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The Lunar Reconnaissance Orbiter Camera addresses the measurement requirements of landing site certification and polar illumination. LROC comprises a pair of narrow-angle cameras (NAC) and a single wide-angle camera (WAC).

MarsSI only redistribute and process NAC imagery, WAC imagery is better served through the global mosaic produced and distributed by USGS.

Contents[+]
  1. Instrument description
  2. Downloading and processing LROC NAC data[+]
    1. Imagery[+]
      1. Tutorial
      2. Pipeline information
  3. Data description[+]
    1. Images[+]
      1. Directory content
  4. References

Instrument description

The two Narrow Angle Cameras feature a Cassegrain (Ritchey-Chretien) primary optics at f/3.59, with primary mirror diameter of 19.5 cm,[34] using push-broom imaging. At its original altitude of about 50 km, each NAC images pixels about 0.5-meter across, and the swath, which is 5064 pixels wide, is about 2.5 km across. The orbit was raised in 2011 to be elliptical, reducing the resolution in parts of the orbit to 2.0 m/px.

MarsSI simplifies the dataset by unifying the output of both cameras and only presenting one observation. Both EDR (LE and RE) products will be retrieved and are merged during the calibration step. If only one of the two images was available, the resulting product only incorporate this observaton. The product name do not include the LE/RE suffix.

Downloading and processing LROC NAC data

Imagery

Tutorial

If you are not currently set to target the moon, click on the "Target" tab on the very left, and select "Moon".

From the “Maps” tab, zoom-in on your region of interest. You can switch backgrounds (LROCWAC, LOLA) for more precision, and then display the LROCNAC layer. You can see the LROCNAC products footprints. Use the “Select” button to choose the products you desire over an area. Use the right-click context menu to add your selection to your workspace.

wiki/LROCNAC/select_lrocnac.jpg

Tip

There is a lot of LROCNAC data, if you want to sort them, you can try to use the temporal filter to limit the number of displayed products, do a first selection, then update the filter and selection until you have enough data.

In the "Workspace" tab, you will see your product selection. LROCNAC images can be processed in different steps: first a raw product (NACEDR) is downloaded. It can be processed into a calibrated NACRDR product. The last step reproject and georeference the NACRDR product into a NACMRDR image.

Check the product status: if some data is not already done yet, select the rows you would like to request by ticking the input on the left column (you can use the "Select all" button to select all visible products) and click on the "Process" action on the top of the workspace table. You can check more information about the processing in the job tab if needed.

Once all the data you would like is done, select entries by ticking the input on the left column (you can use the "Select all" button to select all visible products) and click on the "Copy" action to request a copy of the data in your personal directory. You can then proceed to download products as described in the SFTP section.

Pipeline information

The pipelines used for the data calibration and projection are those proposed by ISIS3 (https://isis.astrogeology.usgs.gov/index.html).

Data description

Images

Directory content

The content of an LROC product directory in MarsSI should look like:

MXXXXXXXXLE.IMG, MXXXXXXXXRE.IMG
raw data (EDR NAC), one file for LE camera, one for RE camera
MXXXXXXXX_RDR.cub
reflectance (irradiance/solar flux or I/F) called Radiometric Data Record, stitched in a single image
MXXXXXXXX_MRDR.tif
projected and georeferenced image from the RDR

References