Modis EO products

Check Index DataBase for additional and detailed insight in EO products.

Color Composites

TRUE COLOR
B04,B03,B02

Visual interpretation of land cover, classification.

True color imagery is displayed in a combination of red, green and blue band.

Available styles: RGB, RGB advanced, Reflectance, Sentinel DN

Custom script: return [B04, B03, B02];

RGB(8,6,4)
B08,B06,B04

Sentinel - RGB (8,6,4).

Available styles: RGB, RGB advanced, Reflectance, Sentinel DN.

Custom script: return [B08, B06, B04];

RGB(8,5,4)
B08,B05,B04

Sentinel - RGB (8,5,4).

Available styles: RGB, RGB advanced, Reflectance, Sentinel DN.

Custom script: return [B08, B05, B04];

RGB(8,11,4)
B08,B11,B04

Sentinel - RGB (8,11,4).

Available styles: RGB, RGB advanced, Reflectance, Sentinel DN.

Custom script: return [B08, B11, B04];

RGB(8,11,12)
B08,B11,B12

Sentinel - RGB (8,11,12).

Available styles: RGB, RGB advanced, Reflectance, Sentinel DN.

Custom script: return [B08, B11, B12];

RGB(4,3,1) - Bathymetric
B04,B03,B01

Sentinel RGB (4,3,1) - Bathymetric.

Available styles: RGB, RGB advanced, Reflectance, Sentinel DN.

Custom script: return [B04, B03, B01];

RGB(12,8,4) - Short-wave Infrared
B12,B08,B04

RGB (12,8,4) - Short-wave Infrared.

Available styles: RGB, RGB advanced, Reflectance, Sentinel DN

Custom script: return [B12, B08, B04];

RGB(12,11,2) - Geology
B12,B11,B02

Sentinel - RGB (12,11,2) - Geology.

Available styles: RGB, RGB advanced, Reflectance, Sentinel DN.

Custom script: return [B12, B11, B02];

RGB(11,8,3)
B11,B08,B03

Sentinel - RGB (11,8,3).

Available styles: RGB, RGB advanced, Reflectance, Sentinel DN.

Custom script: return [B11, B08, B03];

RGB(11,8,2) - Agriculture
B11,B08,B02

RGB (11,8,2) - Agriculture.

Available styles: RGB, RGB advanced, Reflectance, Sentinel DN.

Custom script: return [B11, B08, B02];

FALSE COLOR
B08,B04,B03

Visual interpretation of vegetation, classification.

False color imagery is displayed in a combination of standard near infra-red, red and green band.

Available styles: RGB, RGB advanced, Reflectance, Sentinel DN.

Custom script: return [B08, B04, B03];

Indices

SR (Simple Ratio Index)
VALUE = B08/B04

Well known and often used index, described as the ratio of light that is scattered in the near infra-red range to that which is absorbed in the red range.

Values description: The range of values is from 0 to more than 30, where healthy vegetation generally falls between values of 2 to 8.

Available styles: Color map, Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B08 / B04)];

SIPI (Structure Insensitive Pigment Index)
VALUE = (B08 – B01) / (B08 – B04)

The SIPI index maximizes sensitivity to the ratio of bulk carotenoids to chlorophyll while minimizing the impact of the variable canopy structure. It is very useful in areas with high variability in the canopy structure, or leaf area index..

Values description: The range of a SIPI is from 0 to 2, where healthy green vegetation is from 0.8 to 1.8.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B08 – B01) / (B08 – B04)];

SAVI (Soil Adjusted Vegetation Index)
Value = 1.5 * (B08 - B04) / (B08 + B04 + 0.5)

Sentinel - SAVI (Soil Adjusted Vegetation Index)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [1.5 * (B08 - B04) / (B08 + B04 + 0.5)];

 

 

S2REP (Sentinel-2 Red-Edge Position)
Value = 705 + 35 * (0.5 * (B07 + B04) - B05) / (B06 - B05)

Sentinel - S2REP (Sentinel-2 Red-Edge Position)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [705 + 35 * (0.5 * (B07 + B04) - B05) / (B06 - B05)];

RE-NDWI (Red Edge - Normalized Difference Water Index)
Value = (B03 - B05) / (B03 + B05)

Sentinel - RE-NDWI (Red Edge - Normalized Difference Water Index)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B03 - B05) / (B03 + B05)];

Red edge NDVI
Value = (B08 - B06) / (B08 + B06)

Sentinel - Red edge NDVI

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B08 - B06) / (B08 + B06)];

PSSR (Pigment Specific Simple Ratio)
Value = B08 / B04

Sentinel - PSSR (Pigment Specific Simple Ratio)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [B08 / B04];

PSRI (Plant Senescence Reflectance Index)
Value = (B04 - B02) / B05

Sentinel - PSRI (Plant Senescence Reflectance Index)

An increase in PSRI indicates increased canopy stress (carotenoid pigment), the onset of canopy senescence, and plant fruit ripening. The PSRI is designed to maximize sensitivity of the index to the ratio of bulk carotenoids (E.g. alpha-carotene and beta-carotene) to chlorophyll. Applications include vegetation health monitoring, plant physiological stress detection and crop production, and yield analysis.

