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Nr	Name	Abbrev.	Formula	Variables	Source	# Sens.	# Appl.	# Ref.
1	Cellulose Absorption Index	CAI	$100\left(0.5\left(\mathrm{2030nm}+\mathrm{2210nm}\right)-\mathrm{2100nm}\right)$		Original Formula	10	3	0
2	Epidote/Chlorite/Amphibole		$\frac{\mathrm{[2185:2225]}+\mathrm{[2360:2430]}}{\mathrm{[2235:2365]}+\mathrm{[2295:2365]}}$		Derived	12	2	0
3	Ferric Oxides		$\frac{\mathrm{[1600:1700]}}{\mathrm{[760:860]}}$		Derived	40	3	0
4	Ferrous Silicates		$\frac{\mathrm{[2145:2185]}}{\mathrm{[1600:1700]}}$		Derived	25	3	0
5	Green Optimized Soil Adjusted Vegetation Index	GOSAVI	$\frac{\mathrm{NIR}-G}{\mathrm{NIR}+G+Y}$		Original Formula	86	2	0
6	Green Soil Adjusted Vegetation Index	GSAVI	$\frac{\mathrm{NIR}-G}{\mathrm{NIR}+G+L}\left(1+L\right)$		Original Formula	86	2	0
7	Host Rock		$\frac{\mathrm{[2145:2185]}}{\mathrm{[2185:2225]}}$		Derived	13	3	0
8	Log Ratio	LogR	$\log \left(\frac{\mathrm{NIR}}{\mathrm{RED}}\right)$		Derived	87	0	0
9	Norm G	Norm G	$\frac{G}{\mathrm{NIR}+R+G}$		Original Formula	82	1	0
10	Norm NIR	Norm NIR	$\frac{\mathrm{NIR}}{\mathrm{NIR}+R+G}$		Original Formula	82	1	0
11	Norm R	Norm R	$\frac{R}{\mathrm{NIR}+R+G}$		Original Formula	82	1	0
12	Normalized Difference 2160/1540 Normalized Difference leaf canopy biomass	NDBleaf	$\frac{\mathrm{2160nm-1540nm}}{\mathrm{2160nm}+\mathrm{1540nm}}$		Original Formula	11	2	0
13	Normalized Difference 800/2170	ND800/2170	$\frac{\mathrm{800nm}-\mathrm{2170nm}}{\mathrm{800nm}+\mathrm{2170nm}}$		Original Formula	21	0	0
14	Red-Edge Stress Vegetation Index	RVSI	$\frac{\mathrm{718nm}+\mathrm{748nm}}{2}-\mathrm{733nm}$		Original Formula	17	2	0
15	Relative Drought Index	RDI	$\frac{\mathrm{WSDact}}{\mathrm{WSDcrit}}$		Original Formula	0	0	0
16	Silica 1		$\frac{\mathrm{[8475:8825]}}{\mathrm{[8125:8475]}}$		Derived	3	2	0
17	Silica 2		$\frac{\mathrm{[8475:8825]}}{\mathrm{[8925:9275]}}$		Derived	4	2	0
18	Silica 3		$\frac{\mathrm{[10250:10950]}}{\mathrm{[8125:8475]}}$		Derived	7	2	0
19	Silica 4		$\frac{\mathrm{[8475:8825]}·\mathrm{[8475:8825]}}{\frac{\mathrm{[8125:8475]}}{\mathrm{[8925:9275]}}}$		Derived	3	1	0
20	Simple Ratio 1250/1050 LAI determining index	LAIDI	$\frac{\mathrm{1250nm}}{\mathrm{1050nm}}$		Original Formula	14	3	0
21	Simple Ratio 450/550 Blue green pigment index	BGI	$\frac{\mathrm{450nm}}{\mathrm{550nm}}$		Original Formula	54	1	0
22	Simple Ratio 450/690 Blue red pigment index	BRI	$\frac{\mathrm{450nm}}{\mathrm{690nm}}$		Original Formula	49	1	0
23	Simple Ratio 810/560 Plant biochemical index	PBI	$\frac{\mathrm{810nm}}{\mathrm{560nm}}$		Original Formula	61	1	0
24	Simple Ratio MIR/Red Eisenhydroxid-Index	SRMIR/Red	$\frac{\mathrm{MIR}}{\mathrm{RED}}$		Original Formula	41	2	0
25	Simple Ratio MIR/SWIR Cley Mineral-Index, Salinity Index	SI	$\frac{\mathrm{MIR}}{\mathrm{SWIR}}$		Original Formula	20	1	0
26	Simple Ratio Pigment Index	SRPI	$\frac{\mathrm{430nm}}{\mathrm{680nm}}$		Original Formula	31	1	0
27	Simple Ratio SWIRI/NIR Ferrous Minerals	SRSWIRI/NIR	$\frac{\mathrm{SWIRI}}{\mathrm{NIR}}$		Original Formula	46	1	0
28	Simple Ratio SWIRI/SWIRII Clay Minerals	SRSWIRI/SWIRII	$\frac{\mathrm{SWIRI}}{\mathrm{SWIRII}}$		Original Formula	0	2	0
29	Simple Ration 355 / 365 gk		$\left(\frac{\mathrm{355nm}}{l}·\mathrm{365nm}\right)$	l=1.1	Derived	2	0	0
30	Single Band 735	SB735	$\mathrm{735nm}$		Original Formula	54	0	0
31	SiO2		$\frac{\mathrm{[10250:10950]}}{\mathrm{[8925:9275]}}$		Derived	5	1	0
32	sLAIDI	sLAIDI	$S\frac{\mathrm{1050nm}-\mathrm{1250nm}}{\mathrm{1050nm}+\mathrm{1250nm}}$	S=5	Original Formula	14	0	0
33	SQRT(IR/R)	SQRT(IR/R)	$\sqrt{\frac{\mathrm{NIR}}{\mathrm{RED}}}$		Original Formula	87	0	0
34	Transformed NDVI	TNDVI	$\sqrt{\frac{\mathrm{NIR}-\mathrm{RED}}{\mathrm{NIR}+\mathrm{RED}}+0.5}$		Original Formula	87	0	0
35	Vegetation Condition Index	VCI	$\frac{\mathrm{NDVIj}-\mathrm{NDVImin}}{\mathrm{NDVImax}-\mathrm{NDVImin}}·100$		Original Formula	0	2	0
36	Alteration		$\frac{\mathrm{[1600:1700]}}{\mathrm{[2145:2185]}}$		Derived	25	3	1
37	Alunite/Kaolinite/Pyrophylite		$\frac{\mathrm{[1600:1700]}+\mathrm{[2185:2225]}}{\mathrm{[2145:2185]}}$		Derived	13	3	1
38	Amphibole		$\frac{\mathrm{[2185:2225]}}{\mathrm{[2295:2365]}}$		Derived	13	3	1
39	Amphibole / MgOH		$\frac{\mathrm{[2185:2225]}+\mathrm{[2360:2430]}}{\mathrm{[2295:2365]}}$		Derived	12	2	1
