Sensor: LandsatTM (Landsat4,5)

LandsatTM (Landsat4,5)

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Basic information

Name	LandsatTM (Landsat4,5)
Full Name	Landsat Thematic Mapper
Bands	7
Spectrum [nm]	450-12500
Spat.Res. [m]	30-120
Inclination	0
Orbit Height	705
Orbit Type	sun-synchronous near-circular
Platform	Landsat
Operator	NASA / USGS
Date of Launch	1984-03-01
status	Still operational! MSS instrument decommissioned
Comment
Usable for Indices	yes
Description

Bands/Channels

Nr.	Name	Start WL	Middle WL	End WL	Sp.Rg.	Spat. Res.	Comment
1	Blue	450	485	520	70	30
2	Green	520	560	600	80	30
3	Red	630	660	690	60	30
4	NIR	760	830	900	140	30
5	SWIRI	1550	1650	1750	200	30
6	Thermal	10400	11450	12500	2100	120
7	SWIRII	2080	2215	2350	270	30

Indices

Nr.	Name	Specific Formula	Calculated	Comment
1	Adjusted transformed soil-adjusted VI	$1.22\frac{\mathrm{NIR}-1.22\mathrm{Red}-0.03}{1.22\mathrm{NIR}+\mathrm{Red}-1.22·0.03+0.08\left(1+{1.22}^2\right)}$	Automatic
2	Aerosol free vegetation index 1600	$\left(\mathrm{NIR}-0.66\frac{\mathrm{SWIRI}}{\mathrm{NIR}+0.66\mathrm{SWIRI}}\right)$	Automatic
3	Aerosol free vegetation index 2100	$\left(\mathrm{NIR}-0.5\frac{\mathrm{SWIRII}}{\mathrm{NIR}+0.56\mathrm{SWIRII}}\right)$	Automatic
4	Alteration	$\frac{\mathrm{SWIRI}}{\mathrm{SWIRII}}$	Automatic
5	Ashburn Vegetation Index	$2.0\mathrm{NIR}-\mathrm{Red}$	Automatic
6	Atmospherically Resistant Vegetation Index	$\frac{\mathrm{NIR}-\mathrm{Red}-y\left(\mathrm{Red}-\mathrm{Blue}\right)}{\mathrm{NIR}+\mathrm{Red}-y\left(\mathrm{Red}-\mathrm{Blue}\right)}$	Automatic
7	Atmospherically Resistant Vegetation Index 2	$-0.18+1.17\left(\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}\right)$	Automatic
8	Blue-wide dynamic range vegetation index	$\frac{0.1\mathrm{NIR}-\mathrm{Blue}}{0.1\mathrm{NIR}+\mathrm{Blue}}$	Automatic
9	Canopy Chlorophyll Content Index	$\frac{\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}}{\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}}$	Automatic
10	Chlorophyll Green	${\left(\frac{\mathrm{NIR}}{\mathrm{Green}}\right)}^{\left(-1\right)}$	Automatic
11	Chlorophyll Index Green	$\frac{\mathrm{NIR}}{\mathrm{Green}}-1$	Automatic
12	Chlorophyll IndexRedEdge	$\frac{\mathrm{NIR}}{\mathrm{Red}}-1$	Automatic
13	Chlorophyll Red-Edge	${\left(\frac{\mathrm{NIR}}{\mathrm{Red}}\right)}^{\left(-1\right)}$	Automatic
14	Chlorophyll vegetation index	$\mathrm{NIR}\frac{\mathrm{Red}}{{\mathrm{Green}}^2}$	Automatic
15	Coloration Index	$\frac{\mathrm{Red}-\mathrm{Blue}}{\mathrm{Red}}$	Automatic
16	Corrected Transformed Vegetation Index	$\frac{\left(\frac{\mathrm{Red}-\mathrm{Green}}{\mathrm{Red}+\mathrm{Green}}\right)+0,5}{\left|\left(\frac{\mathrm{Red}-\mathrm{Green}}{\mathrm{Red}+\mathrm{Green}}\right)+0,5\right|}·\sqrt{\left|\left(\left(\frac{\mathrm{Red}-\mathrm{Green}}{\mathrm{Red}+\mathrm{Green}}\right)\right)+0,5\right|}$	Automatic
17	CRI550	${\mathrm{Blue}}^{\left(-1\right)}-{\mathrm{Green}}^{\left(-1\right)}$	Automatic
18	Difference 678/500	$\mathrm{Red}-\mathrm{Blue}$	Automatic
19	Difference 800/550	$\mathrm{NIR}-\mathrm{Green}$	Automatic
20	Difference 800/680	$\mathrm{NIR}-\mathrm{Red}$	Automatic
21	Difference 833/658	$\mathrm{NIR}-\mathrm{Red}$	Automatic
22	Difference NIR/Green	$\mathrm{NIR}-\mathrm{Green}$	Automatic
23	Differenced Vegetation Index MSS	$2.4\mathrm{NIR}-\mathrm{Red}$	Automatic
24	Disease water stress index	$\frac{\mathrm{NIR}+\mathrm{Green}}{\mathrm{SWIRI}+\mathrm{Red}}$	Automatic
25	Disease-Water Stress Index 5	$\frac{\mathrm{NIR}-\mathrm{Green}}{\mathrm{SWIRI}+\mathrm{Red}}$	Automatic
26	Enhanced Vegetation Index	$2.5\frac{\mathrm{NIR}-\mathrm{Red}}{\left(\mathrm{NIR}+6\mathrm{Red}-7.5\mathrm{Blue}\right)+1}$	Automatic
27	Enhanced Vegetation Index 2	$2.4\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}+1}$	Automatic
28	Enhanced Vegetation Index 2	$2.5\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+2.4\mathrm{Red}+1}$	Automatic
