Sensor: GOMOS

GOMOS

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Basic information

Name	GOMOS
Full Name	Global Ozone Monitoring by Occultation of Stars
Bands	5
Spectrum [nm]	250-952
Spat.Res. [m]	0-0
Inclination	0
Orbit Height	783
Orbit Type	Sun Synchronous
Platform	ENVISAT
Operator	ESA
Date of Launch	2002-03-01
status	Out of service since 2013
Comment
Usable for Indices	yes
Description

Bands/Channels

Nr.	Name	Start WL	Middle WL	End WL	Sp.Rg.	Spat. Res.	Comment
1	UV-VIS	250	462.5	675	425	0
2	NIR1	756	764.5	773	17	0
3	NIR2	926	939	952	26	0
4	Blue phonometer	470	495	520	50	0
5	Red phonometer	620	660	700	80	0

Indices

Nr.	Name	Specific Formula	Calculated	Comment
1	Adjusted transformed soil-adjusted VI	$1.22\frac{\mathrm{NIR2}-1.22\mathrm{Red\_phonometer}-0.03}{1.22\mathrm{NIR2}+\mathrm{Red\_phonometer}-1.22·0.03+0.08\left(1+{1.22}^2\right)}$	Automatic
2	Anthocyanin reflectance index	$\frac{1}{\mathrm{UV\_VIS}}-\frac{1}{\mathrm{Red\_phonometer}}$	Automatic
3	Ashburn Vegetation Index	$2.0\mathrm{NIR2}-\mathrm{Red\_phonometer}$	Automatic
4	Atmospherically Resistant Vegetation Index	$\frac{\mathrm{NIR2}-\mathrm{Red\_phonometer}-y\left(\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}\right)}{\mathrm{NIR2}+\mathrm{Red\_phonometer}-y\left(\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}\right)}$	Automatic
5	Atmospherically Resistant Vegetation Index 2	$-0.18+1.17\left(\frac{\mathrm{NIR2}-\mathrm{Red\_phonometer}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}}\right)$	Automatic
6	Blue-wide dynamic range vegetation index	$\frac{0.1\mathrm{NIR2}-\mathrm{UV\_VIS}}{0.1\mathrm{NIR2}+\mathrm{UV\_VIS}}$	Automatic
7	Browning Reflectance Index	$\frac{\frac{1}{\mathrm{UV\_VIS}}-\frac{1}{\mathrm{Red\_phonometer}}}{\mathrm{NIR2}}$	Automatic
8	Canopy Chlorophyll Content Index	$\frac{\frac{\mathrm{NIR2}-\mathrm{Red\_phonometer}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}}}{\frac{\mathrm{NIR2}-\mathrm{Red}}{\mathrm{NIR2}+\mathrm{Red}}}$	Automatic
9	Chlorophyll Green	${\left(\frac{\mathrm{NIR1}}{\mathrm{UV\_VIS}}\right)}^{\left(-1\right)}$	Automatic
10	Chlorophyll Index Green	$\frac{\mathrm{NIR2}}{\mathrm{UV\_VIS}}-1$	Automatic
11	Chlorophyll IndexRedEdge	$\frac{\mathrm{NIR2}}{\mathrm{Red\_phonometer}}-1$	Automatic
12	Chlorophyll Red-Edge	${\left(\frac{\mathrm{NIR1}}{\mathrm{Red\_phonometer}}\right)}^{\left(-1\right)}$	Automatic
13	Chlorophyll vegetation index	$\mathrm{NIR2}\frac{\mathrm{Red\_phonometer}}{{\mathrm{UV\_VIS}}^2}$	Automatic
14	Coloration Index	$\frac{\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}}$	Automatic
15	Corrected Transformed Vegetation Index	$\frac{\left(\frac{\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}}\right)+0,5}{\left|\left(\frac{\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}}\right)+0,5\right|}·\sqrt{\left|\left(\left(\frac{\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}}\right)\right)+0,5\right|}$	Automatic