40	Anthocyanin reflectance index	ARI	$\frac{1}{\mathrm{550nm}}-\frac{1}{\mathrm{700nm}}$		Original Formula	38	2	1
41	Atmospherically Resistant Vegetation Index 2	ARVI2	$-0.18+1.17\left(\frac{\mathrm{NIR}-\mathrm{RED}}{\mathrm{NIR}+\mathrm{RED}}\right)$		Original Formula	87	3	1
42	Blue-wide dynamic range vegetation index	BWDRVI	$\frac{0.1\mathrm{NIR}-\mathrm{BLUE}}{0.1\mathrm{NIR}+\mathrm{BLUE}}$		Original Formula	71	1	1
43	Browning Reflectance Index	BRI	$\frac{\frac{1}{\mathrm{550nm}}-\frac{1}{\mathrm{700nm}}}{\mathrm{NIR}}$		Original Formula	35	1	1
44	Carbonate/Chlorite/Epidote		$\frac{\mathrm{[2235:2365]}+\mathrm{[2360:2430]}}{\mathrm{[2295:2365]}}$		Derived	12	3	1
45	CASI NDVI	CASI NDVI	$\frac{\left(\mathrm{[770:780]}+\mathrm{[784:790]}\right)-\left(\mathrm{[655:665]}+\mathrm{[676:685]}\right)}{\left(\mathrm{[770:780]}+\mathrm{[784:790]}\right)+\left(\mathrm{[655:665]}+\mathrm{[676:685]}\right)}$		Original Formula	18	3	1
46	CASI TM4/3	CASI TM4/3	$\frac{\mathrm{[770:780]}+\mathrm{[784:790]}}{\mathrm{[655:665]}+\mathrm{[676:685]}}$		Original Formula	18	3	1
47	Chlorophyll Absorption Ratio Index 2	CARI2	$\left(\frac{\left|\left(a·\mathrm{[670]}+\mathrm{[670]}+b\right)\right|}{{\left(a^2+1\right)}^{0.5}}\right)\left(\frac{\mathrm{[700]}}{\mathrm{[670]}}\right)$	a=([700]-[550])/150, b=[550]-(a*[550])	Original Formula	30	3	1
48	Chlorophyll Green	Chlgreen	${\left(\frac{\mathrm{[760:800]}}{\mathrm{[540:560]}}\right)}^{\left(-1\right)}$		Original Formula	79	3	1
49	Chlorophyll Index RedEdge 710	CIrededge710	$\frac{\mathrm{750nm}}{\mathrm{710nm}}-1$		Original Formula	27	4	1
50	Chlorophyll Red-Edge	Chlred-edge	${\left(\frac{\mathrm{[760:800]}}{\mathrm{[690:720]}}\right)}^{\left(-1\right)}$		Original Formula	63	4	1
51	Clay		$\frac{\mathrm{[2145:2185]}·\mathrm{[2235:2365]}}{\mathrm{[2185:2225]}·\mathrm{[2185:2225]}}$		Derived	13	3	1
52	Coloration Index	CI	$\frac{\mathrm{RED}-\mathrm{BLUE}}{\mathrm{RED}}$		Original Formula	71	1	1
53	Corrected Transformed Vegetation Index	CTVI	$\frac{\mathrm{NDVI}+0,5}{\left|\mathrm{NDVI}+0,5\right|}·\sqrt{\left|\left(\mathrm{NDVI}\right)+0,5\right|}$		Derived	85	1	1
54	CRI550	CRI550	${\mathrm{[510]}}^{\left(-1\right)}-{\mathrm{[550]}}^{\left(-1\right)}$		Original Formula	47	0	1
55	CRI700	CRI700	${\mathrm{[510]}}^{\left(-1\right)}-{\mathrm{[700]}}^{\left(-1\right)}$		Original Formula	33	0	1
56	Difference 1725/970 Difference LAI	DLAI	$\mathrm{1725nm}-\mathrm{970nm}$		Original Formula	16	2	1
57	Difference 678/500	D678/500	$\mathrm{678nm}-\mathrm{500nm}$		Original Formula	59	0	1
58	Difference 833/658	D833/658	$\mathrm{833nm}-\mathrm{658nm}$		Original Formula	63	0	1
59	Difference NIR/Green Green Difference Vegetation Index	GDVI	$\mathrm{NIR}-G$		Original Formula	86	1	1
60	Disease water stress index	DSWI	$\frac{\mathrm{802nm}+\mathrm{547nm}}{\mathrm{1657nm}+\mathrm{682nm}}$		Original Formula	20	3	1
61	Disease-Water Stress Index 5	DSWI-5	$\frac{\mathrm{800nm}-\mathrm{550nm}}{\mathrm{1660nm}+\mathrm{680nm}}$		Original Formula	24	3	1
62	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
63	Dolomite		$\frac{\mathrm{[2185:2225]}+\mathrm{[2295:2365]}}{\mathrm{[2235:2365]}}$		Derived	12	3	1
64	Enhanced Vegetation Index 2	EVI2	$2.4\frac{\mathrm{NIR}-\mathrm{RED}}{\mathrm{NIR}+\mathrm{RED}+1}$		Original Formula	87	0	1
65	Enhanced Vegetation Index 2 -2	EVI2	$2.5\frac{\mathrm{NIR}-\mathrm{RED}}{\mathrm{NIR}+2.4\mathrm{RED}+1}$		Original Formula	87	0	1
66	EPI	EPI	$a\frac{\mathrm{[672]}}{{\left(\mathrm{[550]}·\mathrm{[708]}\right)}^b}$		Original Formula	32	0	1
67	Ferric iron, Fe2+	Fe2+	$\frac{\mathrm{[2145:2185]}}{\mathrm{[760:860]}}+\frac{\mathrm{[520:600]}}{\mathrm{[630:690]}}$		Derived	23	3	1
68	Ferric iron, Fe3+	Fe3+	$\frac{\mathrm{[630:690]}}{\mathrm{[520:600]}}$		Derived	84	3	1
69	Ferrous iron		$\frac{\mathrm{[2145:2185]}}{\mathrm{[760:860]}}+\frac{\mathrm{[520:600]}}{\mathrm{[630:690]}}$		Derived	23	3	1
70	Gitelson2		$\left(\frac{\mathrm{750nm}-\mathrm{800nm}}{\mathrm{695nm}-\mathrm{740nm}}\right)-1$		Original Formula	15	0	1
71	Gossan		$\frac{\mathrm{[1600:1700]}}{\mathrm{[630:690]}}$		Derived	40	1	1
72	Green-Blue NDVI	GBNDVI	$\frac{\mathrm{NIR}-\left(\mathrm{GREEN}+\mathrm{BLUE}\right)}{\mathrm{NIR}+\left(\mathrm{GREEN}+\mathrm{BLUE}\right)}$		Original Formula	68	1	1
