Experimental Design Strategy: Weak Reinforcement Leads to Increased Hit Rates and Enhanced Chemical Diversity. Maciejewski, M.; Mai Wassermann, A.; Glick, M.; and Lounkine, E. Journal of Chemical Information and Modeling (JCISD), 55(5):956-962, 2015.
Experimental Design Strategy: Weak Reinforcement Leads to Increased Hit Rates and Enhanced Chemical Diversity [link]Paper  bibtex   
@article{ dblp1912914,
  title = {Experimental Design Strategy: Weak Reinforcement Leads to Increased Hit Rates and Enhanced Chemical Diversity},
  author = {Mateusz Maciejewski and Anne Mai Wassermann and Meir Glick and Eugen Lounkine},
  author_short = {Maciejewski, M. and Mai Wassermann, A. and Glick, M. and Lounkine, E.},
  bibtype = {article},
  type = {article},
  year = {2015},
  key = {dblp1912914},
  id = {dblp1912914},
  biburl = {http://www.dblp.org/rec/bibtex/journals/jcisd/MaciejewskiWGL15},
  url = {http://dx.doi.org/10.1021/acs.jcim.5b00054},
  journal = {Journal of Chemical Information and Modeling (JCISD)},
  pages = {956-962},
  number = {5},
  volume = {55},
  text = {Journal of Chemical Information and Modeling (JCISD) 55(5):956-962 (2015)}
}
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