Values description: For this index, values range from -1 to 1, with the common range of values for green vegetation being between -0.1 to 0.2.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B04 - B02) / B05];

PSRI-NIR (Plant Senescence Reflectance Index - Near Infra-red)
Value = (B04 - B02) / B08

Sentinel - PSRI-NIR (Plant Senescence Reflectance Index - Near Infra-red)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B04 - B02) / B08];

NDWI (Normalized Difference Water Index)
Value = (B03 - B08) / (B03 + B08)

Sentinel - NDWI (Normalized Difference Water Index)

The NDWI index is most appropriate for water body mapping. The water body has strong absorbability and low radiation in the range from visible to infrared wavelengths. The index uses the green and Near Infra-red bands of remote sensing images based on this phenomenon. The NDWI can enhance the water information effectively in most cases. It is sensitive to built-up land and often results in over-estimated water bodies. 

Values description: Values of water bodies are larger than 0.5. Vegetation has much smaller values, which results in distinguishing vegetation from water bodies easier. Built-up features have positive values between zero and 0.2.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index

Custom script: return [(B03 - B08) / (B03 + B08)];

NDVI (Normalized Difference Vegetation Index)
Value = (B08 - B04) / (B08 + B04)

Sentinel - NDVI (Normalized Difference Vegetation Index)

This most known and used vegetation index is a simple, but effective VI for quantifying green vegetation. It normalizes green leaf scattering in the Near Infra-red wavelength and chlorophyll absorption in the red wavelength.

Values description: The value range of an NDVI is -1 to 1. Negative values of NDVI (values approaching -1) correspond to water. Values close to zero (-0.1 to 0.1) generally correspond to barren areas of rock, sand, or snow. Low, positive values represent shrub and grassland (approximately 0.2 to 0.4), while high values indicate temperate and tropical rainforests (values approaching 1).

Available styles: Color map, Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B08 - B04) / (B08 + B04)];

NDVI-GREEN (Normalized Difference Vegetation Index - Green)
Value = B03 * (B08 - B04) / (B08 + B04)

Sentinel - NDVI-GREEN (Normalized Difference Vegetation Index - Green)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [B03 * (B08 - B04) / (B08 + B04)];

NDVI705
VALUE = (B06 - B05) / (B06 + B05)

The NDVI705 is most appropriate for usage with very high spectral resolution reflectance data, e.g. data from hyperspectral sensors. This index is a modification of the broadband NDVI, from which it differs by using bands along the red edge, instead of the main absorption and reflectance peaks. The NDVI705 capitalizes on the sensitivity of the vegetation red edge to small changes in canopy foliage content, gap fraction, and senescence. Applications include precision agriculture, forest monitoring, and vegetation stress detection.

Values description: The values of this index range from -1 to 1. The common range for green vegetation is between values of 0.2 to 0.9.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B06 - B05) / (B06 + B05)];

NDII
VALUE = (B08 - B11) / (B08 + B11)

This index uses a normalized difference formulation instead of a simple ratio. It is a reflectance measurement, sensitive to changes in water content of plant canopies. The index values increase with increasing water content. Applications include agricultural crop management, forest canopy monitoring, and stressed vegetation detection.

Values description: The values of this index range from -1 to 1. The common range for green vegetation is between values of 0.02 to 0.6.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B08 - B11) / (B08 + B11)];

NDI45
Value = (B05 - B04) / (B05 + B04)

Sentinel - NDI45

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B05 - B04) / (B05 + B04)];

NDBI
NDBI = (B11 - B08)/(B11 + B08)

The NDBI highlights urban areas with higher reflectance in the shortwave-infrared (SWIR) region, compared to the Near Infra-red (NIR) region. Applications include watershed runoff predictions and land-use planning.

