List of available Indices

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

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