le Maire, G.; F... - Towards universal broad leaf c...

Basic information

Author	le Maire, G.; Francois, C.; Dufrene, E.
Title	Towards universal broad leaf chlorophyll indices using PROSPECT simulated database and hyperspectral reflectance measurements
Journal	Remote Sensing of Environment
DOI	10.1016/j.rse.2003.09.004
Link
Date/Year	2004
Location
Publisher
Volume	89
Issue	1
Pages	1-28
Keywords	universal broad leaf chlorophyll indices. PROSPECT. hyperspectral. reflectance measurements. neural-network classification. radiative-transfer models. remote-sensing. data. red-edge. vegetation indexes. spectral reflectance. optical-properties. bidirectio
Comment

Indices

Nr.	Name	General Formula
1	Datt1	$\frac{850nm - 710nm}{850nm - 680nm}$
2	Datt4	$\frac{672nm}{550nm \cdot 708nm}$
3	Datt6	$\frac{860nm}{550nm \cdot 708nm}$
4	Difference 800/550	$800nm - 550nm$
5	Difference 800/680	$800nm - 680nm$
6	DmSR	$\frac{DR (720nm) - DR (500nm)}{DR (720nm) + DR (500nm)}$
7	Double Difference Index	$(749nm - 720nm) - (701nm - 672nm)$
8	Maccioni	$\frac{780nm - 710nm}{780nm - 680nm}$
9	Modified Normalised Difference 734/747/715/726	$\frac{734nm - 747nm}{715nm + 726nm}$
10	Modified Normalised Difference 750/705	$\frac{750nm - 705nm}{750nm + 705nm - 2 445nm}$
11	Modified Normalized Difference 734/747/715/720	$\frac{734nm - 747nm}{715nm - 720nm}$
12	Modified Simple Ratio 705/445	$\frac{750nm - 445nm}{705nm - 445nm}$
13	Normalized Difference 415/435	$\frac{415nm - 435nm}{415nm + 435nm}$
14	Normalized Difference 680/430	$\frac{680nm - 430nm}{680nm + 430nm}$
15	Normalized Difference 750/705	$\frac{750nm - 705nm}{750nm + 705nm}$
16	Normalized Difference 780/550	$\frac{780nm - 550nm}{780nm + 550nm}$
17	Normalized Difference 800/635	$\frac{800nm - 635nm}{800nm - 635nm}$
18	Normalized Difference 800/680	$\frac{800nm - 680nm}{800nm + 680nm}$
19	Normalized Difference NIR/Green	$\frac{NIR - GREEN}{NIR + GREEN}$
20	Normalized Difference NIR/Red	$\frac{NIR - RED}{NIR + RED}$
21	Ratio 675/700/650	$\frac{675nm}{700nm \cdot 650nm}$
22	Red-Edge Inflection Point 1	$700 + 40 (\frac{(\frac{670nm + 780nm}{2}) - 700nm}{740nm - 700nm})$
23	Red-Edge Inflection Point 2	$702 + 40 (\frac{(\frac{667nm + 782nm}{2}) - 702nm}{742nm - 702nm})$
24	Red-Edge Inflection Point 3	$705 + 35 (\frac{(\frac{665nm + 783nm}{2}) - 705nm}{740nm - 705nm})$
25	Renormalized Difference Vegetation Index	$\frac{800nm - 670nm}{\sqrt{800nm + 670nm}}$
26	Simple Ratio 430/680	$\frac{430nm}{680nm}$
27	Simple Ratio 550/800	$\frac{550nm}{800nm}$
28	Simple Ratio 554/677	$\frac{554nm}{677nm}$
29	Simple Ratio 605/760	$\frac{605nm}{760nm}$
30	Simple Ratio 672/550	$\frac{672nm}{550nm}$
31	Simple Ratio 675/700	$\frac{675nm}{700nm}$
32	Simple Ratio 695/420	$\frac{695nm}{420nm}$
33	Simple Ratio 695/670	$\frac{695nm}{670nm}$
34	Simple Ratio 695/760	$\frac{695nm}{760nm}$
35	Simple Ratio 700	$\frac{1}{700nm}$
36	Simple Ratio 700/670	$\frac{700nm}{670nm}$
37	Simple Ratio 710/760	$\frac{710nm}{760nm}$
38	Simple Ratio 715/705	$\frac{715nm}{705nm}$
39	Simple Ratio 715/705	$\frac{[710:720]}{[700:710]}$
40	Simple Ratio 740/720	$\frac{[734:747]}{[715:726]}$
41	Simple Ratio 740/720 hyper	$\frac{740nm}{720nm}$
42	Simple Ratio 750/550	$\frac{750nm}{550nm}$
43	Simple Ratio 750/700	$\frac{750nm}{700nm}$
44	Simple Ratio 754/704	$\frac{754nm}{704nm}$
45	Simple Ratio 800/550	$\frac{800nm}{550nm}$
46	Simple Ratio 800/635	$\frac{800nm}{635nm}$
47	Simple Ratio 800/680	$\frac{800nm}{680nm}$
48	Simple Ratio NIR/RED	$\frac{NIR}{RED}$
49	Single Band 550	$550nm$
50	Single Band 703	$703nm$
51	Single Band 720	$720nm$
52	Structure Intensive Pigment Index 1	$\frac{800nm - 445nm}{800nm - 680nm}$
53	Triangular Vegetation Index	$0.5 (120 (750nm - 550nm) - 200 (670nm - 550nm))$

Sensors

No results for the selected combination.

Applications

Nr.	Name	Comment
1	Hyperspectral remote sensing
2	Vegetation
3	Vegetation - Chlorophyll

List of References