29	Ferric iron, Fe2+	$\frac{\mathrm{SWIRII}}{\mathrm{NIR}}+\frac{\mathrm{Green}}{\mathrm{Red}}$	Automatic
30	Ferric iron, Fe3+	$\frac{\mathrm{Red}}{\mathrm{Green}}$	Automatic
31	Ferric Oxides	$\frac{\mathrm{SWIRI}}{\mathrm{NIR}}$	Automatic
32	Ferrous iron	$\frac{\mathrm{SWIRII}}{\mathrm{NIR}}+\frac{\mathrm{Green}}{\mathrm{Red}}$	Automatic
33	Ferrous Silicates	$\frac{\mathrm{SWIRII}}{\mathrm{SWIRI}}$	Automatic
34	Global Environment Monitoring Index	$\left(\frac{2\left({\mathrm{NIR}}^2-{\mathrm{Red}}^2\right)+1.5\mathrm{NIR}+0.5\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}+0.5}\left(1-0.25\frac{2\left({\mathrm{NIR}}^2-{\mathrm{Red}}^2\right)+1.5\mathrm{NIR}+0.5\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}+0.5}\right)-\frac{\mathrm{Red}-0.125}{1-\mathrm{Red}}\right)$	Automatic
35	Global Vegetation Moisture Index	$\frac{\left(\mathrm{NIR}+0.1\right)-\left(\mathrm{SWIRII}+0.02\right)}{\left(\mathrm{NIR}+0.1\right)+\left(\mathrm{SWIRII}+0.02\right)}$	Automatic
36	Gossan	$\frac{\mathrm{SWIRI}}{\mathrm{Red}}$	Automatic
37	Green atmospherically resistant vegetation index	$\frac{\mathrm{NIR}-\left(\mathrm{Green}-\left(\mathrm{Blue}-\mathrm{Red}\right)\right)}{\mathrm{NIR}-\left(\mathrm{Green}+\left(\mathrm{Blue}-\mathrm{Red}\right)\right)}$	Automatic
38	Green leaf index	$\frac{2\mathrm{Green}-\mathrm{Red}-\mathrm{Blue}}{2\mathrm{Green}+\mathrm{Red}+\mathrm{Blue}}$	Automatic
39	Green Normalized Difference Vegetation Index	$\frac{\mathrm{NIR}-\mathrm{Green}}{\mathrm{NIR}+\mathrm{Green}}$	Automatic
40	Green Optimized Soil Adjusted Vegetation Index	$\frac{\mathrm{NIR}-\mathrm{Green}}{\mathrm{NIR}+\mathrm{Green}+Y}$	Automatic
41	Green Soil Adjusted Vegetation Index	$\frac{\mathrm{NIR}-\mathrm{Green}}{\mathrm{NIR}+\mathrm{Green}+L}\left(1+L\right)$	Automatic
42	Green-Blue NDVI	$\frac{\mathrm{NIR}-\left(\mathrm{Green}+\mathrm{Blue}\right)}{\mathrm{NIR}+\left(\mathrm{Green}+\mathrm{Blue}\right)}$	Automatic
43	Green-Red NDVI	$\frac{\mathrm{NIR}-\left(\mathrm{Green}+\mathrm{Red}\right)}{\mathrm{NIR}+\left(\mathrm{Green}+\mathrm{Red}\right)}$	Automatic
44	Hue	$\arctan \left(\frac{2\mathrm{Red}-\mathrm{Green}-\mathrm{Blue}}{30.5}\left(\mathrm{Green}-\mathrm{Blue}\right)\right)$	Automatic
45	Ideal vegetation index	$\frac{\mathrm{NIR}-b}{a·\mathrm{Red}}$	Automatic
46	Infrared percentage vegetation index	$\frac{\frac{\mathrm{NIR}}{\mathrm{NIR}+\mathrm{Red}}}{2}\left(\left(\frac{\mathrm{Red}-\mathrm{Green}}{\mathrm{Red}+\mathrm{Green}}\right)+1\right)$	Automatic
47	Intensity	$\left(\frac{1}{30.5}\right)\left(\mathrm{Red}+\mathrm{Green}+\mathrm{Blue}\right)$	Automatic
48	Inverse reflectance 550	${\mathrm{Green}}^{\left(-1\right)}$	Automatic
49	Laterite	$\frac{\mathrm{SWIRI}}{\mathrm{SWIRII}}$	Automatic
50	Leaf Water Content Index	$\frac{\log \left(1-\left(\mathrm{NIR}-\mathrm{MIDIR}\right)\right)}{-\log \left(1-\left(\mathrm{NIR}-\mathrm{MIDIR}\right)\right)}$	Automatic
51	Log Ratio	$\log \left(\frac{\mathrm{NIR}}{\mathrm{Red}}\right)$	Automatic
52	mCRIG	$\left({\mathrm{Blue}}^{\left(-1\right)}-{\mathrm{Green}}^{\left(-1\right)}\right)·\mathrm{NIR}$	Automatic
53	mCRIRE	$\left({\mathrm{Blue}}^{\left(-1\right)}-{\mathrm{Red}}^{\left(-1\right)}\right)·\mathrm{NIR}$	Automatic
54	Mid-infrared vegetation index	$\frac{\mathrm{NIR}}{\mathrm{SWIRI}}$	Automatic
55	Modified anthocyanin reflectance index	$\left({\mathrm{Green}}^{\left(-1\right)}-{\mathrm{Red}}^{\left(-1\right)}\right)·\mathrm{NIR}$	Automatic
56	Modified Chlorophyll Absorption in Reflectance Index 1	$1.2\left(2.5\left(\mathrm{NIR}-\mathrm{Red}\right)-1.3\left(\mathrm{NIR}-\mathrm{Green}\right)\right)$	Automatic
57	Modified Chlorophyll Absorption in Reflectance Index 2	$\left(1.5\frac{2.5\left(\mathrm{NIR}-\mathrm{Red}\right)-1.3\left(\mathrm{NIR}-\mathrm{Green}\right)}{\sqrt{{\left(2\mathrm{NIR}+1\right)}^2-\left(6\mathrm{NIR}-5\sqrt{\mathrm{Red}}\right)-0.5}}\right)$	Automatic