16	CRI550	${\mathrm{Blue\_phonometer}}^{\left(-1\right)}-{\mathrm{UV\_VIS}}^{\left(-1\right)}$	Automatic
17	CRI700	${\mathrm{Blue\_phonometer}}^{\left(-1\right)}-{\mathrm{Red\_phonometer}}^{\left(-1\right)}$	Automatic
18	Difference 678/500	$\mathrm{Red\_phonometer}-\mathrm{Blue\_phonometer}$	Automatic
19	Difference NIR/Green	$\mathrm{NIR2}-\mathrm{UV\_VIS}$	Automatic
20	Differenced Vegetation Index MSS	$2.4\mathrm{NIR2}-\mathrm{Red\_phonometer}$	Automatic
21	Enhanced Vegetation Index	$2.5\frac{\mathrm{NIR2}-\mathrm{Red\_phonometer}}{\left(\mathrm{NIR2}+6\mathrm{Red\_phonometer}-7.5\mathrm{UV\_VIS}\right)+1}$	Automatic
22	Enhanced Vegetation Index 2	$2.4\frac{\mathrm{NIR2}-\mathrm{Red\_phonometer}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}+1}$	Automatic
23	Enhanced Vegetation Index 2	$2.5\frac{\mathrm{NIR2}-\mathrm{Red\_phonometer}}{\mathrm{NIR2}+2.4\mathrm{Red\_phonometer}+1}$	Automatic
24	Ferric iron, Fe3+	$\frac{\mathrm{Red\_phonometer}}{\mathrm{UV\_VIS}}$	Automatic
25	Global Environment Monitoring Index	$\left(\frac{2\left({\mathrm{NIR2}}^2-{\mathrm{Red\_phonometer}}^2\right)+1.5\mathrm{NIR2}+0.5\mathrm{Red\_phonometer}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}+0.5}\left(1-0.25\frac{2\left({\mathrm{NIR2}}^2-{\mathrm{Red\_phonometer}}^2\right)+1.5\mathrm{NIR2}+0.5\mathrm{Red\_phonometer}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}+0.5}\right)-\frac{\mathrm{Red\_phonometer}-0.125}{1-\mathrm{Red\_phonometer}}\right)$	Automatic
26	Green Normalized Difference Vegetation Index	$\frac{\mathrm{NIR2}-\mathrm{UV\_VIS}}{\mathrm{NIR2}+\mathrm{UV\_VIS}}$	Automatic
27	Green Optimized Soil Adjusted Vegetation Index	$\frac{\mathrm{NIR2}-\mathrm{UV\_VIS}}{\mathrm{NIR2}+\mathrm{UV\_VIS}+Y}$	Automatic
28	Green Soil Adjusted Vegetation Index	$\frac{\mathrm{NIR2}-\mathrm{UV\_VIS}}{\mathrm{NIR2}+\mathrm{UV\_VIS}+L}\left(1+L\right)$	Automatic
29	Green-Red NDVI	$\frac{\mathrm{NIR2}-\left(\mathrm{UV\_VIS}+\mathrm{Red\_phonometer}\right)}{\mathrm{NIR2}+\left(\mathrm{UV\_VIS}+\mathrm{Red\_phonometer}\right)}$	Automatic
30	Ideal vegetation index	$\frac{\mathrm{NIR2}-b}{a·\mathrm{Red\_phonometer}}$	Automatic
31	Infrared percentage vegetation index	$\frac{\frac{\mathrm{NIR2}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}}}{2}\left(\left(\frac{\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}}\right)+1\right)$	Automatic
32	Inverse reflectance 550	${\mathrm{UV\_VIS}}^{\left(-1\right)}$	Automatic
33	Inverse reflectance 700	${\mathrm{Red\_phonometer}}^{\left(-1\right)}$	Automatic
34	Log Ratio	$\log \left(\frac{\mathrm{NIR2}}{\mathrm{Red\_phonometer}}\right)$	Automatic
35	mCRIG	$\left({\mathrm{Blue\_phonometer}}^{\left(-1\right)}-{\mathrm{UV\_VIS}}^{\left(-1\right)}\right)·\mathrm{NIR2}$	Automatic