Values description: Built-up areas have positive values.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B11 - B08)/(B11 + B08)];

NBR-RAW (Normalized Burn Ratio)
Value = (B08 - B12) / (B08 + B12)

Sentinel - NBR-RAW (Normalized Burn Ratio)

To detect burned areas, the NBR-RAW index is the most appropriate choice. It highlights burned areas in large fire zones greater than 500 acres. Create pre- and post-fire NBR images, subtract the post-fire image from the pre-fire image to create a differenced (or delta) NBR image that indicates burn severity.

Values description: Darker pixels indicate burned areas.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B08 - B12) / (B08 + B12)];

MTCI (MERIS Terrestrial Chlorophyll Index)
Value = (B06 - B05) / (B05 - B04)

Sentinel - MTCI (MERIS Terrestrial Chlorophyll Index)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B06 - B05) / (B05 - B04)];

mSR705
VALUE = (B06 - B01) / (B05 - B01)

This index is a modification of the traditional broadband Simple Ratio index. It uses bands in the red edge and incorporates a correction for leaf specular reflection. It has been applied into applications for precision agriculture, forest monitoring, and stressed vegetation detection.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B06 - B01) / (B05 - B01)];

MSI
VALUE = B11 / B08

The MSI is a reflectance measurement, sensitive to increases in leaf water content.

With the increase of water content of leaves in vegetation canopies increases also the strength of absorption around 1599nm. Absorption at 819nm is used as a reference, since it’s nearly unaffected by changing water content. Applications of the MSI include canopy stress analysis, productivity prediction and modelling, fire hazard condition analysis, and studies of ecosystem physiology. This index is inverted relative to other water vegetation indices; higher values indicate greater water stress and less water content.

Values description: The values of this index range from 0 to more than 3. The common range for green vegetation is 0.4 to 2.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [B11 / B08];

MSAVI2 (Second Modified Soil Adjusted Vegetation Index)
Value = (B08 + 1) - 0.5 * sqrt((2 * B08 - 1) ^ 2 + 8 * B04))

Sentinel - MSAVI2 (Second Modified Soil Adjusted Vegetation Index)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B08 + 1) - 0.5 * Math.sqrt((2 * B08 - 1) ^ 2 + 8 * B04))];

MNDWI
VALUE = (B03 - B11)/(B03 + B11)

Using MNDWI is one of the most popular methods for water body mapping. It overcomes the shortcomings of NDWI by using Shortwave Infrared band to replace the Near Infra-red band used in NDWI. In the last few decades, it has been widely applied to produce water body maps at different scales.

Values description: Values of water bodies are larger than 0.8. Vegetation is easy to distinguish from water bodies, since it has much smaller values.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B03 - B11)/(B03 + B11)];

mNDVI705
VALUE = (B06 - B05) / (B06 + B05 - (2 * B01))

This index is a modification of the NDVI705. It incorporates a correction for leaf specular reflection. It also capitalizes on sensitivity of the vegetation red edge to small changes in canopy foliage content, gap fraction, and senescence. It has been applied in applications for precision agriculture, forest monitoring, and vegetation stress detection.

Values description: The values of this index range from -1 to 1, with the common range for green vegetation falling between 0.2 and 0.7.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B06 - B05) / (B06 + B05 - (2 * B01))];

MCARI (Modified Chlorophyll Absorption in Reflectance Index)
Value = 1 - 0.2 * (B05 - B03) / (B05 - B04)

Sentinel - MCARI (Modified Chlorophyll Absorption in Reflectance Index)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [1 - 0.2 * (B05 - B03) / (B05 - B04)];

LAI-SAVI (Leaf Area Index - Soil Adjusted Vegetation Index)
Value = -log(0.371 + 1.5 * (B08 - B04) / (B08 + B04 + 0.5)) / 2.4

Sentinel - LAI-SAVI (Leaf Area Index - Soil Adjusted Vegetation Index)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [-Math.log(0.371 + 1.5 * (B08 - B04) / (B08 + B04 + 0.5)) / 2.4];

IRECI (Inverted Red-Edge Chlorophyll Index)
Value = (B07 - B04) * B06 / B05

Sentinel - IRECI (Inverted Red-Edge Chlorophyll Index)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B07 - B04) * B06 / B05];

GRVI1 (Green-red Vegetation Index)
Value = (B04 - B03) / (B04 + B03)

Sentinel - GRVI1 (Green-red Vegetation Index)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B04 - B03) / (B04 + B03)];

GNDVI (Green Normalized Difference Vegetation Index)
Value = (B08 - B03) / (B08 + B03)

Sentinel - GNDVI (Green Normalized Difference Vegetation Index)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B08 - B03) / (B08 + B03)];

EVI (Enhanced Vegetation Index)
VALUE = 2.5*(B08 - B04) / (B08 + 6*B04 - 7.5*B02 + 1)

In areas of dense canopy where the leaf area index (LAI) is high, the NDVI values can be improved by leveraging information in the blue wavelength. Information in this portion of the spectrum can help correct for soil background signals and atmospheric influences.