58	Modified Simple Ratio 670,800	$\frac{\frac{\mathrm{NIR}}{\mathrm{Red}}-1}{\sqrt{\frac{\mathrm{NIR}}{\mathrm{Red}}+1}}$	Automatic
59	Modified Simple Ratio NIR/RED	$\frac{\left(\frac{\mathrm{NIR}}{\mathrm{Red}}\right)-1}{\sqrt{\left(\frac{\mathrm{NIR}}{\mathrm{Red}}\right)+1}}$	Automatic
60	Modified Soil Adjusted Vegetation Index	$\frac{2\mathrm{NIR}+1-\sqrt{{\left(2\mathrm{NIR}+1\right)}^2-8\left(\mathrm{NIR}-\mathrm{Red}\right)}}{2}$	Automatic
61	Modified Soil Adjusted Vegetation Index hyper	$\left(0.5\right)\left(\left(2\mathrm{NIR}+1\right)-\sqrt{{\left(2\mathrm{NIR}+1\right)}^2-8\left(\mathrm{NIR}-\mathrm{Red}\right)}\right)$	Automatic
62	Modified Triangular Vegetation Index 1	$1.2\left(1.2\left(\mathrm{NIR}-\mathrm{Green}\right)-2.5\left(\mathrm{Red}-\mathrm{Green}\right)\right)$	Automatic
63	Modified Triangular Vegetation Index 2	$\left(1.5\frac{1.2\left(\mathrm{NIR}-\mathrm{Green}\right)-2.5\left(\mathrm{Red}-\mathrm{Green}\right)}{\sqrt{{\left(2\mathrm{NIR}+1\right)}^2-\left(6\mathrm{NIR}-5\sqrt{\mathrm{Red}}\right)-0.5}}\right)$	Automatic
64	Nonlinear vegetation index	$\frac{{\mathrm{NIR}}^2-\mathrm{Red}}{{\mathrm{NIR}}^2+\mathrm{Red}}$	Automatic
65	Norm G	$\frac{\mathrm{Green}}{\mathrm{NIR}+\mathrm{Red}+\mathrm{Green}}$	Automatic
66	Norm NIR	$\frac{\mathrm{NIR}}{\mathrm{NIR}+\mathrm{Red}+\mathrm{Green}}$	Automatic
67	Norm R	$\frac{\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}+\mathrm{Green}}$	Automatic
68	Normalized Difference 550/450	$\frac{\mathrm{Green}-\mathrm{Blue}}{\mathrm{Green}+\mathrm{Blue}}$	Automatic
69	Normalized Difference 550/650	$\frac{\mathrm{Green}-\mathrm{Red}}{\mathrm{Green}+\mathrm{Red}}$	Automatic
70	Normalized Difference 682/553	$\frac{\mathrm{Red}-\mathrm{Green}}{\mathrm{Red}-\mathrm{Green}}$	Automatic
71	Normalized Difference 774/677	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
72	Normalized Difference 780/550	$\frac{\mathrm{NIR}-\mathrm{Green}}{\mathrm{NIR}+\mathrm{Green}}$	Automatic
73	Normalized Difference 782/666	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
74	Normalized Difference 790/670	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
75	Normalized Difference 800/1675	$\frac{\mathrm{NIR}-\mathrm{SWIRI}}{\mathrm{NIR}+\mathrm{SWIRI}}$	Automatic
76	Normalized Difference 800/2170	$\frac{\mathrm{NIR}-\mathrm{SWIRII}}{\mathrm{NIR}+\mathrm{SWIRII}}$	Automatic
77	Normalized Difference 800/470	$\frac{\mathrm{NIR}-\mathrm{Blue}}{\mathrm{NIR}+\mathrm{Blue}}$	Automatic
78	Normalized Difference 800/500	$\frac{\mathrm{NIR}-\mathrm{Blue}}{\mathrm{NIR}+\mathrm{Blue}}$	Automatic
79	Normalized Difference 800/550	$\frac{\mathrm{NIR}-\mathrm{Green}}{\mathrm{NIR}+\mathrm{Green}}$	Automatic
80	Normalized Difference 800/635	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}-\mathrm{Red}}$	Automatic
81	Normalized Difference 800/650	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
82	Normalized Difference 800/675	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
83	Normalized Difference 800/680	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
84	Normalized Difference 819/1600	$\frac{\mathrm{NIR}-\mathrm{SWIRI}}{\mathrm{NIR}+\mathrm{SWIRI}}$	Automatic
85	Normalized Difference 819/1649	$\frac{\mathrm{NIR}-\mathrm{SWIRI}}{\mathrm{NIR}+\mathrm{SWIRI}}$	Automatic
86	Normalized Difference 820/1600	$\frac{\mathrm{NIR}-\mathrm{SWIRI}}{\mathrm{NIR}+\mathrm{SWIRI}}$	Automatic
87	Normalized Difference 827/668	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
88	Normalized Difference 833/1649	$\frac{\mathrm{NIR}-\mathrm{SWIRI}}{\mathrm{NIR}+\mathrm{SWIRI}}$	Automatic
89	Normalized Difference 833/658	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
90	Normalized Difference 860/1640	$\frac{\mathrm{NIR}-\mathrm{SWIRI}}{\mathrm{NIR}+\mathrm{SWIRI}}$	Automatic
91	Normalized Difference 895/675	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