36	mCRIRE	$\left({\mathrm{Blue\_phonometer}}^{\left(-1\right)}-{\mathrm{Red\_phonometer}}^{\left(-1\right)}\right)·\mathrm{NIR2}$	Automatic
37	Misra Green Vegetation Index	$-0.386\mathrm{UV\_VIS}-0.530\mathrm{Red\_phonometer}+0.535\mathrm{NIR1}+0.532\mathrm{NIR2}$	Automatic
38	Misra Non Such Index	$0.404\mathrm{UV\_VIS}-0.039\mathrm{Red\_phonometer}-0.505\mathrm{NIR1}+0.762\mathrm{NIR2}$	Automatic
39	Misra Soil Brightness Index	$0.406\mathrm{UV\_VIS}+0.600\mathrm{Red\_phonometer}+0.645\mathrm{NIR1}+0.243\mathrm{NIR2}$	Automatic
40	Misra Yellow Vegetation Index	$0.723\mathrm{UV\_VIS}-0.597\mathrm{Red\_phonometer}+0.206\mathrm{NIR1}-0.278\mathrm{NIR2}$	Automatic
41	Modified anthocyanin reflectance index	$\left({\mathrm{UV\_VIS}}^{\left(-1\right)}-{\mathrm{Red\_phonometer}}^{\left(-1\right)}\right)·\mathrm{NIR2}$	Automatic
42	Modified Simple Ratio NIR/RED	$\frac{\left(\frac{\mathrm{NIR2}}{\mathrm{Red\_phonometer}}\right)-1}{\sqrt{\left(\frac{\mathrm{NIR2}}{\mathrm{Red\_phonometer}}\right)+1}}$	Automatic
43	Modified Soil Adjusted Vegetation Index	$\frac{2\mathrm{NIR2}+1-\sqrt{{\left(2\mathrm{NIR2}+1\right)}^2-8\left(\mathrm{NIR2}-\mathrm{Red\_phonometer}\right)}}{2}$	Automatic
44	Nonlinear vegetation index	$\frac{{\mathrm{NIR2}}^2-\mathrm{Red\_phonometer}}{{\mathrm{NIR2}}^2+\mathrm{Red\_phonometer}}$	Automatic
45	Norm G	$\frac{\mathrm{UV\_VIS}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}}$	Automatic
46	Norm NIR	$\frac{\mathrm{NIR2}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}}$	Automatic
47	Norm R	$\frac{\mathrm{Red\_phonometer}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}}$	Automatic
48	Normalized Difference 550/650	$\frac{\mathrm{UV\_VIS}-\mathrm{Red\_phonometer}}{\mathrm{UV\_VIS}+\mathrm{Red\_phonometer}}$	Automatic
49	Normalized Difference 680/430	$\frac{\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}}$	Automatic
50	Normalized Difference 682/553	$\frac{\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}}$	Automatic
51	Normalized Difference Green/Red	$\frac{\mathrm{UV\_VIS}-\mathrm{Red\_phonometer}}{\mathrm{UV\_VIS}+\mathrm{Red\_phonometer}}$	Automatic
52	Normalized Difference NIR/Blue	$\frac{\mathrm{NIR2}-\mathrm{UV\_VIS}}{\mathrm{NIR2}+\mathrm{UV\_VIS}}$	Automatic
53	Normalized Difference NIR/Green	$\frac{\mathrm{NIR2}-\mathrm{UV\_VIS}}{\mathrm{NIR2}+\mathrm{UV\_VIS}}$	Automatic
54	Normalized Difference NIR/Rededge	$\frac{\mathrm{NIR2}-\mathrm{Red\_phonometer}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}}$	Automatic
55	Normalized Difference Red/Green	$\frac{\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}}$	Automatic
56	Normalized Difference Vegetation Index 690-710	$\frac{\mathrm{NIR2}-\mathrm{Red\_phonometer}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}}$	Automatic
57	Ratio Analysis of Reflectance Spectra C1	$\frac{\frac{\mathrm{NIR1}}{\mathrm{Blue\_phonometer}}}{\frac{\mathrm{r760}}{\mathrm{r500}}}$	Automatic
