Forks over knives: Predictive inconsistency in criminal justice algorithmic risk assessment tools

Forks over knives: Predictive inconsistency in criminal justice algorithmic risk assessment tools

Big data and algorithmic risk prediction tools promise to improve criminal justice systems by reducing human biases and inconsistencies in decision-making. Yet different, equally justifiable choices when developing, testing and deploying these socio-technical tools can lead to disparate predicted ri...

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Bibliographic Details
Main Authors: GREENE, Travis, SHMUELI, Galit, FELL, Jan, LIN, Ching-Fu, LIU, Han-wei
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2022
Subjects:
algorithmic risk prediction
criminal justice
forking paths
multiverse analysis
pluralism
predictive inconsistency
specification curve analysis
Criminal Law
Theory and Algorithms
Online Access:https://ink.library.smu.edu.sg/sol_research/4397
https://ink.library.smu.edu.sg/context/sol_research/article/6355/viewcontent/jrsssa_185_supplement_2_s692.pdf
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Institution: Singapore Management University
Language: English
Description
Summary:Big data and algorithmic risk prediction tools promise to improve criminal justice systems by reducing human biases and inconsistencies in decision-making. Yet different, equally justifiable choices when developing, testing and deploying these socio-technical tools can lead to disparate predicted risk scores for the same individual. Synthesising diverse perspectives from machine learning, statistics, sociology, criminology, law, philosophy and economics, we conceptualise this phenomenon as predictive inconsistency. We describe sources of predictive inconsistency at different stages of algorithmic risk assessment tool development and deployment and consider how future technological developments may amplify predictive inconsistency. We argue, however, that in a diverse and pluralistic society we should not expect to completely eliminate predictive inconsistency. Instead, to bolster the legal, political and scientific legitimacy of algorithmic risk prediction tools, we propose identifying and documenting relevant and reasonable ‘forking paths’ to enable quantifiable, reproducible multiverse and specification curve analyses of predictive inconsistency at the individual level.

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