73	Hue	H	$\arctan \left(\frac{2R-G-B}{30.5}\left(G-B\right)\right)$		Original Formula	68	1	1
74	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
75	Ideal vegetation index	IVI	$\frac{\mathrm{NIR}-b}{a·\mathrm{RED}}$		Original Formula	87	1	1
76	Intensity	I	$\left(\frac{1}{30.5}\right)\left(R+G+B\right)$		Original Formula	68	1	1
77	Inverse reflectance 550	IR550	${\mathrm{550nm}}^{\left(-1\right)}$		Original Formula	89	0	1
78	Inverse reflectance 700	IR700	${\mathrm{700nm}}^{\left(-1\right)}$		Original Formula	58	0	1
79	Kaolinitic		$\frac{\mathrm{[2235:2365]}}{\mathrm{[2145:2185]}}$		Derived	13	2	1
80	Laterite		$\frac{\mathrm{[1600:1700]}}{\mathrm{[2145:2185]}}$		Derived	25	2	1
81	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
82	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
83	mCRIG	mCRIG	$\left({\mathrm{[510:520]}}^{\left(-1\right)}-{\mathrm{[560:570]}}^{\left(-1\right)}\right)·\mathrm{NIR}$		Original Formula	54	0	1
84	mCRIRE	mCRIRE	$\left({\mathrm{[510:520]}}^{\left(-1\right)}-{\mathrm{[690:700]}}^{\left(-1\right)}\right)·\mathrm{NIR}$		Original Formula	55	0	1
85	mND680	mND680	$\frac{\mathrm{800nm}-\mathrm{680nm}}{\mathrm{800nm}+\mathrm{680nm}-2\mathrm{445nm}}$		Original Formula	32	0	1
86	Modified Chlorophyll Absorption in Reflectance Index 1	MCARI1	$1.2\left(2.5\left(\mathrm{800nm}-\mathrm{670nm}\right)-1.3\left(\mathrm{800nm}-\mathrm{550nm}\right)\right)$		Original Formula	59	2	1
87	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
88	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
89	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
90	Modified Normalized Difference 850/1788/1928	ND850/1788/1928	$\frac{\mathrm{850nm–1788nm}}{\mathrm{850nm}+\mathrm{1928nm}}$		Original Formula	8	0	1
91	Modified Normalized Difference 850/2218/1928	ND850/2218/1928	$\frac{\mathrm{850nm–2218nm}}{\mathrm{850nm}+\mathrm{1928nm}}$		Original Formula	8	0	1
92	Modified Normalized Difference Vegetation Index RVI	MRVI	$\frac{\mathrm{RVI}-1}{\mathrm{RVI}+1}$		Original Formula	0	1	1
93	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
94	Modified Triangular Vegetation Index 1	MTVI1	$1.2\left(1.2\left(\mathrm{800nm}-\mathrm{550nm}\right)-2.5\left(\mathrm{670nm}-\mathrm{550nm}\right)\right)$		Original Formula	59	1	1
95	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
96	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
97	Muscovite		$\frac{\mathrm{[2235:2365]}}{\mathrm{[2185:2225]}}$		Derived	13	3	1
98	Normalized Difference 1080/1180	ND1080/1180	$\frac{\mathrm{1080nm}-\mathrm{1180nm}}{\mathrm{1080nm}+\mathrm{1180nm}}$		Original Formula	9	0	1
99	Normalized Difference 1080/1260	ND1080/1260	$\frac{\mathrm{1080nm}-\mathrm{1260nm}}{\mathrm{1080nm}+\mathrm{1260nm}}$		Original Formula	11	0	1
100	Normalized Difference 1080/1450	ND1080/1450	$\frac{\mathrm{1080nm}-\mathrm{1450nm}}{\mathrm{1080nm}+\mathrm{1450nm}}$		Original Formula	10	0	1
101	Normalized Difference 1080/1675	ND1080/1675	$\frac{\mathrm{1080nm}-\mathrm{1675nm}}{\mathrm{1080nm}+\mathrm{1675nm}}$		Original Formula	12	0	1
102	Normalized Difference 1080/2170	ND1080/2170	$\frac{\mathrm{1080nm}-\mathrm{2170nm}}{\mathrm{1080nm}+\mathrm{2170nm}}$		Original Formula	10	0	1
103	Normalized Difference 1094/1205 Leaf water VI 2	LWVI-2	$\frac{\mathrm{1094nm}-\mathrm{1205nm}}{\mathrm{1094nm}+\mathrm{1205nm}}$		Original Formula	9	2	1
104	Normalized Difference 1094/983 Leaf water VI 1	LWVI-1	$\frac{\mathrm{1094nm}-\mathrm{893nm}}{\mathrm{1094nm}+\mathrm{893nm}}$		Original Formula	11	2	1
105	Normalized Difference 1180/1450	ND1180/1450	$\frac{\mathrm{1180nm}-\mathrm{1450nm}}{\mathrm{1180nm}+\mathrm{1450nm}}$		Original Formula	9	0	1
106	Normalized Difference 1180/1675	ND1180/1675	$\frac{\mathrm{1180nm}-\mathrm{1675nm}}{\mathrm{1180nm}+\mathrm{1675nm}}$		Original Formula	11	0	1
107	Normalized Difference 1180/2170	ND1180/2170	$\frac{\mathrm{1180nm}-\mathrm{2170nm}}{\mathrm{1180nm}+\mathrm{2170nm}}$		Original Formula	10	0	1
108	Normalized Difference 1260/1450	ND1260/1450	$\frac{\mathrm{1260nm}-\mathrm{1450nm}}{\mathrm{1260nm}+\mathrm{1450nm}}$		Original Formula	9	0	1
109	Normalized Difference 1260/1675	ND1260/1675	$\frac{\mathrm{1260nm}-\mathrm{1675nm}}{\mathrm{1260nm}+\mathrm{1675nm}}$		Original Formula	13	0	1