92	Normalized Difference 900/680	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
93	Normalized Difference Green/Red	$\frac{\mathrm{Green}-\mathrm{Red}}{\mathrm{Green}+\mathrm{Red}}$	Automatic
94	Normalized Difference MIR/NIR	$\frac{\mathrm{SWIRII}-\mathrm{NIR}}{\mathrm{SWIRII}+\mathrm{NIR}}$	Automatic
95	Normalized Difference NIR/Blue	$\frac{\mathrm{NIR}-\mathrm{Blue}}{\mathrm{NIR}+\mathrm{Blue}}$	Automatic
96	Normalized Difference NIR/Green	$\frac{\mathrm{NIR}-\mathrm{Green}}{\mathrm{NIR}+\mathrm{Green}}$	Automatic
97	Normalized Difference NIR/MIR	$\frac{\mathrm{NIR}-\mathrm{SWIRII}}{\mathrm{NIR}+\mathrm{SWIRII}}$	Automatic
98	Normalized Difference NIR/Red	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
99	Normalized Difference NIR/Rededge	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
100	Normalized Difference NIR/SWIR	$\frac{\mathrm{NIR}-\mathrm{SWIRII}}{\mathrm{NIR}+\mathrm{SWIRII}}$	Automatic
101	Normalized Difference Red/Green	$\frac{\mathrm{Red}-\mathrm{Green}}{\mathrm{Red}+\mathrm{Green}}$	Automatic
102	Normalized Difference Salinity Index	$\frac{\mathrm{SWIRI}-\mathrm{SWIRII}}{\mathrm{SWIRI}+\mathrm{SWIRII}}$	Automatic
103	Normalized Difference Vegetation Index 690-710	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}$	Automatic
104	Normalized Difference Vegetation Index C	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}\left(1-\frac{\mathrm{SWIRII}-\mathrm{SWIIRmin}}{\mathrm{SWIRmax}-\mathrm{SWIRmin}}\right)$	Automatic
105	Optimized Soil Adjusted Vegetation Index	$\left(1+0.16\right)\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}+0.16}$	Automatic
106	Pan NDVI	$\frac{\mathrm{NIR}-\left(\mathrm{Green}+\mathrm{Red}+\mathrm{Blue}\right)}{\mathrm{NIR}+\left(\mathrm{Green}+\mathrm{Red}+\mathrm{Blue}\right)}$	Automatic
107	Perpendicular Vegetation Index	$\left(\frac{1}{\sqrt{a^2+1}}\right)\left(\mathrm{NIR}-\mathrm{ar}-b\right)$	Automatic
108	Ratio Analysis of Reflectance Spectra A3	$\frac{\frac{\mathrm{Red}}{\mathrm{NIR}}}{\frac{\mathrm{r670}}{\mathrm{r800}}}$	Automatic
109	Ratio Analysis of Reflectance Spectra A4	$\frac{\frac{\mathrm{Red}}{\mathrm{NIR}}}{\frac{\mathrm{r680}}{\mathrm{r800}}}$	Automatic
110	Ratio Analysis of Reflectance Spectra C1	$\frac{\frac{\mathrm{NIR}}{\mathrm{Blue}}}{\frac{\mathrm{r760}}{\mathrm{r500}}}$	Automatic
111	Ratio Analysis of Reflectance Spectra C2	$\frac{\frac{\mathrm{NIR}}{\mathrm{Blue}}}{\frac{\mathrm{r760}}{\mathrm{r470}}}$	Automatic
112	Ratio Analysis of Reflectance Spectra C3	$\frac{\frac{\mathrm{NIR}}{\mathrm{Blue}}}{\frac{\mathrm{r800}}{\mathrm{r500}}}$	Automatic
113	Ratio Analysis of Reflectance Spectra C4	$\frac{\frac{\mathrm{NIR}}{\mathrm{Blue}}}{\frac{\mathrm{r800}}{\mathrm{r470}}}$	Automatic
114	RDVI	$\frac{\mathrm{NIR}-\mathrm{Red}}{{\left(\mathrm{NIR}+\mathrm{Red}\right)}^{0.5}}$	Automatic
115	RDVI2	$\frac{\mathrm{NIR}-\mathrm{Red}}{\sqrt{\mathrm{NIR}+\mathrm{Red}}}$	Automatic
116	Red-Blue NDVI	$\frac{\mathrm{NIR}-\left(\mathrm{Red}+\mathrm{Blue}\right)}{\mathrm{NIR}+\left(\mathrm{Red}+\mathrm{Blue}\right)}$	Automatic
117	Reduced Simple Ratio	$\frac{\mathrm{NIR}}{\mathrm{Red}}·\mathrm{MIRmax}-\frac{\mathrm{SWIRII}}{\mathrm{MIRmax}}-\mathrm{MIRmin}$	Automatic
118	Reflectance at the inflexion point	$\frac{\mathrm{Red}+\mathrm{NIR}}{2}$	Automatic
119	Renormalized Difference Vegetation Index	$\frac{\mathrm{NIR}-\mathrm{Red}}{\sqrt{\mathrm{NIR}+\mathrm{Red}}}$	Automatic
120	SAVImir	$\left(\mathrm{NIR}-\mathrm{SWIRII}\right)\frac{1+L}{\mathrm{NIR}+\mathrm{SWIRII}+L}$	Automatic
121	Shape Index	$\frac{2\mathrm{Red}-\mathrm{Green}-\mathrm{Blue}}{\mathrm{Green}-\mathrm{Blue}}$	Automatic
122	Simple Ratio 1599/819	$\frac{\mathrm{SWIRI}}{\mathrm{NIR}}$	Automatic
123	Simple Ratio 1600/820	$\frac{\mathrm{SWIRI}}{\mathrm{NIR}}$	Automatic
124	Simple Ratio 1650/2218	$\frac{\mathrm{SWIRI}}{\mathrm{SWIRII}}$	Automatic
