Engineering:Teaching machine

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Skinner's teaching machine, a mechanical device to control student progress in programmed instruction

Teaching machines were originally mechanical devices that presented educational materials and taught students. They were first invented by Sidney L. Pressey in the mid-1920s.[1] His machine originally administered multiple-choice questions. The machine could be set so it moved on only when the student got the right answer. Tests showed that learning had taken place.[2][3][4][5] This was an example of how knowledge of results causes learning. Much later, Norman Crowder developed the Pressey idea further.[6][7]

B. F. Skinner was responsible for a different type of machine called GLIDER, which used his ideas on how learning should be directed with positive reinforcement.[8] Skinner advocated the use of teaching machines for a broad range of students (e.g., preschool aged to adult) and instructional purposes (e.g., reading and music). The instructional potential of the teaching machine stemmed from several factors: it provided automatic, immediate and regular reinforcement without the use of aversive control; the material presented was coherent, yet varied and novel; the pace of learning could be adjusted to suit the individual. As a result, students were interested, attentive, and learned efficiently by producing the desired behavior, "learning by doing".[9][10]

There is extensive experience that both methods worked well, and so did programmed learning in other forms, such as books.[11] The ideas of teaching machines and programmed learning provided the basis for later ideas such as open learning and computer-assisted instruction.

Illustrations of early teaching machines can be found in the 1960 sourcebook, Teaching Machines and Programmed Learning.[12] An "Autotutor" was demonstrated at the 1964 World's Fair.[13]

Quotes

  • Edward L. Thorndike in 1912: "If, by a miracle of mechanical ingenuity, a book could be so arranged that only to him who had done what was directed on page one would page two become visible, and so on, much that now requires personal instruction could be managed by print".[14]
  • Sidney L. Pressey in 1932: "Education was the one major activity in this country which has thus far not systematically applied ingenuity to the solution of its problems" (p. 668). He thought the machine he developed would lead to an "industrial revolution in education" (p. 672).[4]

See also

References

  1. Pressey's priority is supported by Ernest Hilgard, "Programmed learning", in: Hilgard, Ernest R.; Bower, Gordon H. (1966). "Learning and the technology of instruction". Theories of learning. Century psychology series (3rd ed.). New York: Appleton-Century-Crofts. pp. 541–584 (554–561). OCLC 180603. https://archive.org/details/theoriesoflearni00hilg. 
  2. Pressey, Sidney L. (20 March 1926). "A simple apparatus which gives tests and scores—and teaches". School & Society 23 (586): 373–376. ISSN 0036-6455.  Reprinted in Lumsdaine & Glaser 1960, pp. 35–41.
  3. Pressey, Sidney L. (7 May 1927). "A machine for automatic teaching of drill material". School & Society 25 (645): 549–552. ISSN 0036-6455.  Reprinted in Lumsdaine & Glaser 1960, pp. 42–46.
  4. 4.0 4.1 Pressey, Sidney L. (19 November 1932). "A third and fourth contribution toward the coming 'industrial revolution' in education". School & Society 36 (934): 668–672. ISSN 0036-6455.  Reprinted in Lumsdaine & Glaser 1960, pp. 47–51.
  5. Pressey, Sidney L. (April 1950). "Development and appraisal of devices providing immediate automatic scoring of objective tests and concomitant self-instruction". The Journal of Psychology 29 (2): 417–447. doi:10.1080/00223980.1950.9916043. 
  6. Crowder, Norman A. (1959). "Automatic tutoring by means of intrinsic programming". in Galanter, Eugene. Automatic teaching: the state of the art. New York: Wiley. pp. 109–116. OCLC 705973. https://archive.org/details/automaticteachin0000gala/page/109. 
  7. Crowder, Norman A. (1960). "Automatic tutoring by intrinsic programming". in Lumsdaine, Arthur A.; Glaser, Robert. Teaching machines and programmed learning I: a source book. 1. Washington D.C.: Dept. of Audiovisual Instruction, National Education Association of the United States. pp. 286–298. OCLC 12729062. https://archive.org/details/teachingmachines0000unse/page/286. 
  8. Skinner, B. F. (1968). The technology of teaching. The Century psychology series. New York: Appleton-Century-Crofts. OCLC 180158. https://archive.org/details/technologyofteac00skin.  Includes reprints of all his papers on programmed learning.
  9. Skinner, B. F. (November 1961). "Teaching machines". Scientific American 205 (5): 91–102. doi:10.1038/scientificamerican1161-90. PMID 13913636. 
  10. Holland, James Gordon; Skinner, B. F. (1961). The analysis of behavior: a program for self-instruction. New York: McGraw-Hill. p. 387. OCLC 190451. 
  11. Glaser, Robert, ed (1965). Teaching machines and programmed learning II: data and directions. 2. Washington D.C.: Dept. of Audiovisual Instruction, National Education Association of the United States. OCLC 220279103. https://archive.org/details/ERIC_ED028638. 
  12. Lumsdaine, Arthur A.; Glaser, Robert, eds (1960). Teaching machines and programmed learning I: a source book. 1. Washington D.C.: Dept. of Audiovisual Instruction, National Education Association of the United States. OCLC 12729062. https://archive.org/details/teachingmachines0000unse. 
  13. "Auto-Tutor (1964)" (in en-US). https://paleofuture.com/blog/2008/4/23/auto-tutor-1964.html. 
  14. Thorndike, Edward L. (1912). Education: a first book. New York: Macmillan. p. 165. OCLC 1039688. https://archive.org/details/educationfirstbo00thor.