Add to ORKGThe surfaces of solid planets are covered with a tremendous number of craters of various shape and size that reflect the geological history and rheology of the planetary sur-faces. In the present study we examined crater detection and categorization system for planetary images in view of data mining from a large-scale scientific image database. Crater detection by combinational Hough transforms and generic algorithm and cate-gorization by self-organizing mapping are in-vestigated as component processes in detail. 1
Craters are distinctive features on the surfaces of most terrestrial planets such as Mars and Venus....
International audienceABSTRACT. The most recent comprehensive database of Martian impact craters was...
Craters are among the most studied geomorphic features in the Solar System because they yield import...
Proc. International Workshop on Machine Learning of Spatial Knowledge in conjunction with ICM
Craters are topographic features on planetary surfaces resulting from impacts of meteoroids. Craters...
Data Mining is a tool that extracts useful and novel patterns from great amounts of data. According ...
Because of the large variety of sensors and spacecraft collecting data, planetary science needs to i...
Detecting craters can be useful for a broad variety of tasks, such as monitoring the development of...
Impact craters are among the most studied geomorphic planetary features because they yield informati...
Recent approaches to crater detection have been inspired by face detection's use of gray-scale textu...
AbstractImpacted craters are commonly found on the surface of planets, satellites, asteroids and oth...
© 2014 IEEE. A manual process for detecting and counting craters on the surface of a planetary body ...
AbstractImpact craters are commonly found on the surface of planets, satellites, asteroids, and othe...
International audienceABSTRACT. The most recent comprehensive database of Martian impact craters was...
Impact craters are the most outstanding and attractive geomorphological features on the surface of t...
Craters are distinctive features on the surfaces of most terrestrial planets such as Mars and Venus....
International audienceABSTRACT. The most recent comprehensive database of Martian impact craters was...
Craters are among the most studied geomorphic features in the Solar System because they yield import...
Proc. International Workshop on Machine Learning of Spatial Knowledge in conjunction with ICM
Craters are topographic features on planetary surfaces resulting from impacts of meteoroids. Craters...
Data Mining is a tool that extracts useful and novel patterns from great amounts of data. According ...
Because of the large variety of sensors and spacecraft collecting data, planetary science needs to i...
Detecting craters can be useful for a broad variety of tasks, such as monitoring the development of...
Impact craters are among the most studied geomorphic planetary features because they yield informati...
Recent approaches to crater detection have been inspired by face detection's use of gray-scale textu...
AbstractImpacted craters are commonly found on the surface of planets, satellites, asteroids and oth...
© 2014 IEEE. A manual process for detecting and counting craters on the surface of a planetary body ...
AbstractImpact craters are commonly found on the surface of planets, satellites, asteroids, and othe...
International audienceABSTRACT. The most recent comprehensive database of Martian impact craters was...
Impact craters are the most outstanding and attractive geomorphological features on the surface of t...
Craters are distinctive features on the surfaces of most terrestrial planets such as Mars and Venus....
International audienceABSTRACT. The most recent comprehensive database of Martian impact craters was...
Craters are among the most studied geomorphic features in the Solar System because they yield import...