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

Sensors

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Applications

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

List of References