125	Simple Ratio 1660/550	$\frac{\mathrm{SWIRI}}{\mathrm{Green}}$	Automatic
126	Simple Ratio 1660/680	$\frac{\mathrm{SWIRI}}{\mathrm{Red}}$	Automatic
127	Simple Ratio 450/550	$\frac{\mathrm{Blue}}{\mathrm{Green}}$	Automatic
128	Simple Ratio 450/690	$\frac{\mathrm{Blue}}{\mathrm{Red}}$	Automatic
129	Simple Ratio 520/670	$\frac{\mathrm{Blue}}{\mathrm{Red}}$	Automatic
130	Simple Ratio 520/760	$\frac{\mathrm{Blue}}{\mathrm{NIR}}$	Automatic
131	Simple Ratio 550/670	$\frac{\mathrm{Green}}{\mathrm{Red}}$	Automatic
132	Simple Ratio 550/680	$\frac{\mathrm{Green}}{\mathrm{Red}}$	Automatic
133	Simple Ratio 550/760	$\frac{\mathrm{Green}}{\mathrm{NIR}}$	Automatic
134	Simple Ratio 550/800	$\frac{\mathrm{Green}}{\mathrm{NIR}}$	Automatic
135	Simple Ratio 554/677	$\frac{\mathrm{Green}}{\mathrm{Red}}$	Automatic
136	Simple Ratio 560/658	$\frac{\mathrm{Green}}{\mathrm{Red}}$	Automatic
137	Simple Ratio 672/550	$\frac{\mathrm{Red}}{\mathrm{Green}}$	Automatic
138	Simple Ratio 674/553	$\frac{\mathrm{Red}}{\mathrm{Green}}$	Automatic
139	Simple Ratio 675/555	$\frac{\mathrm{Red}}{\mathrm{Green}}$	Automatic
140	Simple Ratio 683/510	$\frac{\mathrm{Red}}{\mathrm{Blue}}$	Automatic
141	Simple Ratio 760/500	$\frac{\mathrm{NIR}}{\mathrm{Blue}}$	Automatic
142	Simple Ratio 774/677	$\frac{\mathrm{NIR}}{\mathrm{Red}}$	Automatic
143	Simple Ratio 800/1660	$\frac{\mathrm{NIR}}{\mathrm{SWIRI}}$	Automatic
144	Simple Ratio 800/1675	$\frac{\mathrm{NIR}}{\mathrm{SWIRI}}$	Automatic
145	Simple Ratio 800/2170	$\frac{\mathrm{NIR}}{\mathrm{SWIRII}}$	Automatic
146	Simple Ratio 800/470	$\frac{\mathrm{NIR}}{\mathrm{Blue}}$	Automatic
147	Simple Ratio 800/500	$\frac{\mathrm{NIR}}{\mathrm{Blue}}$	Automatic
148	Simple Ratio 800/550	$\frac{\mathrm{NIR}}{\mathrm{Green}}$	Automatic
149	Simple Ratio 800/600	$\frac{\mathrm{NIR}}{\mathrm{Green}}$	Automatic
150	Simple Ratio 800/635	$\frac{\mathrm{NIR}}{\mathrm{Red}}$	Automatic
151	Simple Ratio 800/650	$\frac{\mathrm{NIR}}{\mathrm{Red}}$	Automatic
152	Simple Ratio 800/670	$\frac{\mathrm{NIR}}{\mathrm{Red}}$	Automatic
153	Simple Ratio 800/675	$\frac{\mathrm{NIR}}{\mathrm{Red}}$	Automatic
154	Simple Ratio 800/680	$\frac{\mathrm{NIR}}{\mathrm{Red}}$	Automatic
155	Simple Ratio 801/550	$\frac{\mathrm{NIR}}{\mathrm{Green}}$	Automatic
156	Simple Ratio 801/670	$\frac{\mathrm{NIR}}{\mathrm{Red}}$	Automatic
157	Simple Ratio 810/560	$\frac{\mathrm{NIR}}{\mathrm{Green}}$	Automatic
158	Simple Ratio 833/1649	$\frac{\mathrm{NIR}}{\mathrm{SWIRI}}$	Automatic
159	Simple Ratio 833/658	$\frac{\mathrm{NIR}}{\mathrm{Red}}$	Automatic
160	Simple Ratio 860/550	$\frac{\mathrm{NIR}}{\mathrm{Green}}$	Automatic
161	Simple Ratio 900/680	$\frac{\mathrm{NIR}}{\mathrm{Red}}$	Automatic
162	Simple Ratio MIR/NIR	$\frac{\mathrm{SWIRII}}{\mathrm{NIR}}$	Automatic
163	Simple Ratio MIR/Red	$\frac{\mathrm{SWIRII}}{\mathrm{Red}}$	Automatic
164	Simple Ratio MIR/SWIR	$\frac{\mathrm{SWIRII}}{\mathrm{SWIRII}}$	Automatic
165	Simple Ratio NIR/G	$\frac{\mathrm{NIR}}{\mathrm{Green}}$	Automatic
166	Simple Ratio NIR/MIR	$\frac{\mathrm{NIR}}{\mathrm{SWIRII}}$	Automatic
167	Simple Ratio NIR/RED	$\frac{\mathrm{NIR}}{\mathrm{Red}}$	Automatic
168	Simple Ratio NIR/Rededge	$\frac{\mathrm{NIR}}{\mathrm{Red}}$	Automatic
169	Simple Ratio Red/Blue	$\frac{\mathrm{Red}}{\mathrm{Blue}}$	Automatic
170	Simple Ratio Red/Green	$\frac{\mathrm{Red}}{\mathrm{Green}}$	Automatic
171	Simple Ratio Red/NIR	$\frac{\mathrm{Red}}{\mathrm{NIR}}$	Automatic
172	Simple Ratio SWIRI/NIR	$\frac{\mathrm{SWIRI}}{\mathrm{NIR}}$	Automatic
173	Single Band 1580	$\mathrm{SWIRI}$	Automatic
174	Single Band 1690	$\mathrm{SWIRI}$	Automatic
175	Single Band 2080	$\mathrm{SWIRII}$	Automatic
176	Single Band 2100	$\mathrm{SWIRII}$	Automatic
177	Single Band 2130	$\mathrm{SWIRII}$	Automatic
178	Single Band 2180	$\mathrm{SWIRII}$	Automatic
179	Single Band 2218	$\mathrm{SWIRII}$	Automatic
180	Single Band 2240	$\mathrm{SWIRII}$	Automatic
181	Single Band 2250	$\mathrm{SWIRII}$	Automatic