58	Ratio Analysis of Reflectance Spectra C2	$\frac{\frac{\mathrm{NIR1}}{\mathrm{UV\_VIS}}}{\frac{\mathrm{r760}}{\mathrm{r470}}}$	Automatic
59	Red-Blue NDVI	$\frac{\mathrm{NIR2}-\left(\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}\right)}{\mathrm{NIR2}+\left(\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}\right)}$	Automatic
60	Simple Ratio 430/680	$\frac{\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}}$	Automatic
61	Simple Ratio 440/690	$\frac{\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}}$	Automatic
62	Simple Ratio 450/690	$\frac{\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}}$	Automatic
63	Simple Ratio 520/420	$\frac{\mathrm{Blue\_phonometer}}{\mathrm{UV\_VIS}}$	Automatic
64	Simple Ratio 520/670	$\frac{\mathrm{Blue\_phonometer}}{\mathrm{Red\_phonometer}}$	Automatic
65	Simple Ratio 520/760	$\frac{\mathrm{Blue\_phonometer}}{\mathrm{NIR1}}$	Automatic
66	Simple Ratio 550/670	$\frac{\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}}$	Automatic
67	Simple Ratio 550/680	$\frac{\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}}$	Automatic
68	Simple Ratio 550/760	$\frac{\mathrm{UV\_VIS}}{\mathrm{NIR1}}$	Automatic
69	Simple Ratio 554/677	$\frac{\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}}$	Automatic
70	Simple Ratio 560/658	$\frac{\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}}$	Automatic
71	Simple Ratio 605/670	$\frac{\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}}$	Automatic
72	Simple Ratio 605/760	$\frac{\mathrm{UV\_VIS}}{\mathrm{NIR1}}$	Automatic
73	Simple Ratio 672/550	$\frac{\mathrm{Red\_phonometer}}{\mathrm{UV\_VIS}}$	Automatic
74	Simple Ratio 674/553	$\frac{\mathrm{Red\_phonometer}}{\mathrm{UV\_VIS}}$	Automatic
75	Simple Ratio 675/555	$\frac{\mathrm{Red\_phonometer}}{\mathrm{UV\_VIS}}$	Automatic
76	Simple Ratio 683/510	$\frac{\mathrm{Red\_phonometer}}{\mathrm{Blue\_phonometer}}$	Automatic
77	Simple Ratio 695/420	$\frac{\mathrm{Red\_phonometer}}{\mathrm{UV\_VIS}}$	Automatic
78	Simple Ratio 695/760	$\frac{\mathrm{Red\_phonometer}}{\mathrm{NIR1}}$	Automatic
79	Simple Ratio 700	$\frac{1}{\mathrm{Red\_phonometer}}$	Automatic
80	Simple Ratio 760/500	$\frac{\mathrm{NIR1}}{\mathrm{Blue\_phonometer}}$	Automatic
81	Simple Ratio 760/695	$\frac{\mathrm{NIR1}}{\mathrm{Red\_phonometer}}$	Automatic
82	Simple Ratio NIR/700-715	$\frac{\mathrm{NIR2}}{\mathrm{Red\_phonometer}}$	Automatic
83	Simple Ratio NIR/G	$\frac{\mathrm{NIR2}}{\mathrm{UV\_VIS}}$	Automatic
84	Simple Ratio NIR/RED	$\frac{\mathrm{NIR2}}{\mathrm{Red\_phonometer}}$	Automatic
85	Simple Ratio NIR/Rededge	$\frac{\mathrm{NIR2}}{\mathrm{Red\_phonometer}}$	Automatic
86	Simple Ratio Pigment Index	$\frac{\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}}$	Automatic
87	Simple Ratio Red/Blue	$\frac{\mathrm{Red\_phonometer}}{\mathrm{UV\_VIS}}$	Automatic
