\frac{{\mathrm{800nm}}-{\mathrm{1675nm}}}{{\mathrm{800nm}}+{\mathrm{1675nm}}}$ Original Formula 28 0 1
244 Simple Ratio 1660/680 Disease-Water Stress Index 3 DSWI-3 $\frac{{\mathrm{1660nm}}}{{\mathrm{680nm}}}$ Original Formula 28 3 1
245 Simple Ratio 440/740 SR440/740 $\frac{{\mathrm{440nm}}}{{\mathrm{740nm}}}$ Original Formula 28 0 2
246 Simple Ratio 710/760 Carter4 Ctr4 $\frac{{\mathrm{710nm}}}{{\mathrm{760nm}}}$ Original Formula 28 2 3
247 Simple Ratio 752/690 SR752/690 $\frac{{\mathrm{752nm}}}{{\mathrm{690nm}}}$ Original Formula 28 0 1
248 Simple Ratio 800/1660 Disease-Water Stress Index 1 DSWI-1 $\frac{{\mathrm{800nm}}}{{\mathrm{1660nm}}}$ Original Formula 28 3 1
249 Simple Ratio 800/1675 SR800/1675 $\frac{{\mathrm{800nm}}}{{\mathrm{1675nm}}}$ Original Formula 28 0 1
250 Single Band 1020 SB1020 ${\mathrm{1020nm}}$ Original Formula 28 2 1
251 Simple Ratio 1599/819 Moisture Stress Index 2 MSI2 $\frac{{\mathrm{1599nm}}}{{\mathrm{819nm}}}$ Original Formula 29 0 1
252 Simple Ratio 542/750 Chl SR542/750 $\frac{{\mathrm{542nm}}}{{\mathrm{750nm}}}$ Original Formula 29 0 1
253 Simple Ratio 605/670 SR605/670 $\frac{{\mathrm{605nm}}}{{\mathrm{670nm}}}$ Original Formula 29 0 2
254 Simple Ratio 605/760 Carter3 Ctr3 $\frac{{\mathrm{605nm}}}{{\mathrm{760nm}}}$ Original Formula 29 2 3
255 Simple Ratio 695/670 Carter5 Ctr5 $\frac{{\mathrm{695nm}}}{{\mathrm{670nm}}}$ Original Formula 29 2 3
256 Chlorophyll Absorption Ratio Index CARI $\left(\frac{{\mathrm{700nm}}}{{\mathrm{670nm}}}\right)\frac{\sqrt{{\left({a}·670+{\mathrm{670nm}}+{b}\right)}^{2}}}{{\left({{a}}^{2}+1\right)}^{0.5}}$ b=(550nm-((700nm-550nm)/150*550)), a=(700nm-550nm)/150 Original Formula 30 3 4
257 Chlorophyll Absorption Ratio Index 2 CARI2 $\left(\frac{|\left({a}·{\mathrm{\left[670\right]}}+{\mathrm{\left[670\right]}}+{b}\right)|}{{\left({{a}}^{2}+1\right)}^{0.5}}\right)\left(\frac{{\mathrm{\left[700\right]}}}{{\mathrm{\left[670\right]}}}\right)$ a=([700]-[550])/150, b=[550]-(a*[550]) Original Formula 30 3 1
258 DmSR DmSR $\frac{{\mathrm{DR}}\left({\mathrm{720nm}}\right)-{\mathrm{DR}}\left({\mathrm{500nm}}\right)}{{\mathrm{DR}}\left({\mathrm{720nm}}\right)+{\mathrm{DR}}\left({\mathrm{500nm}}\right)}$ Original Formula 30 0 1
259 Modified Chlorophyll Absorption in Reflectance Index MCARI $\left(\left({\mathrm{700nm}}-{\mathrm{670nm}}\right)-0.2\left({\mathrm{700nm}}-{\mathrm{550nm}}\right)\right)\left(\frac{{\mathrm{700nm}}}{{\mathrm{670nm}}}\right)$ Original Formula 30 2 10
260 Normalized Difference 790/720 Normalized difference red edge index NDRE $\frac{{\mathrm{790nm}}-{\mathrm{720nm}}}{{\mathrm{790nm}}+{\mathrm{720nm}}}$ Original Formula 30 1 2
