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References

  • Bettonvil E. J. A. 2005. Least squares estimation of a meteor trajectory and radiant with a Gauss-Markov model. Proceedings of the 2005 International Meteor Conference, Oostmalle, Belgium. pp. 6373.
  • Borovička J. 1990. The comparison of two methods of determining meteor trajectories from photographs. Bulletin of the Astronomical Institutes of Czechoslovakia 41:391396.
  • Ceplecha Z. 1987. Geometric, dynamic, orbital, and photometric data on meteoroids from photographic fireball networks. Bulletin of the Astronomical Institutes of Czechoslovakia 38:222234.
  • Ceplecha Z. 2000. Dynamical behavior of meteoroids in the atmosphere derived from very precise photographic records. Astronomy & Astrophysics 357:11151122.
  • Cerny V. 1985. Thermodynamical approach to the traveling salesman problem: An efficient simulation algorithm. Journal of Optimization Theory and Applications 45:4151.
  • Clark D. L. 2010. Searching for fireball pre-detections in sky surveys. M.S. thesis, The School of Graduate and Postdoctoral Studies, University of Western Ontario, London, Ontario, Canada. Chapter 4.
  • Davidson M. 1936. The computation of the real paths of meteors. Journal of the British Astronomical Association 46:292300.
  • Degenhardt S. and Gural P. S. 2010. A telescopic meteor observed during the Metis campaign. WGN—Journal of the International Meteor Organization 37:3336.
  • Gural P. S. 2000. Leonid storm flux analysis from one Leonid MAC video AL50R. Earth, Moon, and Planets 82–83:221248.
  • Gural P. S. 2011. The California all-sky meteor surveillance (CAMS) system. Proceedings of the International Meteor Conference 2010. Armagh, Northern Ireland, UK. pp. 2831.
  • Jacchia L. G., Verniani F., and Briggs R. E. 1967. An analysis of the atmospheric trajectories of 413 precisely reduced photographic meteors. Smithsonian Contributions to Astrophysics 10:1139.
  • Jenniskens P. 2006. Meteor showers and their parent comets. New York: Cambridge University Press. 790 p.
  • Jenniskens P., Gural P. S., Dynneson L., Grigsby B. J., Newman K. E., Borden M., Koop M., and Holman D. 2011. CAMS: Cameras for all-sky meteor surveillance to establish minor meteor streams. Icarus 216:4061.
  • Kaminski J. Y. and Teicher M. 2002. General trajectory triangulation. Proceedings of the European Conference on Computer Vision. pp. 823826.
  • Kaminski J. Y. and Teicher M. 2004. A general framework for trajectory triangulation. Journal of Mathematical Imaging and Vision 21:2741.
  • Kikwaya J. B., Campbell-Brown M., Brown P. G., Hawkes R. L., and Weryk R. J. 2009. Physical characteristics of very small meteoroids. Astronomy & Astrophysics 497:851867.
  • Kirkpatrick S., Gelatt C. D., and Vecchi M. P. 1983. Optimization by simulated annealing. Science 220:671680.
  • Porter J. G. 1942. The reduction of meteor observations. Memoirs of the British Astronomical Association 34 :3764.
  • Sonotaco. 2010. SonotaCo Network Simultaneously Observed Meteor Data Sets SNM2007A, SNM2008A, SNM2009A. http://sonotaco.jp/doc/SNM/. Accessed May 2012.
  • Southworth R. R. and Hawkins G. S. 1963. Statistics of meteor streams. Smithsonian Contributions to Astrophysics 7:261286.
  • Whipple F. L. and Jacchia L. G. 1957. Reduction methods for photographic meteor trails. Smithsonian Contributions to Astrophysics 1:183206.
  • Wray J. D. 1967. The computation of orbits of doubly photographed meteors. Albuquerque, New Mexico:The University of New Mexico Press, Albuquerque. pp. 518.