110	Normalized Difference 1260/2170	ND1260/2170	$\frac{\mathrm{1260nm}-\mathrm{2170nm}}{\mathrm{1260nm}+\mathrm{2170nm}}$		Original Formula	12	0	1
111	Normalized Difference 1510/660 NRI1510	ND1510/660	$\frac{\mathrm{1510nm}-\mathrm{660nm}}{\mathrm{1510nm}+\mathrm{660nm}}$		Original Formula	13	0	1
112	Normalized Difference 2260/1490 Normalized Difference leaf mass per area	NDlma	$\frac{\mathrm{2260nm-1490nm}}{\mathrm{2260nm}+\mathrm{1490nm}}$		Original Formula	10	2	1
113	Normalized Difference 550/450 Plant pigment ratio	PPR	$\frac{\mathrm{550nm}-\mathrm{450nm}}{\mathrm{550nm}+\mathrm{450nm}}$		Original Formula	54	0	1
114	Normalized Difference 550/530 Physiological reflectance index	PRI550/530	$\frac{\mathrm{550nm}-\mathrm{530nm}}{\mathrm{550nm}+\mathrm{530nm}}$		Original Formula	27	0	1
115	Normalized Difference 550/531	ND550/531	$\frac{\mathrm{550nm}-\mathrm{531nm}}{\mathrm{550nm}+\mathrm{531nm}}$		Original Formula	22	0	1
116	Normalized Difference 550/650 Photosynthetic vigour ratio	PVR	$\frac{\mathrm{550nm}-\mathrm{650nm}}{\mathrm{550nm}+\mathrm{650nm}}$		Original Formula	64	0	1
117	Normalized Difference 570/539	ND570/539	$\frac{\mathrm{570nm}-\mathrm{539nm}}{\mathrm{570nm}+\mathrm{539nm}}$		Original Formula	18	0	1
118	Normalized Difference 750/550 Green NDVI	NDVIg	$\frac{\mathrm{750nm}-\mathrm{550nm}}{\mathrm{750nm}+\mathrm{550nm}}$		Original Formula	37	1	1
119	Normalized Difference 750/650	NDVI750/650	$\frac{\mathrm{750nm}-\mathrm{650nm}}{\mathrm{750nm}+\mathrm{650nm}}$		Original Formula	31	0	1
120	Normalized Difference 750/660	ND750/660	$\frac{\mathrm{750nm–660nm}}{\mathrm{750nm}+\mathrm{660nm}}$		Derived	37	0	1
121	Normalized Difference 750/680	ND750/680	$\frac{\mathrm{750nm}-\mathrm{680nm}}{\mathrm{750nm}+\mathrm{680nm}}$		Original Formula	37	0	1
122	Normalized Difference 774/677	ND774/677	$\frac{\mathrm{774nm}-\mathrm{677nm}}{\mathrm{774nm}+\mathrm{677nm}}$		Original Formula	65	0	1
123	Normalized Difference 782/666	ND782/666	$\frac{\mathrm{782nm}-\mathrm{666nm}}{\mathrm{782nm}+\mathrm{666nm}}$		Original Formula	72	0	1
124	Normalized Difference 790/670	ND790/670	$\frac{\mathrm{790nm}-\mathrm{670nm}}{\mathrm{790nm}+\mathrm{670nm}}$		Original Formula	69	2	1
125	Normalized Difference 800/1180	ND800/1180	$\frac{\mathrm{800nm}-\mathrm{1180nm}}{\mathrm{800nm}+\mathrm{1180nm}}$		Original Formula	10	0	1
126	Normalized Difference 800/1260	ND800/1260	$\frac{\mathrm{800nm}-\mathrm{1260nm}}{\mathrm{800nm}+\mathrm{1260nm}}$		Original Formula	14	0	1
127	Normalized Difference 800/1450	ND800/1450	$\frac{\mathrm{800nm}-\mathrm{1450nm}}{\mathrm{800nm}+\mathrm{1450nm}}$		Original Formula	11	0	1
128	Normalized Difference 800/1675	ND800/1675	$\frac{\mathrm{800nm}-\mathrm{1675nm}}{\mathrm{800nm}+\mathrm{1675nm}}$		Original Formula	28	0	1
129	Normalized Difference 800/500 Pigment specific normalised difference C1	PSNDc1	$\frac{\mathrm{800nm}-\mathrm{500nm}}{\mathrm{800nm}+\mathrm{500nm}}$		Original Formula	53	2	1
130	Normalized Difference 800/550 Green NDVI hyper 2	GNDVIhyper2	$\frac{\mathrm{800nm}-\mathrm{550nm}}{\mathrm{800nm}+\mathrm{550nm}}$		Original Formula	62	1	1
131	Normalized Difference 800/650 Pigment specific normalised difference B1	PSNDb1	$\frac{\mathrm{800nm}-\mathrm{650nm}}{\mathrm{800nm}+\mathrm{650nm}}$		Original Formula	62	2	1
132	Normalized Difference 800/675 Pigment specific normalised difference A1	PSNDa1	$\frac{\mathrm{800nm}-\mathrm{675nm}}{\mathrm{800nm}+\mathrm{675nm}}$		Original Formula	65	2	1
133	Normalized Difference 819/1649 NDII 2	NDII2	$\frac{\mathrm{819nm}-\mathrm{1649nm}}{\mathrm{819nm}+\mathrm{1649nm}}$		Original Formula	31	0	1
134	Normalized Difference 827/668	ND827/668	$\frac{\mathrm{827nm}-\mathrm{668nm}}{\mathrm{827nm}+\mathrm{668nm}}$		Original Formula	61	0	1
135	Normalized Difference 833/1649 Infrared Index	ND833/1649	$\frac{\mathrm{833nm}-\mathrm{1649nm}}{\mathrm{833nm}+\mathrm{1649nm}}$		Original Formula	30	0	1
136	Normalized Difference 833/658	ND833/658	$\frac{\mathrm{833nm}-\mathrm{658nm}}{\mathrm{833nm}+\mathrm{658nm}}$		Original Formula	63	0	1
137	Normalized Difference 850/1650 Normalized Difference Infrared Index	NDII	$\frac{\mathrm{850nm}-\mathrm{1650nm}}{\mathrm{850nm}+\mathrm{1650nm}}$		Original Formula	14	2	1
