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New methods for the analysis of binarized BIOLOG GN data of vibrio species: Minimization of stochastic complexity and cumulative classification.

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Chicago
GYLLENBERG, M, T KOSKI, Peter Dawyndt, T LUND, F THOMPSON, B AUSTIN, and Jean Swings. 2002. “New Methods for the Analysis of Binarized BIOLOG GN Data of Vibrio Species: Minimization of Stochastic Complexity and Cumulative Classification.” Systematic and Applied Microbiology 25 (3): 403–415.
APA
GYLLENBERG, M., KOSKI, T., Dawyndt, P., LUND, T., THOMPSON, F., AUSTIN, B., & Swings, J. (2002). New methods for the analysis of binarized BIOLOG GN data of vibrio species: Minimization of stochastic complexity and cumulative classification. SYSTEMATIC AND APPLIED MICROBIOLOGY, 25(3), 403–415.
Vancouver
1.
GYLLENBERG M, KOSKI T, Dawyndt P, LUND T, THOMPSON F, AUSTIN B, et al. New methods for the analysis of binarized BIOLOG GN data of vibrio species: Minimization of stochastic complexity and cumulative classification. SYSTEMATIC AND APPLIED MICROBIOLOGY. 2002;25(3):403–15.
MLA
GYLLENBERG, M, T KOSKI, Peter Dawyndt, et al. “New Methods for the Analysis of Binarized BIOLOG GN Data of Vibrio Species: Minimization of Stochastic Complexity and Cumulative Classification.” SYSTEMATIC AND APPLIED MICROBIOLOGY 25.3 (2002): 403–415. Print.
@article{162995,
  author       = {GYLLENBERG, M and KOSKI, T and Dawyndt, Peter and LUND, T and THOMPSON, F and AUSTIN, B and Swings, Jean},
  issn         = {0723-2020},
  journal      = {SYSTEMATIC AND APPLIED MICROBIOLOGY},
  language     = {eng},
  number       = {3},
  pages        = {403--415},
  title        = {New methods for the analysis of binarized BIOLOG GN data of vibrio species: Minimization of stochastic complexity and cumulative classification.},
  volume       = {25},
  year         = {2002},
}

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