88	Simple Ratio Red/Green	$\frac{\mathrm{Red\_phonometer}}{\mathrm{UV\_VIS}}$	Automatic
89	Simple Ratio Red/NIR	$\frac{\mathrm{Red\_phonometer}}{\mathrm{NIR2}}$	Automatic
90	Single Band 430	$\mathrm{UV\_VIS}$	Automatic
91	Single Band 460	$\mathrm{UV\_VIS}$	Automatic
92	Single Band 470	$\mathrm{UV\_VIS}$	Automatic
93	Single Band 495	$\mathrm{Blue\_phonometer}$	Automatic
94	Single Band 550	$\mathrm{UV\_VIS}$	Automatic
95	Single Band 555	$\mathrm{UV\_VIS}$	Automatic
96	Single Band 635	$\mathrm{Red\_phonometer}$	Automatic
97	Single Band 640	$\mathrm{Red\_phonometer}$	Automatic
98	Single Band 655	$\mathrm{Red\_phonometer}$	Automatic
99	Single Band 660	$\mathrm{Red\_phonometer}$	Automatic
100	Single Band 670	$\mathrm{Red\_phonometer}$	Automatic
101	Single Band 675	$\mathrm{Red\_phonometer}$	Automatic
102	Single Band 680	$\mathrm{Red\_phonometer}$	Automatic
103	Single Band 700	$\mathrm{Red\_phonometer}$	Automatic
104	Single Band 930	$\mathrm{NIR2}$	Automatic
105	Soil and Atmospherically Resistant Vegetation Index 2	$2,5\frac{\mathrm{NIR2}-\mathrm{Red\_phonometer}}{1+\mathrm{NIR2}+6\mathrm{Red\_phonometer}-7,5\mathrm{UV\_VIS}}$	Automatic
106	Soil Background Line	$\mathrm{NIR2}-2.4\mathrm{Red\_phonometer}$	Automatic
107	Soil-adjusted vegetation index 2	$\frac{\mathrm{NIR2}}{\mathrm{Red\_phonometer}+\frac{b}{a}}$	Automatic
108	SQRT(IR/R)	$\sqrt{\frac{\mathrm{NIR2}}{\mathrm{Red\_phonometer}}}$	Automatic
109	Tasselled Cap - Green Vegetation Index MSS	$-0.283\mathrm{UV\_VIS}-0.660\mathrm{Red\_phonometer}+0.577\mathrm{NIR1}+0.388\mathrm{NIR2}$	Automatic
110	Tasselled Cap - Non Such Index MSS	$-0.016\mathrm{UV\_VIS}+0.131\mathrm{Red\_phonometer}-0.425\mathrm{NIR1}+0.882\mathrm{NIR2}$	Automatic
111	Tasselled Cap - Soil Brightness Index MSS	$0.332\mathrm{UV\_VIS}+0.603\mathrm{Red\_phonometer}+0.675\mathrm{NIR1}+0.262\mathrm{NIR2}$	Automatic
112	Tasselled Cap - Yellow Vegetation Index MSS	$-0.899\mathrm{UV\_VIS}+0.428\mathrm{Red\_phonometer}+0.076\mathrm{NIR1}-0.041\mathrm{NIR2}$	Automatic
113	Transformed NDVI	$\sqrt{\frac{\mathrm{NIR2}-\mathrm{Red\_phonometer}}{\mathrm{NIR2}+\mathrm{Red\_phonometer}}+0.5}$	Automatic
114	Transformed Soil Adjusted Vegetation Index	$\frac{B\left(\mathrm{NIR2}-B·\mathrm{Red\_phonometer}-A\right)}{\mathrm{Red\_phonometer}+B\left(\mathrm{NIR2}-A\right)+X\left(1+B^2\right)}$	Automatic
115	Transformed Soil Adjusted Vegetation Index 2	$\frac{a·\mathrm{NIR2}-a·\mathrm{Red\_phonometer}-b}{\mathrm{Red\_phonometer}+a·\mathrm{NIR2}-a·b}$	Automatic
116	Transformed Vegetation Index	$\sqrt{\left(\left(\frac{\mathrm{Red\_phonometer}-\mathrm{UV\_VIS}}{\mathrm{Red\_phonometer}+\mathrm{UV\_VIS}}\right)\right)+0,5}$	Automatic
117	Weighted Difference Vegetation Index	$\mathrm{NIR2}-a·\mathrm{Red\_phonometer}$	Automatic
118	Wide Dynamic Range Vegetation Index	$\frac{0.1\mathrm{NIR2}-\mathrm{Red\_phonometer}}{0.1\mathrm{NIR2}+\mathrm{Red\_phonometer}}$	Automatic