138	Normalized Difference 857/1241 Normalized Difference Water Index	NDWI2	$\frac{\mathrm{857nm}-\mathrm{1241nm}}{\mathrm{857nm}+\mathrm{1241nm}}$		Original Formula	17	2	1
139	Normalized Difference 860/1640	SIWSI	$\frac{\mathrm{860nm}-\mathrm{1640nm}}{\mathrm{860nm}+\mathrm{1640nm}}$		Original Formula	38	1	1
140	Normalized Difference 925/710 Normalized Difference Chlorophyll	NDchl	$\frac{\mathrm{925nm-710nm}}{\mathrm{925nm}+\mathrm{710nm}}$		Original Formula	23	2	1
141	Normalized Difference 960/1180	ND960/1180	$\frac{\mathrm{960nm}-\mathrm{1180nm}}{\mathrm{960nm}+\mathrm{1180nm}}$		Original Formula	10	0	1
142	Normalized Difference 960/1260	ND960/1260	$\frac{\mathrm{960nm}-\mathrm{1260nm}}{\mathrm{960nm}+\mathrm{1260nm}}$		Original Formula	12	0	1
143	Normalized Difference 960/1450	ND960/1450	$\frac{\mathrm{960nm}-\mathrm{1450nm}}{\mathrm{960nm}+\mathrm{1450nm}}$		Original Formula	11	0	1
144	Normalized Difference 960/1675	ND960/1675	$\frac{\mathrm{960nm}-\mathrm{1675nm}}{\mathrm{960nm}+\mathrm{1675nm}}$		Original Formula	17	0	1
145	Normalized Difference 960/2170	ND960/2170	$\frac{\mathrm{960nm}-\mathrm{2170nm}}{\mathrm{960nm}+\mathrm{2170nm}}$		Original Formula	15	0	1
146	Normalized Difference Lignin Index	NDLI	$\frac{\log \left(\frac{1}{\mathrm{1754nm}}\right)-\log \left(\frac{1}{\mathrm{1680nm}}\right)}{\log \left(\frac{1}{\mathrm{1754nm}}\right)+\log \left(\frac{1}{\mathrm{1680nm}}\right)}$		Original Formula	10	1	1
147	Normalized Difference NIR/SWIR Normalized Burn Ratio	NBR	$\frac{\mathrm{NIR}-\mathrm{SWIR}}{\mathrm{NIR}+\mathrm{SWIR}}$		Original Formula	42	1	1
148	Normalized Difference Vegetation Index 690-710	NDVI690-710	$\frac{\mathrm{NIR}-\mathrm{[690:710]}}{\mathrm{NIR}+\mathrm{[690:710]}}$		Original Formula	69	3	1
149	Normalized Difference Vegetation Index C	NDVIc	$\frac{\mathrm{NIR}-\mathrm{RED}}{\mathrm{NIR}+\mathrm{RED}}\left(1-\frac{\mathrm{SWIR}-\mathrm{SWIIRmin}}{\mathrm{SWIRmax}-\mathrm{SWIRmin}}\right)$		Derived	41	0	1
150	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
151	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
152	Optimized vegetation normalized index	OVNI			Original Formula	0	0	1
153	Pan NDVI	PNDVI	$\frac{\mathrm{NIR}-\left(\mathrm{GREEN}+\mathrm{RED}+\mathrm{BLUE}\right)}{\mathrm{NIR}+\left(\mathrm{GREEN}+\mathrm{RED}+\mathrm{BLUE}\right)}$		Original Formula	67	1	1
154	Phengitic		$\frac{\mathrm{[2145:2185]}}{\mathrm{[2185:2225]}}$		Derived	13	2	1
155	Quartz Rich Rocks		$\frac{\mathrm{[10950:11650]}}{\mathrm{[8925:9275]}}$		Derived	5	3	1
156	Ratio Analysis of Reflectance Spectra A1	RARSa1	$\frac{\frac{\mathrm{675nm}}{\mathrm{700nm}}}{\frac{\mathrm{r675}}{\mathrm{r700}}}$		Original Formula	34	2	1
157	Ratio Analysis of Reflectance Spectra A2	RARSa2	$\frac{\frac{\mathrm{680nm}}{\mathrm{700nm}}}{\frac{\mathrm{r680}}{\mathrm{r700}}}$		Original Formula	35	2	1
158	Ratio Analysis of Reflectance Spectra A3	RARSa3	$\frac{\frac{\mathrm{675nm}}{\mathrm{800nm}}}{\frac{\mathrm{r670}}{\mathrm{r800}}}$		Original Formula	65	2	1
159	Ratio Analysis of Reflectance Spectra A4	RARSa4	$\frac{\frac{\mathrm{680nm}}{\mathrm{800nm}}}{\frac{\mathrm{r680}}{\mathrm{r800}}}$		Original Formula	66	2	1
160	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
161	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
162	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
163	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
164	Ratio Analysis of Reflectance Spectra C1	RARSc1	$\frac{\frac{\mathrm{760nm}}{\mathrm{500nm}}}{\frac{\mathrm{r760}}{\mathrm{r500}}}$		Original Formula	43	2	1
165	Ratio Analysis of Reflectance Spectra C2	RARSc2	$\frac{\frac{\mathrm{760nm}}{\mathrm{470nm}}}{\frac{\mathrm{r760}}{\mathrm{r470}}}$		Original Formula	41	2	1
166	Ratio Analysis of Reflectance Spectra C3	RARSc3	$\frac{\frac{\mathrm{800nm}}{\mathrm{500nm}}}{\frac{\mathrm{r800}}{\mathrm{r500}}}$		Original Formula	53	2	1
167	Ratio Analysis of Reflectance Spectra C4	RARSc4	$\frac{\frac{\mathrm{800nm}}{\mathrm{470nm}}}{\frac{\mathrm{r800}}{\mathrm{r470}}}$		Original Formula	47	1	1
168	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
169	RDVI2	RDVI2	$\frac{\mathrm{833nm}-\mathrm{658nm}}{\sqrt{\mathrm{833nm}+\mathrm{658nm}}}$		Original Formula	63	1	1
170	Red edge 1	Rededge1	$\frac{\mathrm{[708:716]}}{\mathrm{[676:685]}}$		Original Formula	41	1	1