Values description: The range of values for the EVI is -1 to 1, where healthy vegetation generally falls between values of 0.20 to 0.80.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [2.5*(B08 - B04) / (B08 + 6*B04 - 7.5*B02 + 1)];

EVI2 (Enhanced Vegetation Index 2)
Value = 2.5 * (B08 - B04) / (B08 + 2.4 * B04 + 1)

Sentinel - EVI2 (Enhanced Vegetation Index 2)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [2.5 * (B08 - B04) / (B08 + 2.4 * B04 + 1)];

CRI2 (Carotenoid Reflectance Index 2)
Value = (1 / B02) - (1 / B05)

Sentinel - CRI2 (Carotenoid Reflectance Index 2)

This index is a reflectance measurement, sensitive to carotenoid pigments in plant foliage. It is a modification of CRI1. Its higher values indicate greater concentration of carotenoid relative to chlorophyll. The reciprocal reflectance at 700nm is used to remove the effect of chlorophyll on the reciprocal reflectance at 510nm. It provides better results in areas of high carotenoid concentration. Higher CRI2 values mean greater concentration of carotenoid relative to chlorophyll.

Values description: The values of this index range from 0 to more than 15. The common range for green vegetation is between values of 1 to 11.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(1 / B02) - (1 / B05)];

CRI1 (Carotenoid Reflectance Index 1)
Value = (1 / B02) - (1 / B03)

Sentinel - CRI1 (Carotenoid Reflectance Index 1)

The CRI1 is a reflectance measurement, sensitive to carotenoid pigments in plant foliage. The estimation of leaf carotenoid content from reflectance is much more difficult than the estimation of chlorophyll. The main reason is the overlap between chlorophyll and carotenoid absorption peaks. In most levels, also the concentration of chlorophyll is higher than carotenoid. The reciprocal reflectance of carotenoid is maximal at 510nm. This value is also influenced by chlorophyll. To remove its effect, the reciprocal reflectance at 550nm is used, which is influenced more purely by chlorophyll alone. Higher values of this index mean greater carotenoid concentration relative to chlorophyll.

Values description: The values of this index range from 0 to more than 15. The common range for green vegetation is between values of 1 to 12.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(1 / B02) - (1 / B03)];

CHL-RED-EDGE (Chlorophyll Red-Edge)
Value = B05 / B08

Sentinel - CHL-RED-EDGE (Chlorophyll Red-Edge)

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [B05 / B08];

BAI (Burn Area Index)
Value = 1 / ((0.1 - B04)^2 + (0.06 - B08)^2)

Sentinel - BAI (Burn Area Index)

By emphasizing the charcoal signal in post-fire images, the BAI highlights burned land in the red to Near Infra-red spectrum. It is computed from the spectral distance from each pixel to a reference spectral point, where recently burned areas converge.

Values description: Brighter pixels indicate burned areas.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [1 / ((0.1 - B04)^2 + (0.06 - B08)^2)];

ARVI
VALUE = (B08 - (2*B04 - B02)) /(B08 + (2*B04 - B02))

The ARVI is most useful in regions of high atmospheric aerosol content. It works by using reflectance measurements in the blue wavelengths to correct for atmospheric scattering effects that register in the red reflectance spectrum..

Values description: The range for an ARVI is -1 to 1 where green vegetation generally falls between values of 0.20 to 0.80.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B08 - (2*B04 - B02)) /(B08 + (2*B04 - B02))];

ARI2 (Anthocyanin Reflectance Index)
Value = (B08 / B02) - (B08 / B03)

Sentinel - ARI2 (Anthocyanin Reflectance Index)

This index is a reflectance measurement, sensitive to anthocyanins in plant foliage. It is a modification of the ARI1, which detects higher concentrations of anthocyanins in vegetation. The increases indicate canopy changes in foliage via new growth or death.

Values description: The values of this index range from 0 to 0.2. The common range for green vegetation is 0.001 to 0.1.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(B08 / B02) - (B08 / B03)];

ARI1 (Anthocyanin Reflectance Index)
Value = (1 / B03) - (1 / B05)

Sentinel - ARI1 (Anthocyanin Reflectance Index)

The increases in this reflectance measurement, sensitive to anthocyanin in plant foliage, indicate changes in foliage via new growth and death. The reciprocal reflectance of anthocyanin is highest around 550nm; however, the reciprocal reflectance value at 550nm is also influenced by chlorophyll. The reciprocal reflectance at 700nm is used as a measure of chlorophyll content to remove the chlorophyll contribution from reflectance around 550nm.

