Collection Information
|
IDENTIFIER |
urn:nasa:pds:mars_mro_ctx_globalmosaicv01_murraylab_2023:data::1.0
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NAME |
Mars MRO CTX Global Mosaic Murray Lab v1
|
TYPE |
Data
|
DESCRIPTION |
Collection listing for the available data for the V01 release of the
Global CTX Mosaic, by Caltech's Murray Lab
|
SEARCH/ACCESS DATA |
Mars MRO CTX Global Mosaic Murray Lab v1 Online
|
|
|
Citation |
DIGITAL OBJECT IDENTIFIER (DOI) |
10.17189/m23v-ae12
|
AUTHOR LIST |
Dickson, James; Ehlmann, Bethany; Kerber, Laura; Fassett, Caleb
|
EDITOR LIST |
|
PUBLICATION YEAR |
2023
|
DESCRIPTION |
Collection listing for the available data for the V01 release of the
Global CTX Mosaic, by Caltech's Murray Lab
|
|
|
Context |
START DATE TIME |
1965-01-01T12:00:00.000Z
|
STOP DATE TIME |
N/A (ongoing)
|
LOCAL MEAN SOLAR TIME |
|
LOCAL TRUE SOLAR TIME |
|
SOLAR LONGITUDE |
|
PRIMARY RESULT PURPOSE |
SCIENCE
|
PRIMARY RESULT PROCESSING LEVEL |
Derived
|
PRIMARY RESULT DESCRIPTION |
Image mosaics of planetary surfaces are essential for both engineering
and scientific tasks. A community focus has been aimed at maximizing
the engineering value of mosaics, including adoption of the term
"foundational" to describe the role mosaics play as datasets upon
which other products can be reliably placed. Less work has been done
to increase the intrinsic scientific value of image mosaics themselves,
of particular importance for CTX, which provides the highest-resolution
coverage of > 90% of the surface of Mars.
|
PRIMARY RESULT WAVELENGTH RANGE |
|
PRIMARY RESULT DOMAIN |
|
PRIMARY RESULT DISCIPLINE NAME |
|
INVESTIGATION |
MARS RECONNAISSANCE ORBITER
MARS RECONNAISSANCE ORBITER CONTEXT CAMERA (CTX)
|
OBSERVING SYSTEM |
|
OBSERVING SYSTEM COMPONENT |
Context Camera
|
TARGET |
MARS
|
REFERENCES |
|