171	Red edge 2	Rededge2	$\frac{\mathrm{[708:716]}-\mathrm{[676:685]}}{\mathrm{[708:716]}+\mathrm{[676:685]}}$		Original Formula	41	1	1
172	Red-Blue NDVI	RBNDVI	$\frac{\mathrm{NIR}-\left(\mathrm{RED}+\mathrm{BLUE}\right)}{\mathrm{NIR}+\left(\mathrm{RED}+\mathrm{BLUE}\right)}$		Original Formula	69	1	1
173	Reduced Simple Ratio	RSR	$\frac{\mathrm{NIR}}{\mathrm{RED}}·\mathrm{MIRmax}-\frac{\mathrm{MIR}}{\mathrm{MIRmax}}-\mathrm{MIRmin}$		Original Formula	41	1	1
174	Reflectance at the inflexion point	Rre	$\frac{\mathrm{[670]}+\mathrm{[780]}}{2}$		Original Formula	72	0	1
175	Relative Greenness Index	RGI			Original Formula	0	0	1
176	Residual Moisture Index	RMI			Original Formula	0	0	1
177	RVSI	RVSI	$\frac{\mathrm{714nm}+\mathrm{752nm}}{2}-\mathrm{733nm}$		Original Formula	18	0	1
178	Saturation	S	$\frac{\max \left(R,G,B\right)-\min \left(R,G,B\right)}{\max \left(R,G,B\right)}$		Original Formula	0	1	1
179	SAVImir	SAVImir	$\left(\mathrm{NIR}-\mathrm{MIR}\right)\frac{1+L}{\mathrm{NIR}+\mathrm{MIR}+L}$		Original Formula	42	0	1
180	Sericite/Muscovite/Illite/Smecite		$\frac{\mathrm{[2145:2185]}+\mathrm{[2235:2365]}}{\mathrm{[2185:2225]}}$		Derived	13	2	1
181	Shape Index	IF	$\frac{2R-G-B}{G-B}$		Original Formula	68	1	1
182	Siliceous Rocks		$\frac{\mathrm{[8475:8825]}·\mathrm{[8475:8825]}}{\mathrm{[8125:8475]}·\mathrm{[8925:9275]}}$		Derived	3	2	1
183	Simple Ratio 1058/1148	RVIhyp	$\frac{\mathrm{1058nm}}{\mathrm{1148nm}}$		Original Formula	11	1	1
184	Simple Ratio 1080/1180	SR1080/1180	$\frac{\mathrm{1080nm}}{\mathrm{1180nm}}$		Original Formula	9	0	1
185	Simple Ratio 1080/1260	SR1080/1260	$\frac{\mathrm{1080nm}}{\mathrm{1260nm}}$		Original Formula	11	0	1
186	Simple Ratio 1080/1450	SR1080/1450	$\frac{\mathrm{1080nm}}{\mathrm{1450nm}}$		Original Formula	10	0	1
187	Simple Ratio 1080/1675	SR1080/1675	$\frac{\mathrm{1080nm}}{\mathrm{1675nm}}$		Original Formula	12	0	1
188	Simple Ratio 1080/2170	SR1080/2170	$\frac{\mathrm{1080nm}}{\mathrm{2170nm}}$		Original Formula	10	0	1
189	Simple Ratio 1180/1080	SR1180/1080	$\frac{\mathrm{1180nm}}{\mathrm{1080nm}}$		Original Formula	9	0	1
190	Simple Ratio 1180/1450	SR1180/1450	$\frac{\mathrm{1180nm}}{\mathrm{1450nm}}$		Original Formula	9	0	1
191	Simple Ratio 1180/1675	SR1180/1675	$\frac{\mathrm{1180nm}}{\mathrm{1675nm}}$		Original Formula	11	0	1
192	Simple Ratio 1180/2170	SR1180/2170	$\frac{\mathrm{1180nm}}{\mathrm{2170nm}}$		Original Formula	10	0	1
193	Simple Ratio 1193/1126 Water content	WC	$\frac{\mathrm{1193nm}}{\mathrm{1126nm}}$		Original Formula	9	2	1
194	Simple Ratio 1260/1080	SR1260/1080	$\frac{\mathrm{1260nm}}{\mathrm{1080nm}}$		Original Formula	11	0	1
195	Simple Ratio 1260/1450	SR1260/1450	$\frac{\mathrm{1260nm}}{\mathrm{1450nm}}$		Original Formula	9	0	1
196	Simple Ratio 1260/1675	SR1260/1675	$\frac{\mathrm{1260nm}}{\mathrm{1675nm}}$		Original Formula	13	0	1
197	Simple Ratio 1260/2170	SR1260/2170	$\frac{\mathrm{1260nm}}{\mathrm{2170nm}}$		Original Formula	12	0	1
198	Simple Ratio 1450/1080	SR1450/1080	$\frac{\mathrm{1450nm}}{\mathrm{1080nm}}$		Original Formula	10	0	1
199	Simple Ratio 1450/1180	SR1450/1180	$\frac{\mathrm{1450nm}}{\mathrm{1180nm}}$		Original Formula	9	0	1
200	Simple Ratio 1450/1260	SR1450/1260	$\frac{\mathrm{1450nm}}{\mathrm{1260nm}}$		Original Formula	9	0	1
201	Simple Ratio 1450/960	SR1450/960	$\frac{\mathrm{1450nm}}{\mathrm{960nm}}$		Original Formula	11	0	1
202	Simple Ratio 1599/819 Moisture Stress Index 2	MSI2	$\frac{\mathrm{1599nm}}{\mathrm{819nm}}$		Original Formula	29	0	1
203	Simple Ratio 1650/2218	TM5/TM7	$\frac{\mathrm{1650nm}}{\mathrm{2218nm}}$		Original Formula	23	0	1
204	Simple Ratio 1660/550 Disease-Water Stress Index 2	DSWI-2	$\frac{\mathrm{1660nm}}{\mathrm{550nm}}$		Original Formula	26	3	1
205	Simple Ratio 1660/680 Disease-Water Stress Index 3	DSWI-3	$\frac{\mathrm{1660nm}}{\mathrm{680nm}}$		Original Formula	28	3	1
206	Simple Ratio 1675/1080	SR1675/1080	$\frac{\mathrm{1675nm}}{\mathrm{1080nm}}$		Original Formula	12	0	1
207	Simple Ratio 1675/1180	SR1675/1180	$\frac{\mathrm{1675nm}}{\mathrm{1180nm}}$		Original Formula	11	0	1
208	Simple Ratio 1675/1260	SR1675/1260	$\frac{\mathrm{1675nm}}{\mathrm{1260nm}}$		Original Formula	13	0	1
209	Simple Ratio 1675/960	SR1675/960	$\frac{\mathrm{1675nm}}{\mathrm{960nm}}$		Original Formula	17	0	1
210	Simple Ratio 2170/1080	SR2170/1080	$\frac{\mathrm{2170nm}}{\mathrm{1080nm}}$		Original Formula	10	0	1