261 Normalized Difference 833/1649 Infrared Index ND833/1649 $\frac{{\mathrm{833nm}}-{\mathrm{1649nm}}}{{\mathrm{833nm}}+{\mathrm{1649nm}}}$ Original Formula 30 0 1
262 Simple Ratio 690/735 Fluorescence ratio FR $\frac{{\mathrm{690nm}}}{{\mathrm{735nm}}}$ Original Formula 30 2 2
263 Simple Ratio 690/740 Fluorescence ratio 2 FR2 $\frac{{\mathrm{690nm}}}{{\mathrm{740nm}}}$ Original Formula 30 2 1
264 Simple Ratio 750/700 Gitelson and Merzlyak 2 SR750/700 $\frac{{\mathrm{750nm}}}{{\mathrm{700nm}}}$ Original Formula 30 2 10
265 Simple Ratio 833/1649 MSIhyper SR833/1649 $\frac{{\mathrm{833nm}}}{{\mathrm{1649nm}}}$ Original Formula 30 1 1
266 Transformed Chlorophyll Absorbtion Ratio TCARI $3\left(\left({\mathrm{700nm}}-{\mathrm{670nm}}\right)-0.2\left({\mathrm{700nm}}-{\mathrm{550nm}}\right)\left(\frac{{\mathrm{700nm}}}{{\mathrm{670nm}}}\right)\right)$ Original Formula 30 1 9
267 Triangular chlorophyll index TCI $1.2\left({\mathrm{700nm}}-{\mathrm{550nm}}\right)-1.5\left({\mathrm{670nm}}-{\mathrm{550nm}}\right)·\sqrt{\frac{{\mathrm{700nm}}}{{\mathrm{670nm}}}}$ Original Formula 30 2 1
268 Maccioni $\frac{{\mathrm{780nm}}-{\mathrm{710nm}}}{{\mathrm{780nm}}-{\mathrm{680nm}}}$ Original Formula 31 2 3
269 Normalized Difference 680/430 Normalized Pigment Chlorophyll Index NPCI $\frac{{\mathrm{680nm}}-{\mathrm{430nm}}}{{\mathrm{680nm}}+{\mathrm{430nm}}}$ Original Formula 31 2 10
270 Normalized Difference 750/650 NDVI750/650 $\frac{{\mathrm{750nm}}-{\mathrm{650nm}}}{{\mathrm{750nm}}+{\mathrm{650nm}}}$ Original Formula 31 0 1
271 Normalized Difference 819/1600 NDII NDII $\frac{{\mathrm{819nm}}-{\mathrm{1600nm}}}{{\mathrm{819nm}}+{\mathrm{1600nm}}}$ Original Formula 31 0 3
272 Normalized Difference 819/1649 NDII 2 NDII2 $\frac{{\mathrm{819nm}}-{\mathrm{1649nm}}}{{\mathrm{819nm}}+{\mathrm{1649nm}}}$ Original Formula 31 0 1
273 Normalized Difference 820/1600 Normalized Difference Moisture Index NDMI $\frac{{\mathrm{820nm}}-{\mathrm{1600nm}}}{{\mathrm{820nm}}+{\mathrm{1600nm}}}$ Original Formula 31 1 4
274 Normalized Difference Rededge/Red NDVI rededge $\frac{{\mathrm{rededge}}-{\mathrm{RED}}}{{\mathrm{rededge}}+{\mathrm{RED}}}$ Original Formula 31 2 2
275 Simple Ratio 1600/820 Moisture Stress Index MSI $\frac{{\mathrm{1600nm}}}{{\mathrm{820nm}}}$ Original Formula 31 2 7
276 Simple Ratio 430/680 SRPI SR430/680 $\frac{{\mathrm{430nm}}}{{\mathrm{680nm}}}$ Original Formula 31 2 4
277 Simple Ratio 685/735 SR685/735 $\frac{{\mathrm{685nm}}}{{\mathrm{735nm}}}$ Original Formula 31 0 2
278 Simple Ratio 694/840 SR694/840 $\frac{{\mathrm{694nm}}}{{\mathrm{840nm}}}$ Original Formula 31 0 2
279 Simple Ratio Pigment Index SRPI $\frac{{\mathrm{430nm}}}{{\mathrm{680nm}}}$ Original Formula 31 1 0
