American computer scientist
Louis Hodes (June 19, 1934 – June 30, 2008) was an American mathematician , computer scientist , and cancer researcher .[ 1]
Early life and computer science work
Louis Hodes got his Bachelor of Science (B.S.) from the Polytechnic Institute of Brooklyn . He got his Doctor of Philosophy (Ph.D.) from the Massachusetts Institute of Technology (MIT) in 1962, under Hartley Rogers with a thesis on computability .[ 1] With John McCarthy , in the late 1950s and early 1960s, he helped produce the earliest implementations of the programming language Lisp ,[ 2]
and under Marvin Minsky he did early research on visual pattern recognition in Lisp.[ 3] [ 4] [ 5] He is also credited by some with the idea, and an initial implementation, of logic programming .[ 1] [ 6] [ 7] [ 8]
Cancer research
In 1966 he moved into cancer-related research, specifically at National Institutes of Health and later the National Cancer Institute where he turned his interest in visual pattern recognition to medical imaging applications.[ 1] [ 9] He also worked on efficient algorithms for screening chemical compounds for studying chemical carcinogenesis.[ 1] [ 10] [ 11] [ 12] [ 13] [ 14] His work on models of clustering for chemical compounds was pronounced a "milestone" by the Developmental Therapeutics Program of the National Cancer Institute, for "revolutioniz[ing] the selection of compounds of interest by measuring the novelty of a chemical structure by comparing it to known compounds."[ 15]
References
^ a b c d e "Obituaries: Louis Hodes: Scientist" . The Washington Post . 1 Aug 2008.
^ McCarthy, J. ; Brayton, R.; Edwards, D.; Fox, P. ; Hodes, L. ; Luckham, D. ; Maling, K.; Park, D. ; Russell, S. (March 1960), LISP I Programmers Manual (PDF) , Boston , Massachusetts : Artificial Intelligence Group, M.I.T. Computation Center and Research Laboratory, archived from the original (PDF) on 2010-07-17, retrieved 11 May 2010
^ MIT research summary report, ch.XVI: Artificial Intelligence, p.166
^ "Artificial Intelligence Project – RLE and MIT Computation Center Memo 18 – Some results from a pattern recognition program using LISP", undated memo, [1]
^ Hodes, L. "Machine Processing of Line Drawings", M.I.T. Lincoln Laboratory Report, 54G-0028 March 1961
^ Minker, Jack (1988). "Perspectives in deductive databases" . The Journal of Logic Programming . 5 : 33–60. doi :10.1016/0743-1066(88)90006-4 .
^ Lobo, Jorge; Minker, Jack; Rajasekar, Arcot (1992). Foundations of Disjunctive Logic Programming . MIT Press. p. 19. ISBN 978-0-262-12165-1 .
^ Hodes, L. Hodes (1966). "Programming languages, logic and cooperative games" . Proceedings of the first ACM symposium on Symbolic and algebraic manipulation . pp. 1201–1217.
^ "A programming system for the on-line analysis of biomedical images", Communications of the ACM v.13, #5 (May 1970) pp. 279–283 ISSN 0001-0782 [2]
^ Feldman, Alfred; Hodes, Louis (1979). "Substructure Search with Queries of Varying Specificity" . Journal of Chemical Information and Computer Sciences . 19 (3): 125–129. doi :10.1021/ci60019a003 .
^ Hodes, Louis (1986). "A two-component approach to predicting antitumor activity from chemical structure in large-scale screening" . Journal of Medicinal Chemistry . 29 (11): 2207–2212. doi :10.1021/jm00161a013 . PMID 3783583 .
^ Hodes, Louis (1989). "Clustering a large number of compounds. 1. Establishing the method on an initial sample" . Journal of Chemical Information and Computer Sciences . 29 (2): 66–71. doi :10.1021/ci00062a004 . PMID 2745581 .
^ Hodes, Louis (1981). "Selection of molecular fragment features for structure-activity studies in antitumor screening" . Journal of Chemical Information and Computer Sciences . 21 (3): 132–136. doi :10.1021/ci00031a004 . PMID 7287834 .
^ Hodes, Louis (1981). "Computer-aided selection of compounds for antitumor screening: Validation of a statistical-heuristic method" . Journal of Chemical Information and Computer Sciences . 21 (3): 128–132. doi :10.1021/ci00031a003 . PMID 7287833 .
^ "Developmental Therapeutics Program (DTP)" . National Cancer Institute, Division of Cancer Treatment and Diagnosis . Retrieved 2024-10-31 .