211	Simple Ratio 2170/1180	SR2170/1180	$\frac{\mathrm{2170nm}}{\mathrm{1180nm}}$		Original Formula	10	0	1
212	Simple Ratio 2170/1260	SR2170/1260	$\frac{\mathrm{2170nm}}{\mathrm{1260nm}}$		Original Formula	12	0	1
213	Simple Ratio 520/420	SR520/420	$\frac{\mathrm{520nm}}{\mathrm{420nm}}$		Original Formula	27	0	1
214	Simple Ratio 520/670	SR520/670	$\frac{\mathrm{520nm}}{\mathrm{670nm}}$		Original Formula	63	0	1
215	Simple Ratio 520/760	SR520/760	$\frac{\mathrm{520nm}}{\mathrm{760nm}}$		Original Formula	48	0	1
216	Simple Ratio 542/750 Chl	SR542/750	$\frac{\mathrm{542nm}}{\mathrm{750nm}}$		Original Formula	29	0	1
217	Simple Ratio 550/670	SR550/670	$\frac{\mathrm{550nm}}{\mathrm{670nm}}$		Original Formula	72	0	1
218	Simple Ratio 550/680 Disease-Water Stress Index 4	DSWI-4	$\frac{\mathrm{550nm}}{\mathrm{680nm}}$		Original Formula	70	3	1
219	Simple Ratio 550/760	SR550/760	$\frac{\mathrm{550nm}}{\mathrm{760nm}}$		Original Formula	47	0	1
220	Simple Ratio 550/800	SR550/800	$\frac{\mathrm{550nm}}{\mathrm{800nm}}$		Original Formula	62	2	1
221	Simple Ratio 556/750 Chl-b	SR556/750	$\frac{\mathrm{556nm}}{\mathrm{750nm}}$		Original Formula	40	0	1
222	Simple Ratio 560/658 GRVIhyper	SR560/658	$\frac{\mathrm{560nm}}{\mathrm{658nm}}$		Original Formula	70	1	1
223	Simple Ratio 672/708	SR672/708	$\frac{\mathrm{672nm}}{\mathrm{708nm}}$		Original Formula	38	0	1
224	Simple Ratio 674/553	SR674/553	$\frac{\mathrm{674nm}}{\mathrm{553nm}}$		Original Formula	73	0	1
225	Simple Ratio 675/555	SR675/555	$\frac{\mathrm{675nm}}{\mathrm{555nm}}$		Original Formula	73	0	1
226	Simple Ratio 675/705	SR675/705	$\frac{\mathrm{675nm}}{\mathrm{705nm}}$		Original Formula	36	0	1
227	Simple Ratio 678/750	SR678/750	$\frac{\mathrm{678nm}}{\mathrm{750nm}}$		Original Formula	36	0	1
228	Simple Ratio 683/510	SR683/510	$\frac{\mathrm{683nm}}{\mathrm{510nm}}$		Original Formula	47	2	1
229	Simple Ratio 690/740 Fluorescence ratio 2	FR2	$\frac{\mathrm{690nm}}{\mathrm{740nm}}$		Original Formula	30	2	1
230	Simple Ratio 695/800	SR695/800	$\frac{\mathrm{695nm}}{\mathrm{800nm}}$		Original Formula	32	0	1
231	Simple Ratio 705/722	D2	$\frac{\mathrm{705nm}}{\mathrm{722nm}}$		Original Formula	17	0	1
232	Simple Ratio 706/750 Chl-a	SR706/750	$\frac{\mathrm{706nm}}{\mathrm{750nm}}$		Original Formula	27	2	1
233	Simple Ratio 710/670	SR710/670	$\frac{\mathrm{710nm}}{\mathrm{670nm}}$		Original Formula	39	0	1
234	Simple Ratio 730/706	D1	$\frac{\mathrm{730nm}}{\mathrm{706nm}}$		Original Formula	19	0	1
235	Simple Ratio 735/710	SR735/710	$\frac{\mathrm{735nm}}{\mathrm{[700:710]}}$		Original Formula	25	2	1
236	Simple Ratio 750/555	SR750/555	$\frac{\mathrm{750nm}}{\mathrm{555nm}}$		Original Formula	39	2	1
237	Simple Ratio 752/690	SR752/690	$\frac{\mathrm{752nm}}{\mathrm{690nm}}$		Original Formula	28	0	1
238	Simple Ratio 760/500 Ratio Analysis of Reflectance Spectra	RARS	$\frac{\mathrm{760nm}}{\mathrm{500nm}}$		Original Formula	43	0	1
239	Simple Ratio 760/695	SR760/695	$\frac{\mathrm{760nm}}{\mathrm{695nm}}$		Original Formula	32	0	1
240	Simple Ratio 774/677	SR774/677	$\frac{\mathrm{774nm}}{\mathrm{677nm}}$		Original Formula	65	0	1
241	Simple Ratio 800/1180	SR800/1180	$\frac{\mathrm{800nm}}{\mathrm{1180nm}}$		Original Formula	10	0	1
242	Simple Ratio 800/1280	SR800/1280	$\frac{\mathrm{800nm}}{\mathrm{1280nm}}$		Original Formula	13	0	1
243	Simple Ratio 800/1450	SR800/1450	$\frac{\mathrm{800nm}}{\mathrm{1450nm}}$		Original Formula	11	0	1
244	Simple Ratio 800/1660 Disease-Water Stress Index 1	DSWI-1	$\frac{\mathrm{800nm}}{\mathrm{1660nm}}$		Original Formula	28	3	1
245	Simple Ratio 800/1675	SR800/1675	$\frac{\mathrm{800nm}}{\mathrm{1675nm}}$		Original Formula	28	0	1
246	Simple Ratio 800/2170	SR800/2170	$\frac{\mathrm{800nm}}{\mathrm{2170nm}}$		Original Formula	21	0	1
247	Simple Ratio 800/960	SR800/960	$\frac{\mathrm{800nm}}{\mathrm{960nm}}$		Original Formula	21	0	1
248	Simple Ratio 801/550 NIR/Green	SR801/550	$\frac{\mathrm{801nm}}{\mathrm{550nm}}$		Original Formula	60	1	1
249	Simple Ratio 801/670 NIR/Red	SR801/670	$\frac{\mathrm{801nm}}{\mathrm{670nm}}$		Original Formula	65	1	1
250	Simple Ratio 833/1649 MSIhyper	SR833/1649	$\frac{\mathrm{833nm}}{\mathrm{1649nm}}$		Original Formula	30	1	1
251	Simple Ratio 833/658	SR833/658	$\frac{\mathrm{833nm}}{\mathrm{658nm}}$		Original Formula	63	0	1