Applications

Nr.	Name
1	Agriculture
2	Agriculture - Precision Crop Management
3	Geology
4	Hyperspectral remote sensing - Red-edge position
5	Metal
6	Metal - Heavy metal contamination
7	Metal - Iron
8	Oil
9	Soil
10	Vegetation
11	Vegetation - Biomass
12	Vegetation - Cellulose
13	Vegetation - Chlorophyll
14	Vegetation - LAI
15	Vegetation - Lignin
16	Vegetation - Starch
17	Vegetation - Stress
18	Vegetation - Vitality
19	Vegetation - Water
20	Vegetation - Water stress

References

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Visualisation of Indices

Sensor:

Indices:

Adjusted transformed soil-adjusted VI

Anthocyanin reflectance index

Ashburn Vegetation Index

Atmospherically Resistant Vegetation Index

Atmospherically Resistant Vegetation Index 2

Blue-wide dynamic range vegetation index

Browning Reflectance 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

CRI700

Difference 678/500

Difference NIR/Green

Differenced Vegetation Index MSS

Enhanced Vegetation Index

Enhanced Vegetation Index 2

Enhanced Vegetation Index 2

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

Log Ratio

mCRIG

mCRIRE

Misra Green Vegetation Index

Misra Non Such Index

Misra Soil Brightness Index

Misra Yellow Vegetation Index

Modified anthocyanin reflectance index

Modified Simple Ratio NIR/RED

Modified Soil Adjusted Vegetation Index

Nonlinear vegetation index

Norm G

Norm NIR

Norm R

Normalized Difference 550/650

Normalized Difference 680/430

Normalized Difference 682/553

Normalized Difference Green/Red

Normalized Difference NIR/Blue

Normalized Difference NIR/Green

Normalized Difference NIR/Rededge

Normalized Difference Red/Green

Normalized Difference Vegetation Index 690-710

Ratio Analysis of Reflectance Spectra C1

Ratio Analysis of Reflectance Spectra C2

Red-Blue NDVI

Simple Ratio 430/680

Simple Ratio 440/690

Simple Ratio 450/690

Simple Ratio 520/420

Simple Ratio 520/670

Simple Ratio 520/760

Simple Ratio 550/670

Simple Ratio 550/680

Simple Ratio 550/760

Simple Ratio 554/677

Simple Ratio 560/658

Simple Ratio 605/670

Simple Ratio 605/760

Simple Ratio 672/550

Simple Ratio 674/553

Simple Ratio 675/555

Simple Ratio 683/510

Simple Ratio 695/420

Simple Ratio 695/760

Simple Ratio 700

Simple Ratio 760/500

Simple Ratio 760/695

Simple Ratio NIR/700-715

Simple Ratio NIR/G

Simple Ratio NIR/RED

Simple Ratio NIR/Rededge

Simple Ratio Pigment Index

Simple Ratio Red/Blue

Simple Ratio Red/Green

Simple Ratio Red/NIR

Single Band 430

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 700

Single Band 930

Soil and Atmospherically Resistant Vegetation Index 2

Soil Background Line

Soil-adjusted vegetation index 2

SQRT(IR/R)

Tasselled Cap - Green Vegetation Index MSS

Tasselled Cap - Non Such Index MSS

Tasselled Cap - Soil Brightness Index MSS

Tasselled Cap - Yellow Vegetation Index MSS

Transformed NDVI

Transformed Soil Adjusted Vegetation Index

Transformed Soil Adjusted Vegetation Index 2

Transformed Vegetation Index

Weighted Difference Vegetation Index

Wide Dynamic Range Vegetation Index

List of Sensors