Planetary imaging from unmanned spacecraft, almost exclusively done by digital systems, is examined. The Mars Mariner 9 television camera, representative of such systems, is considered. Each image consists of 700 lines, each containing 832 picture elements, or pixels. Each pixel contains nine binary bits of information capable of displaying 512 discrete brightness levels. Several problems inherent in television systems are discussed. These include nonuniform target response, residual images, noise, and blemishes. These defects can be removed to some extent by decalibration of the image. The final product is geometrically corrected for camera distortion and photometrically corrected. Several versions of the decalibrated images are available....
The extremely long mission of the two Viking Orbiter spacecraft produced a wealth of photos of surfa...
The development of new spacecraft camera systems to be used in conjunction with CCD sensors is repor...
Progress on a project to elucidate the geological and topographic setting of the Martian polar volat...
The Mariner 9 television experiment used two cameras to photograph Mars from an orbiting spacecraft....
Improved processing of the Mariner 9 Television data allows more accurate photometric analysis of th...
The Mariner 10 television science subsystem was an improved version of the Mariner 9 system, using 1...
High resolution electronic camera mounted on spacecraft for geological survey of planet Mar
The Mariner 9 TV data that are now available from the National Space Science Data Center are describ...
This document describes the content and organization of the Mariner 9 Mission Test Computer/Mission ...
Design, video data characteristics, error control, and compression algorithms for Mars television ma...
A total of 201 complete television frames of Mars were returned by Mariners 6 and 7 in late July and...
Data from six Mariner Mars experiments are presented. Television reconnaissance of Mars and its sate...
Many overlapping pictures, potential data for the construction of topographic maps, were obtained by...
Press kit for Mariner 6 and Mariner 7 Mars flyby missions and TV coverage of surfac
A series of photomosaics of high-resolution Viking Orbiter images of Mars is being prepared and publ...
The extremely long mission of the two Viking Orbiter spacecraft produced a wealth of photos of surfa...
The development of new spacecraft camera systems to be used in conjunction with CCD sensors is repor...
Progress on a project to elucidate the geological and topographic setting of the Martian polar volat...
The Mariner 9 television experiment used two cameras to photograph Mars from an orbiting spacecraft....
Improved processing of the Mariner 9 Television data allows more accurate photometric analysis of th...
The Mariner 10 television science subsystem was an improved version of the Mariner 9 system, using 1...
High resolution electronic camera mounted on spacecraft for geological survey of planet Mar
The Mariner 9 TV data that are now available from the National Space Science Data Center are describ...
This document describes the content and organization of the Mariner 9 Mission Test Computer/Mission ...
Design, video data characteristics, error control, and compression algorithms for Mars television ma...
A total of 201 complete television frames of Mars were returned by Mariners 6 and 7 in late July and...
Data from six Mariner Mars experiments are presented. Television reconnaissance of Mars and its sate...
Many overlapping pictures, potential data for the construction of topographic maps, were obtained by...
Press kit for Mariner 6 and Mariner 7 Mars flyby missions and TV coverage of surfac
A series of photomosaics of high-resolution Viking Orbiter images of Mars is being prepared and publ...
The extremely long mission of the two Viking Orbiter spacecraft produced a wealth of photos of surfa...
The development of new spacecraft camera systems to be used in conjunction with CCD sensors is repor...
Progress on a project to elucidate the geological and topographic setting of the Martian polar volat...