252	Simple Ratio 850/710 Datt2	Datt2	$\frac{\mathrm{850nm}}{\mathrm{710nm}}$		Original Formula	32	0	1
253	Simple Ratio 860/1240	SRWI	$\frac{\mathrm{860nm}}{\mathrm{1240nm}}$		Original Formula	16	1	1
254	Simple Ratio 860/550	SR860/550	$\frac{\mathrm{860nm}}{\mathrm{550nm}}$		Original Formula	64	0	1
255	Simple Ratio 860/708	SR860/708	$\frac{\mathrm{860nm}}{\mathrm{708nm}}$		Original Formula	34	0	1
256	Simple Ratio 895/972 Water band index 4	WBI4	$\frac{\mathrm{895nm}}{\mathrm{972nm}}$		Original Formula	21	3	1
257	Simple Ratio 900/680	SR900/680	$\frac{\mathrm{900nm}}{\mathrm{680nm}}$		Original Formula	48	0	1
258	Simple Ratio 960/1180	SR960/1180	$\frac{\mathrm{960nm}}{\mathrm{1180nm}}$		Original Formula	10	0	1
259	Simple Ratio 960/1260	SR960/1260	$\frac{\mathrm{960nm}}{\mathrm{1260nm}}$		Original Formula	12	0	1
260	Simple Ratio 960/1450	SR960/1450	$\frac{\mathrm{960nm}}{\mathrm{1450nm}}$		Original Formula	11	0	1
261	Simple Ratio 960/1675	SR960/1675	$\frac{\mathrm{960nm}}{\mathrm{1675nm}}$		Original Formula	17	0	1
262	Simple Ratio 960/2170	SR960/2170	$\frac{\mathrm{960nm}}{\mathrm{2170nm}}$		Original Formula	15	0	1
263	Simple Ratio 970/902 Water band index	WBI	$\frac{\mathrm{970nm}}{\mathrm{902nm}}$		Original Formula	19	3	1
264	Simple Ratio MIR/NIR Ratio Drought Index	RDI	$\frac{\mathrm{MIR}}{\mathrm{NIR}}$		Original Formula	42	1	1
265	Simple Ratio NIR/700-715	SRNir/700-715	$\frac{\mathrm{NIR}}{\mathrm{[700:715]}}$		Original Formula	45	1	1
266	Simple Ratio NIR/G Green Ratio Vegetation Index	GRVI	$\frac{\mathrm{NIR}}{G}$		Original Formula	86	1	1
267	Simple Ratio NIR/MIR	SRNIR/MIR	$\frac{\mathrm{NIR}}{\mathrm{MIR}}$		Original Formula	42	0	1
268	Simple Ratio NIR/Rededge RedEdge Ratio Index 1	RRI1	$\frac{\mathrm{NIR}}{\mathrm{rededge}}$		Original Formula	69	1	1
269	Simple Ratio Red/Blue Iron Oxide	IO	$\frac{\mathrm{RED}}{\mathrm{BLUE}}$		Original Formula	71	3	1
270	Simple Ratio Red/Green Red-Green Ratio	RGR	$\frac{\mathrm{RED}}{\mathrm{GREEN}}$		Original Formula	85	0	1
271	Simple Ratio Rededge/Red RedEdge Ratio Index 2	RRI2	$\frac{\mathrm{rededge}}{\mathrm{RED}}$		Original Formula	31	1	1
272	Single Band 1020	SB1020	$\mathrm{1020nm}$		Original Formula	28	2	1
273	Single Band 1040	SB1040	$\mathrm{1040nm}$		Original Formula	24	2	1
274	Single Band 1120	SB1120	$\mathrm{1120nm}$		Original Formula	16	2	1
275	Single Band 1200	SB1200	$\mathrm{1200nm}$		Original Formula	16	5	1
276	Single Band 1400	SB1400	$\mathrm{1400nm}$		Original Formula	14	2	1
277	Single Band 1420	SB1420	$\mathrm{1420nm}$		Original Formula	15	2	1
278	Single Band 1450	SB1450	$\mathrm{1450nm}$		Original Formula	14	5	1
279	Single Band 1490	SB1490	$\mathrm{1490nm}$		Original Formula	15	3	1
280	Single Band 1530	SB1530	$\mathrm{1530nm}$		Original Formula	16	2	1
281	Single Band 1540	SB1540	$\mathrm{1540nm}$		Original Formula	16	3	1
282	Single Band 1580	SB1580	$\mathrm{1580nm}$		Original Formula	38	3	1
283	Single Band 1690	SB1690	$\mathrm{1690nm}$		Original Formula	31	5	1
284	Single Band 1780	SB1780	$\mathrm{1780nm}$		Original Formula	15	4	1
285	Single Band 1820	SB1820	$\mathrm{1820nm}$		Original Formula	11	2	1
286	Single Band 1900	SB1900	$\mathrm{1900nm}$		Original Formula	10	2	1
287	Single Band 1940	SB1940	$\mathrm{1940nm}$		Original Formula	12	7	1
288	Single Band 1960	SB1960	$\mathrm{1960nm}$		Original Formula	13	3	1
289	Single Band 1980	SB1980	$\mathrm{1980nm}$		Original Formula	13	2	1
290	Single Band 2000	SB2000	$\mathrm{2000nm}$		Original Formula	13	2	1
291	Single Band 2060	SB2060	$\mathrm{2060nm}$		Original Formula	13	3	1
292	Single Band 2080	SB2080	$\mathrm{2080nm}$		Original Formula	18	3	1
293	Single Band 2100	SB2100	$\mathrm{2100nm}$		Original Formula	20	3	1
294	Single Band 2130	SB2130	$\mathrm{2130nm}$		Original Formula	24	2	1
295	Single Band 2180	SB2180	$\mathrm{2180nm}$		Original Formula	24	3	1
296	Single Band 2218	SB2218	$\mathrm{2218nm}$		Original Formula	24	0	1
297	Single Band 2240	SB2240	$\mathrm{2240nm}$		Original Formula	24	2	1
298	Single Band 2250	SB2250	$\mathrm{2250nm}$		Original Formula	25	2	1
299	Single Band 2270	SB2270	$\mathrm{2270nm}$		Original Formula	26	3	1
300	Single Band 2280	SB2280	$\mathrm{2280nm}$		Original Formula	26	3	1

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