- William Kaye Estes
Infobox Scientist
name = William Kaye Estes
box_width =
image_width =150px
caption = William Kaye Estes
birth_date =June 17 ,1919
birth_place =Minneapolis ,Minnesota
death_date =
death_place =
residence =
citizenship =
nationality =United States
ethnicity =
field =psychology mathematics
work_institutions =
alma_mater =University of Minnesota
doctoral_advisor =B. F. Skinner
doctoral_students =
known_for =artificial intelligence
author_abbrev_bot =
author_abbrev_zoo =
influences =
influenced =
prizes =
religion =
footnotes =
William Kaye Estes (bornJune 17 ,1919 inMinneapolis ,Minnesota ) is an American scientist. As an undergraduate, he was a student ofB. F. Skinner at theUniversity of Minnesota . When he later had his doctorate, he joined Skinner on the faculty atIndiana University . After Estes got out of theU. S. Army at the end ofWorld War II , he established his reputation as one of the originators of mathematical learning theory. When high speed, high capacity computers later came along, Estes' models laid the foundation for modernartificial intelligence and artificial neural network developments. Estes went from Indiana University toStanford University , toRockefeller University inNew York , and finally toHarvard University where he again worked with Skinner. After retiring from Harvard, he returned toBloomington, Indiana , where he remained active in academics to becomeprofessor emeritus at his original academic home department.One of William Estes's most famous contributions to learning theory was his model of intelligence, in which he postulated that the rate of change in a human's knowledge is equal to the product of their intelligence and the difference between their current level of knowledge and their studiousness. Mathematically, this can be expressed by the differential equation dk/dt+lk=λl, where knowledge k and studiousness λ are expressed as percentages, which has the solution k=λ(1-e^(-lt)), assuming that the human began with no knowledge of the subject. Taking the limit as time approaches infinity, one finds that, given an infinite amount of time, a human's knowledge is equal only to their studiousness; the intelligence l merely affects the rate at which his or her knowledge approaches that limit.References
*Citation
id =PMID :8022959
url= http://www.ncbi.nlm.nih.gov/pubmed/8022959
last=Bower
first=G H
publication-date=1994 Apr
year=1994
title=A turning point in mathematical learning theory.
volume=101
issue=2
periodical=Psychological Review
pages=290-300
Wikimedia Foundation. 2010.
