Simulation of high resolution lunar's Sinus Iridum terrain

Created by W.Langdon from gp-bibliography.bib Revision:1.3872

@InProceedings{QinghuaSu:2011:CIEA,
  author =       "Qinghua Su and Zhao Yan and Falin Wu and 
                 Chunming Xie and Yanlong Chu",
  title =        "Simulation of high resolution lunar's Sinus Iridum
                 terrain",
  booktitle =    "6th IEEE Conference on Industrial Electronics and
                 Applications (ICIEA 2011)",
  year =         "2011",
  month =        "21-23 " # jun,
  pages =        "2589--2592",
  address =      "Beijing, China",
  size =         "4 pages",
  abstract =     "To ensure the lunar lander landing safely, and execute
                 the expected scientific experiments smoothly, a new
                 terrain simulation method is proposed in this paper,
                 which can build a terrain model of Sinus Iridum with a
                 high resolution of better than 1 meter. The terrain
                 surface trend is fitted from a low-resolution terrain
                 with genetic programming (GP) and genetic algorithm
                 (GA). A high resolution terrain with a resolution up to
                 1 cm in a 10m by 10m region is built by applying the
                 distribution laws and the models of craters and rocks
                 in Sinus Iridum region. This method can be used to
                 analyse the landing safety of lunar lander and decide a
                 safe landing site by simulating precisely the real
                 terrain characters.",
  keywords =     "genetic algorithms, genetic programming, GP, Sinus
                 Iridum terrain, craters, low-resolution terrain, lunar
                 lander, rocks, terrain simulation method, terrain
                 surface trend, astronomical techniques, lunar rocks,
                 lunar surface, space vehicles",
  DOI =          "doi:10.1109/ICIEA.2011.5976030",
  ISSN =         "pending",
  notes =        "Also known as \cite{5976030}",
}

Genetic Programming entries for Qinghua Su Zhao Yan Falin Wu Chunming Xie Yanlong Chu

Citations