Values description: The values of this index range from 0 to more than 0.2. The common range for green vegetation is between values of 0.001 to 0.1.

Available styles: Grayscale, Blue/Red, Green/White Linear, Red Temperature, Index.

Custom script: return [(1 / B03) - (1 / B05)];

Metadata

OUTLINE

Tile outlines

ID

Tile ID text

FILL

Tile fills

DATE

Tile date text

CLOUDS

Clouds

Raw Bands

Band B12
B12

Sentinel - Band B12

Resolution = 20m/px

Central Wavelength = 2190nm

Bandwidth = 180nm

Purpose = Snow / ice / cloud discrimination

Capabilities = It is useful for measuring the moisture content of soil and vegetation, and it provides good contrast between different types of vegetation. It helps differentiate between snow and clouds. On the other hand, it has limited cloud penetration.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B12];

Band B11
B11

Sentinel - Band B11

Resolution = 20m/px

Central Wavelength = 1610nm

Bandwidth = 90nm

Purpose = Snow / ice / cloud discrimination

Capabilities = It is useful for measuring the moisture content of soil and vegetation, and it provides good contrast between different types of vegetation. It helps differentiate between snow and clouds. On the other hand, it has limited cloud penetration.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B11];

Band B10
B10

Sentinel - Band B10

Resolution = 60m/px

Central Wavelength = 1375nm

Bandwidth = 30nm

Purpose = For cirrus cloud detection.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B10];

Band B09
B09

Sentinel - Band B09

Resolution = 60m/px

Central Wavelength = 945nm

Bandwidth = 20nm

Purpose = It is good for detecting the water vapour.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B09];

Band B08 - NIR (Near Infra-red)
B08

Sentinel - Band B08

Resolution = 10m/px

Central Wavelength = 842nm

Bandwidth = 115nm

Purpose = Near infrared

Capabilities = It is good for mapping shorelines and biomass content, as well as at detecting and analyzing vegetation.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B08];

Band B08A
B8A

Sentinel - Band B8A

Resolution = 20m/px

Central Wavelength = 865nm

Bandwidth = 20nm

Purpose = For classifying the vegetation.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B8A];

 

Band B07
B07

Sentinel - Band B07

Resolution = 20m/px

Central Wavelength = 783nm

Bandwidth = 20nm

Purpose = For classifying the vegetation.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B07];

 

Band B06
B06

Sentinel - Band B06

Resolution = 20m/px

Central Wavelength = 740nm

Bandwidth = 15nm

Purpose = For classifying the vegetation.

Available styles = Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B06];

Band B05 (Red edge)
B05

Sentinel - Band B05

Resolution = 20m/px

Central Wavelength = 705nm

Bandwidth = 15nm

Purpose = For classifying the vegetation.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B05];

Band B04 (Red)
B04

Sentinel - Band B04

Resolution = 10m/px

Central Wavelength = 665nm

Bandwidth = 30nm

Purpose = Red

Capabilities = It reflects well from dead foliage and is useful for identifying vegetation types, soils and urban (city and town) features. It has limited water penetration and doesn’t reflect well from live foliage with chlorophyll.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B04];

 

Band B03 (Green)
B03

Sentinel - Band B03

Resolution = 10m/px

Central Wavelength = 560nm

Bandwidth = 35nm

Purpose = Green

Capabilities = It gives excellent contrast between clear and turbid (muddy) water, and fairly well penetrates clear water. It helps finding oil on the water surface, and vegetation. It reflects more green light than any other visible color. Man-made features are still visible.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B03];

Band B02 (Blue)
B02

Sentinel - Band B02

Resolution = 10m/px

Central Wavelength = 490nm

Bandwidth = 65nm

Purpose = Blue

Capabilities = It is useful for soil and vegetation discrimination, forest type mapping, and identifying man-made features. Scattered by the atmosphere, it illuminates material in shadows better than longer wavelengths, and it also penetrates clear water better than other colors. It is absorbed by chlorophyll, which results in darker plants.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN

Custom script: return [B02];

Band B01
B01

Sentinel - Band B01

Resolution = 60m/px

Central Wavelength = 443nm

Bandwidth = 20nm

Purpose = For aerosol detection.

Available styles: Grayscale, Grayscale advanced, Blue/Red, Green/White Linear, Red Temperature, Reflectance, Sentinel DN.

Custom script: return [B01];

Custom

Custom products are also available using javascript code. Create any product you like!