Difference between revisions of "Saha2024"

From emcawiki
Jump to: navigation, search
m (AndreiKorbut moved page Saha2023 to Saha2024 without leaving a redirect)
 
(One intermediate revision by the same user not shown)
Line 4: Line 4:
 
|Title=Thinking Like a Machine: Alan Turing, Computation and the Praxeological Foundations of AI
 
|Title=Thinking Like a Machine: Alan Turing, Computation and the Praxeological Foundations of AI
 
|Tag(s)=EMCA; Turing machine; Computation; Artificial intelligence; Ethnomethodology; Re-enactment; AI Reference List
 
|Tag(s)=EMCA; Turing machine; Computation; Artificial intelligence; Ethnomethodology; Re-enactment; AI Reference List
|Key=Saha2023
+
|Key=Saha2024
|Year=2023
+
|Year=2024
 
|Language=English
 
|Language=English
 
|Journal=Science & Technology Studies
 
|Journal=Science & Technology Studies

Latest revision as of 00:06, 3 June 2024

Saha2024
BibType ARTICLE
Key Saha2024
Author(s) Dipanjan Saha, Phillip Brooker, Michael Mair, Stuart Reeves
Title Thinking Like a Machine: Alan Turing, Computation and the Praxeological Foundations of AI
Editor(s)
Tag(s) EMCA, Turing machine, Computation, Artificial intelligence, Ethnomethodology, Re-enactment, AI Reference List
Publisher
Year 2024
Language English
City
Month
Journal Science & Technology Studies
Volume 37
Number 2
Pages 66–88
URL Link
DOI 10.23987/sts.122892
ISBN
Organization
Institution
School
Type
Edition
Series
Howpublished
Book title
Chapter

Download BibTex

Abstract

As part of ongoing research bridging ethnomethodology and computer science, in this article we offer an alternate reading of Alan Turing’s 1936 paper, “On Computable Numbers”. Following through Turing’s machinic respecification of computation, we hope to contribute to a deflationary position on AI by showing that the activities attributed to AIs are achieved in the course of methodic hands-on work with computational systems and not in isolation by them. Turing’s major innovation was a demonstration that mathematical and logical operations could be broken down into elementary, mechanically executable operations, devoid of intellectual content. Drawing out lessons from a re-enactment of Turing’s methods as a means of reflecting on contemporary artificial intelligence (AI), including the way those methods disappear into the technology, we will suggest the interesting question raised in “On Computable Numbers” is less about the possibilities of designing machines that “can think” (cf. Turing, 1950), but the practical work we do, and which is made possible, when we ourselves set out to think like machines.

Notes