182	Single Band 2270	$\mathrm{SWIRII}$	Automatic
183	Single Band 2280	$\mathrm{SWIRII}$	Automatic
184	Single Band 2300	$\mathrm{SWIRII}$	Automatic
185	Single Band 2310	$\mathrm{SWIRII}$	Automatic
186	Single Band 2320	$\mathrm{SWIRII}$	Automatic
187	Single Band 2340	$\mathrm{SWIRII}$	Automatic
188	Single Band 2350	$\mathrm{SWIRII}$	Automatic
189	Single Band 460	$\mathrm{Blue}$	Automatic
190	Single Band 470	$\mathrm{Blue}$	Automatic
191	Single Band 495	$\mathrm{Blue}$	Automatic
192	Single Band 550	$\mathrm{Green}$	Automatic
193	Single Band 555	$\mathrm{Green}$	Automatic
194	Single Band 635	$\mathrm{Red}$	Automatic
195	Single Band 640	$\mathrm{Red}$	Automatic
196	Single Band 655	$\mathrm{Red}$	Automatic
197	Single Band 660	$\mathrm{Red}$	Automatic
198	Single Band 670	$\mathrm{Red}$	Automatic
199	Single Band 675	$\mathrm{Red}$	Automatic
200	Single Band 680	$\mathrm{Red}$	Automatic
201	Single Band 801	$\mathrm{NIR}$	Automatic
202	Single Band 850	$\mathrm{NIR}$	Automatic
203	Single Band 885	$\mathrm{NIR}$	Automatic
204	Soil Adjusted Vegetation Index	$\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}+L}\left(1+L\right)$	Automatic
205	Soil and Atmospherically Resistant Vegetation Index	$\left(1+L\right)\frac{\mathrm{NIR}-\left(\mathrm{Rr}-y\left(\mathrm{RB}-\mathrm{Rr}\right)\right)}{\mathrm{NIR}+-\left(\mathrm{Rr}-y\left(\mathrm{RB}-\mathrm{Rr}\right)\right)+L}$	Automatic
206	Soil and Atmospherically Resistant Vegetation Index 2	$2,5\frac{\mathrm{NIR}-\mathrm{Red}}{1+\mathrm{NIR}+6\mathrm{Red}-7,5\mathrm{Blue}}$	Automatic
207	Soil and Atmospherically Resistant Vegetation Index 3	$\left(1+0,5\right)\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}+0,5}$	Automatic
208	Soil Background Line	$\mathrm{NIR}-2.4\mathrm{Red}$	Automatic
209	Soil Composition Index	$\frac{\mathrm{SWIRI}-\mathrm{NIR}}{\mathrm{SWIRI}+\mathrm{NIR}}$	Automatic
210	Soil-adjusted vegetation index 2	$\frac{\mathrm{NIR}}{\mathrm{Red}+\frac{b}{a}}$	Automatic
211	Specific Leaf Area Vegetation Index	$\frac{\mathrm{NIR}}{\mathrm{Red}+\mathrm{SWIRII}}$	Automatic
212	Spectral Polygon Vegetation Index	$0.4\left(3.7\left(\mathrm{NIR}-\mathrm{Red}\right)-1.2\left|\mathrm{Green}-\mathrm{Red}\right|\right)$	Automatic
213	SQRT(IR/R)	$\sqrt{\frac{\mathrm{NIR}}{\mathrm{Red}}}$	Automatic
214	Structure Intensive Pigment Index 2	$\frac{\mathrm{NIR}-\mathrm{Blue}}{\mathrm{NIR}-\mathrm{Red}}$	Automatic
215	Structure Intensive Pigment Index 3	$\frac{\mathrm{NIR}-\mathrm{Blue}}{\mathrm{NIR}-\mathrm{Red}}$	Automatic
216	Tasselled Cap - brightness	$0.3037\mathrm{Blue}+0.2793\mathrm{Green}+0.4743\mathrm{Red}+0.5585\mathrm{NIR}+0.5082\mathrm{SWIRI}+0.1863\mathrm{SWIRII}$	Automatic
217	Tasselled Cap - vegetation	$-0.2848\mathrm{Blue}-0.2435\mathrm{Green}-0.5436\mathrm{Red}+0.7243\mathrm{NIR}+0.0840\mathrm{SWIRI}-0.1800\mathrm{SWIRII}$	Automatic
218	Tasselled Cap - wetness	$0.1509\mathrm{Blue}+0.1973\mathrm{Green}+0.3279\mathrm{Red}+0.3406\mathrm{NIR}-0.7112\mathrm{SWIRI}-0.4572\mathrm{SWIRII}$	Automatic
219	Transformed NDVI	$\sqrt{\frac{\mathrm{NIR}-\mathrm{Red}}{\mathrm{NIR}+\mathrm{Red}}+0.5}$	Automatic
220	Transformed Soil Adjusted Vegetation Index	$\frac{B\left(\mathrm{NIR}-B·\mathrm{Red}-A\right)}{\mathrm{Red}+B\left(\mathrm{NIR}-A\right)+X\left(1+B^2\right)}$	Automatic
221	Transformed Soil Adjusted Vegetation Index 2	$\frac{a·\mathrm{NIR}-a·\mathrm{Red}-b}{\mathrm{Red}+a·\mathrm{NIR}-a·b}$	Automatic
222	Transformed Vegetation Index	$\sqrt{\left(\left(\frac{\mathrm{Red}-\mathrm{Green}}{\mathrm{Red}+\mathrm{Green}}\right)\right)+0,5}$	Automatic
223	Visible Atmospherically Resistant Index Green	$\frac{\mathrm{Green}-\mathrm{Red}}{\mathrm{Green}+\mathrm{Red}-\mathrm{Blue}}$	Automatic
224	Weighted Difference Vegetation Index	$\mathrm{NIR}-a·\mathrm{Red}$	Automatic
225	Wide Dynamic Range Vegetation Index	$\frac{0.1\mathrm{NIR}-\mathrm{Red}}{0.1\mathrm{NIR}+\mathrm{Red}}$	Automatic