280 Simple Ratio Rededge/Red RedEdge Ratio Index 2 RRI2 $\frac{{\mathrm{rededge}}}{{\mathrm{RED}}}$ Original Formula 31 1 1
281 Single Band 1690 SB1690 ${\mathrm{1690nm}}$ Original Formula 31 5 1
282 Single Band 990 SB990 ${\mathrm{990nm}}$ Original Formula 31 2 1
283 Visible Atmospherically Resistant Indices 700 VARI700 $\frac{{\mathrm{\left[700\right]}}-1,7{\mathrm{\left[660:680\right]}}+0,7{\mathrm{\left[470:490\right]}}}{{\mathrm{\left[700\right]}}+2,3{\mathrm{\left[660:680\right]}}-1,3{\mathrm{\left[470:490\right]}}}$ Original Formula 31 0 2
284 Datt4 Datt4 $\frac{{\mathrm{672nm}}}{{\mathrm{550nm}}·{\mathrm{708nm}}}$ Original Formula 32 2 3
285 EPI EPI ${a}\frac{{\mathrm{\left[672\right]}}}{{\left({\mathrm{\left[550\right]}}·{\mathrm{\left[708\right]}}\right)}^{{b}}}$ Original Formula 32 0 1
286 mND680 mND680 $\frac{{\mathrm{800nm}}-{\mathrm{680nm}}}{{\mathrm{800nm}}+{\mathrm{680nm}}-2{\mathrm{445nm}}}$ Original Formula 32 0 1
287 Modified NDVI mNDVI $\frac{{\mathrm{800nm}}-{\mathrm{680nm}}}{{\mathrm{800nm}}+{\mathrm{680nm}}-2{\mathrm{445nm}}}$ Original Formula 32 1 2
288 Modified Simple Ratio mSR $\frac{{\mathrm{800nm}}-{\mathrm{445nm}}}{{\mathrm{680nm}}-{\mathrm{445nm}}}$ Original Formula 32 1 3
289 Simple Ratio 695/800 SR695/800 $\frac{{\mathrm{695nm}}}{{\mathrm{800nm}}}$ Original Formula 32 0 1
290 Simple Ratio 760/695 SR760/695 $\frac{{\mathrm{760nm}}}{{\mathrm{695nm}}}$ Original Formula 32 0 1
291 Simple Ratio 850/710 Datt2 Datt2 $\frac{{\mathrm{850nm}}}{{\mathrm{710nm}}}$ Original Formula 32 0 1
292 Structure Intensive Pigment Index 1 SIPI1 $\frac{{\mathrm{800nm}}-{\mathrm{445nm}}}{{\mathrm{800nm}}-{\mathrm{680nm}}}$ Original Formula 32 2 10
293 Triangular Vegetation Index TVI $0.5\left(120\left({\mathrm{750nm}}-{\mathrm{550nm}}\right)-200\left({\mathrm{670nm}}-{\mathrm{550nm}}\right)\right)$ Original Formula 32 2 8
294 CRI700 CRI700 ${{\mathrm{\left[510\right]}}}^{\left(-1\right)}-{{\mathrm{\left[700\right]}}}^{\left(-1\right)}$ Original Formula 33 0 1
295 Simple Ratio 440/690 Lichtenthaler indices 2 Lic2 $\frac{{\mathrm{440nm}}}{{\mathrm{690nm}}}$ Original Formula 33 2 3
296 Simple Ratio 695/760 Carter2 Ctr2 $\frac{{\mathrm{695nm}}}{{\mathrm{760nm}}}$ Original Formula 33 3 8
297 Single Band 970 SB970 ${\mathrm{970nm}}$ Original Formula 33 2 1
298 Ratio Analysis of Reflectance Spectra A1 RARSa1 $\frac{\frac{{\mathrm{675nm}}}{{\mathrm{700nm}}}}{\frac{{\mathrm{r675}}}{{\mathrm{r700}}}}$ Original Formula 34 2 1
299 Simple Ratio 675/700 SR675/700 $\frac{{\mathrm{675nm}}}{{\mathrm{700nm}}}$ Original Formula 34 2 3
300 Simple Ratio 860/708 SR860/708 $\frac{{\mathrm{860nm}}}{{\mathrm{708nm}}}$ Original Formula 34 0 1

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