Applications

Nr.	Name
1	Agriculture
2	Agriculture - Crop parameters
3	Agriculture - Crop yield
4	Agriculture - Land management
5	Agriculture - Precision Crop Management
6	Fire
7	Forestry
8	Forestry - Boreal
9	Geology
10	Geology - Rock
11	Hyperspectral remote sensing - Red-edge position
12	Metal
13	Metal - Heavy metal contamination
14	Metal - Iron
15	Oil
16	Soil
17	Vegetation
18	Vegetation - Biomass
19	Vegetation - Cellulose
20	Vegetation - Chlorophyll
21	Vegetation - LAI
22	Vegetation - Lignin
23	Vegetation - Nitrogen content
24	Vegetation - PAR
25	Vegetation - Protein
26	Vegetation - Starch
27	Vegetation - Stress
28	Vegetation - Sugar
29	Vegetation - Vitality
30	Vegetation - Water
31	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	Ahamed, T.; Tian, L.; Zhang, Y.; Ting, K. C. - A review of remote sensing methods for biomass feedstock production	2011
4	Aplin, P. - On scales and dynamics in observing the environment	2006
5	Bastiaanssen, Wim G. M.; Molden, David J.; Makin, Ian W. - Remote sensing for irrigated agriculture: examples from research and possible applications	2000
6	Bausch, Walter C. - Soil background effects on reflectance-based crop coefficients for corn	1993
7	Chen, J.M. - Evaluation of vegetation indices and a modified simple ratio for boreal applications	1996
8	Cibula, W. G.; Zetka, E. F.; Rickman, D. L. - Response of thematic mapper bands to plant water stress	1992
9	Clarke, T. R.; Moran, M. S.; Barnes, E. M.; Pinter, P. J., Jr.; Qi, J. - Planar domain indices: a method for measuring a quality of a single component in two-component pixels	2001
10	Crist, Eric P.; Cicone, Richard C. - A Physically-Based Transformation of Thematic Mapper Data---The TM Tasseled Cap	1984
11	Dang, Y. P.; Pringle, M. J.; Schmidt, M.; Dalal, R. C.; Apan, A. - Identifying the spatial variability of soil constraints using multi-year remote sensing	2011
12	Dorigo, W. A.; Zurita-Milla, R.; de Wit, A. J. W.; Brazile, J.; Singh, R.; Schaepman, M. E. - A review on reflective remote sensing and data assimilation techniques for enhanced agroecosystem modeling	2007
13	Escadafal, R.; Belghith, A.; Ben Moussa, H. - Indices spectraux pour la dégradation des milieux naturels en Tunisie aride	1994
14	Ferencz, C.; Bognar, P.; Lichtenberger, J.; Hamar, D.; Tarscai, G.; Timar, G.; Molnar, G.; Pasztor, S.; Steinbach, P.; Szekely, B.; Ferencz, O. E.; Ferencz-Arkos, I. - Crop yield estimation by satellite remote sensing	2004
15	Friedl, M. A.; Schimel, D. S.; Michaelsen, J.; Davis, F. W.; Walker, H. - Estimating grassland biomass and leaf area index using ground and satellite data	1994
16	Gao, Bo-cai - NDWI—A normalized difference water index for remote sensing of vegetation liquid water from space	1996
17	Garson, D. Caraux; Lacaze, B. - Monitoring Leaf Area Index of Mediterranean oak woodlands: Comparison of remotely-sensed estimates with simulations from an ecological process-based model	2003
18	Gitelson, Anatoly A. - Wide Dynamic Range Vegetation Index for Remote Quantification of Biophysical Characteristics of Vegetation	2004
19	Glenn, E. P.; Nagler, P. L.; Huete, A. R. - Vegetation Index Methods for Estimating Evapotranspiration by Remote Sensing	2010
20	González-Sanpedro, MC; Le Toan, T; Moreno, J; Kergoat, L; Rubio, E - Seasonal variations of leaf area index of agricultural fields retrieved from Landsat data	2008
21	Hecker, Jeanna Hyde - Investigation of the Relationship between Chlorophyll Concentration and High Spectral Resolution Data of Phragmites australis in Heavy Metal Contaminated Sites	2003
22	Huete, A. R. - A soil-adjusted vegetation index (SAVI)	1988
23	Huete, A. R.; Hua, G.; Qi, J.; Chehbouni, A.; van Leeuwen, W. J. D. - Normalization of multidirectional red and NIR reflectances with the SAVI	1992
24	Huete, A. R.; Jackson, R. D. - Soil and atmosphere influences on the spectra of partial canopies	1988
25	Huete, A. R.; Liu, H. Q.; Batchily, K.; van Leeuwen, W. - A comparison of vegetation indices over a global set of TM images for EOS-MODIS	1997
26	Hunt Jr, E. Raymond; Rock, Barrett N. - Detection of changes in leaf water content using Near- and Middle-Infrared reflectances	1989
27	Hunt Jr, Raymond E.; Rock, Barrett N.; Nobel, Park S. - Measurement of leaf relative water content by infrared reflectance	1987
28	Hunt Jr., E. Raymond; Daughtry, C. S. T.; Eitel, Jan U. H.; Long, D. S. - Remote Sensing Leaf Chlorophyll Content Using a Visible Band Index	2011
29	Hüttich, Christian; Gessner, Ursula; Herold, Martin; Strohbach, Ben; Schmidt, Michael; Keil, Manfred; Dech, Stefan - On the Suitability of MODIS Time Series Metrics to Map Vegetation Types in Dry Savanna Ecosystems: A Case Study in the Kalahari of NE Namibia	2009
30	Jackson, Ray D.; Huete, Alfredo R. - Interpreting vegetation indices	1991
31	Jacobsen, Anne; Broge, Niels H.; Hansen, Birger U. - Monitoring wheat fields and grasslands using spectral reflectance data	1995
32	Karnieli, A.; Kaufman, Y. J.; Remer, L.; Wald, A. - AFRI - aerosol free vegetation index	2001
33	Kaufman, Y. J.;Tanre, D. - Atmospherically resistant vegetation index (ARVI) for EOS-MODIS	1992
34	Kauth, R. J. and Thomas, G. S. - The tasselled cap - a graphic description of the spectraltemporal development of agricultural crops as seen by Landsat	1976
35	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
36	Kooistra, L.; Salas, E. A. L.; Clevers, J. G. P. W.; Wehrens, R.; Leuven, R. S. E. W.; Nienhuis, P. H.; Buydens, L. M. C. - Exploring field vegetation reflectance as an indicator of soil contamination in river floodplains	2004
37	Lymburner, L.; Beggs, PJ.; Jacobson, CR. - Estimation of canopy-average surface-specific leaf area using Landsat TM data	2000
38	Malthus, Tim J.; Andrieu, Bruno; Danson, F. Mark; Jaggard, Keith W.; Steven, Michael D. - Candidate high spectral resolution infrared indices for crop cover	1993
39	Metternicht, G. - Vegetation indices derived from high-resolution airborne videography for precision crop management	2003
40	Moran, M. S.; Inoue, Y.; Barnes, E. M. - Opportunities and limitations for image-based remote sensing in precision crop management	1997
41	Nagler, P. L; Daughtry, C. S. T.; Goward, S. N. - Plant Litter and Soil Reflectance	2000
42	Pinder, J. E.; McLeod, K. W. - Indications of relative drought stress in longleaf pine from Thematic Mapper data	1999
43	Rock, B. N.; Vogelmann, J. E.; Williams, D. L.; Vogehnann, A. F.; Hoshizaki, T. - Remote detection of forest damage	1986
44	Rondeaux, Geneviève; Steven, Michael; Baret, Frédéric - Optimization of soil-adjusted vegetation indices	1996
45	Schlerf, M.; Atzberger, C.; Hill, J. - Remote sensing of forest biophysical variables using HyMap imaging spectrometer data	2005
46	Schmidt, H.; Karnieli, A. - Sensitivity of vegetation indices to substrate brightness in hyper-arid environment: The Makhtesh Ramon Crater (Israel) case study	2001
47	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
48	Underwood, Emma; Ustin, Susan; DiPietro, Deanne - Mapping nonnative plants using hyperspectral imagery	2003
49	Vogelmann, J.E.; Rock, B.N.; Moss, D.M. - Red Edge Spectral Measurements from Sugar Maple Leaves	1993
50	Wang, Fu-min; Huang, Jing-feng; Tang, Yan-lin; Wang, Xiu-zhen - New Vegetation Index and Its Application in Estimating Leaf Area Index of Rice	2007
51	Wilson, Emily Hoffhine; Sader, Steven A. - Detection of forest harvest type using multiple dates of Landsat TM imagery	2002
52	Xie, H.; Tian, Y. Q.; Granillo, J. A.; Keller, G. R. - Suitable remote sensing method and data for mapping and measuring active crop fields	2007
53	Zarco-Tejada P.J.; Miller J.R. - Land Cover Mapping at BOREAS using red edge spectral parameters from CASI imagery	1999
54	Zarco-Tejada P.J.; Sepulcre-Cantó, G. - REMOTE SENSING OF VEGETATION BIOPHYSICAL PARAMETERS FOR DETECTING STRESS CONDITION AND LAND COVER CHANGES	2007

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Visualisation of Indices

Sensor:

Indices:

Adjusted transformed soil-adjusted VI

Aerosol free vegetation index 1600

Aerosol free vegetation index 2100

Alteration

Ashburn Vegetation Index

Atmospherically Resistant Vegetation Index

Atmospherically Resistant Vegetation Index 2

Blue-wide dynamic range vegetation index

Canopy Chlorophyll Content Index

Chlorophyll Green

Chlorophyll Index Green

Chlorophyll IndexRedEdge

Chlorophyll Red-Edge

Chlorophyll vegetation index

Coloration Index

Corrected Transformed Vegetation Index

CRI550

Difference 678/500

Difference 800/550

Difference 800/680

Difference 833/658

Difference NIR/Green

Differenced Vegetation Index MSS

Disease water stress index

Disease-Water Stress Index 5

Enhanced Vegetation Index

Enhanced Vegetation Index 2

Enhanced Vegetation Index 2

Ferric iron, Fe2+

Ferric iron, Fe3+

Ferric Oxides

Ferrous iron

Ferrous Silicates

Global Environment Monitoring Index

Global Vegetation Moisture Index

Gossan

Green atmospherically resistant vegetation index

Green leaf index

Green Normalized Difference Vegetation Index

Green Optimized Soil Adjusted Vegetation Index

Green Soil Adjusted Vegetation Index

Green-Blue NDVI

Green-Red NDVI

Hue

Ideal vegetation index

Infrared percentage vegetation index

Intensity

Inverse reflectance 550

Laterite

Leaf Water Content Index

Log Ratio

mCRIG

mCRIRE

Mid-infrared vegetation index

Modified anthocyanin 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 550/450

Normalized Difference 550/650

Normalized Difference 682/553

Normalized Difference 774/677

Normalized Difference 780/550

Normalized Difference 782/666

Normalized Difference 790/670

Normalized Difference 800/1675

Normalized Difference 800/2170

Normalized Difference 800/470

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 819/1600

Normalized Difference 819/1649

Normalized Difference 820/1600

Normalized Difference 827/668

Normalized Difference 833/1649

Normalized Difference 833/658

Normalized Difference 860/1640

Normalized Difference 895/675

Normalized Difference 900/680

Normalized Difference Green/Red

Normalized Difference MIR/NIR

Normalized Difference NIR/Blue

Normalized Difference NIR/Green

Normalized Difference NIR/MIR

Normalized Difference NIR/Red

Normalized Difference NIR/Rededge

Normalized Difference NIR/SWIR

Normalized Difference Red/Green

Normalized Difference Salinity Index

Normalized Difference Vegetation Index 690-710

Normalized Difference Vegetation Index C

Optimized Soil Adjusted Vegetation Index

Pan NDVI

Perpendicular Vegetation Index

Ratio Analysis of Reflectance Spectra A3

Ratio Analysis of Reflectance Spectra A4

Ratio Analysis of Reflectance Spectra C1

Ratio Analysis of Reflectance Spectra C2

Ratio Analysis of Reflectance Spectra C3

Ratio Analysis of Reflectance Spectra C4

RDVI

RDVI2

Red-Blue NDVI

Reduced Simple Ratio

Reflectance at the inflexion point

Renormalized Difference Vegetation Index

SAVImir

Shape Index

Simple Ratio 1599/819

Simple Ratio 1600/820

Simple Ratio 1650/2218

Simple Ratio 1660/550

Simple Ratio 1660/680

Simple Ratio 450/550

Simple Ratio 450/690

Simple Ratio 520/670

Simple Ratio 520/760

Simple Ratio 550/670

Simple Ratio 550/680

Simple Ratio 550/760

Simple Ratio 550/800

Simple Ratio 554/677

Simple Ratio 560/658

Simple Ratio 672/550

Simple Ratio 674/553

Simple Ratio 675/555

Simple Ratio 683/510

Simple Ratio 760/500

Simple Ratio 774/677

Simple Ratio 800/1660

Simple Ratio 800/1675

Simple Ratio 800/2170

Simple Ratio 800/470

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 801/550

Simple Ratio 801/670

Simple Ratio 810/560

Simple Ratio 833/1649

Simple Ratio 833/658

Simple Ratio 860/550

Simple Ratio 900/680

Simple Ratio MIR/NIR

Simple Ratio MIR/Red

Simple Ratio MIR/SWIR

Simple Ratio NIR/G

Simple Ratio NIR/MIR

Simple Ratio NIR/RED

Simple Ratio NIR/Rededge

Simple Ratio Red/Blue

Simple Ratio Red/Green

Simple Ratio Red/NIR

Simple Ratio SWIRI/NIR

Single Band 1580

Single Band 1690

Single Band 2080

Single Band 2100

Single Band 2130

Single Band 2180

Single Band 2218

Single Band 2240

Single Band 2250

Single Band 2270

Single Band 2280

Single Band 2300

Single Band 2310

Single Band 2320

Single Band 2340

Single Band 2350

Single Band 460

Single Band 470

Single Band 495

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 801

Single Band 850

Single Band 885

Soil Adjusted Vegetation Index

Soil and Atmospherically Resistant Vegetation Index

Soil and Atmospherically Resistant Vegetation Index 2

Soil and Atmospherically Resistant Vegetation Index 3

Soil Background Line

Soil Composition Index

Soil-adjusted vegetation index 2

Specific Leaf Area Vegetation Index

Spectral Polygon Vegetation Index

SQRT(IR/R)

Structure Intensive Pigment Index 2

Structure Intensive Pigment Index 3

Tasselled Cap - brightness

Tasselled Cap - vegetation

Tasselled Cap - wetness

Transformed NDVI

Transformed Soil Adjusted Vegetation Index

Transformed Soil Adjusted Vegetation Index 2

Transformed Vegetation Index

Visible Atmospherically Resistant Index Green

Weighted Difference Vegetation Index

Wide Dynamic Range Vegetation Index

List of Sensors