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Artificial Intelligence, Automation and Work

NBER WORKING PAPER SERIESARTIFICIAL INTELLIGENCE, Automation AND WORKD aron AcemogluPascual RestrepoWorking Paper 24196 BUREAU OF ECONOMIC RESEARCH1050 Massachusetts AvenueCambridge, MA 02138 January 2018 Prepared for Economics of Artificial Intelligence, edited by Ajay Agarwal, Avi Goldfarb and Joshua Gans. We are grateful to David Autor for useful comments. We gratefully acknowledge financial support from Toulouse Network on Information Technology, Google, Microsoft, IBM and the Sloan Foundation. The views expressed herein are those of the authors and do not necessarily reflect the views of the National Bureau of Economic working papers are circulated for discussion and comment purposes.

and excessive automation, and other constraints on labor market adjustment to automa-tion technologies. Section 6 concludes, and the Appendix contains derivations and proofs omitted from the text. 2 Automation, Work, and Wages: An Overview At the heart of our framework is the observation that robotics and current practice in AI

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Transcription of Artificial Intelligence, Automation and Work

1 NBER WORKING PAPER SERIESARTIFICIAL INTELLIGENCE, Automation AND WORKD aron AcemogluPascual RestrepoWorking Paper 24196 BUREAU OF ECONOMIC RESEARCH1050 Massachusetts AvenueCambridge, MA 02138 January 2018 Prepared for Economics of Artificial Intelligence, edited by Ajay Agarwal, Avi Goldfarb and Joshua Gans. We are grateful to David Autor for useful comments. We gratefully acknowledge financial support from Toulouse Network on Information Technology, Google, Microsoft, IBM and the Sloan Foundation. The views expressed herein are those of the authors and do not necessarily reflect the views of the National Bureau of Economic working papers are circulated for discussion and comment purposes.

2 They have not been peer-reviewed or been subject to the review by the NBER Board of Directors that accompanies official NBER publications. 2018 by Daron Acemoglu and Pascual Restrepo. All rights reserved. Short sections of text, not to exceed two paragraphs, may be quoted without explicit permission provided that full credit, including notice, is given to the Intelligence, Automation and WorkDaron Acemoglu and Pascual RestrepoNBER Working Paper No. 24196 January 2018 JEL No. J23,J24 ABSTRACTWe summarize a framework for the study of the implications of Automation and AI on the demand for labor, wages, and employment.

3 Our task-based framework emphasizes the displacement effect that Automation creates as machines and AI replace labor in tasks that it used to perform. This displacement effect tends to reduce the demand for labor and wages. But it is counteracted by a productivity effect, resulting from the cost savings generated by Automation , which increase the demand for labor in non-automated tasks. The productivity effect is complemented by additional capital accumulation and the deepening of Automation (improvements of existing machinery), both of which further increase the demand for labor.

4 These countervailing effects are incomplete. Even when they are strong, Automation in- creases output per worker more than wages and reduce the share of labor in national income. The more powerful countervailing force against Automation is the creation of new labor-intensive tasks, which reinstates labor in new activities and tends to increase the labor share to counterbalance the impact of Automation . Our framework also highlights the constraints and imperfections that slow down the adjustment of the economy and the labor market to Automation and weaken the resulting productivity gains from this transformation: a mismatch between the skill requirements of new technologies, and the possibility that Automation is being introduced at an excessive rate, possibly at the expense of other productivity-enhancing AcemogluDepartment of Economics, E52-446 MIT77 Massachusetts AvenueCambridge, MA 02139and CIFARand also RestrepoDepartment of EconomicsBoston University270 Bay State RdBoston, MA 02215and Cowles Foundation, IntroductionThe last two decades have witnessed major advances in Artificial intelligence (AI) androbotics.

5 Future progress is expected to be even more spectacular and many commenta-tors predict that these technologies will transform work around the world (Brynjolfssonand McAfee, 2012; Ford, 2016; Boston Consulting Group, 2015; McKinsey, 2017). Re-cent surveys find high levels of anxiety about Automation and othertechnological trends,underscoring the widespread concerns about their effects (Pew Research Center, 2017).These expectations and concerns notwithstanding, we are far from a satisfactory un-derstanding of how Automation in general, and AI and robotics in particular, impact thelabor market and productivity. Even worse, much of the debate in both the popular pressand academic circles centers around a false dichotomy.

6 On the one side are the alarmistarguments that the oncoming advances in AI and robotics will spell the end of work byhumans, while many economists on the other side claim that because technological break-throughs in the past have eventually increased the demand for labor and wages, there isno reason to be concerned that this time will be any this essay, we build on Acemoglu and Restrepo (2016), as well as Zeira (1998) andAcemoglu and Autor (2011) to develop a framework for thinking about Automation andits impact on tasks, productivity, and the heart of our framework is the idea that Automation and thusAI and roboticsreplace workers in tasks that they previously performed, and via this channel, create apowerfuldisplacement effect.

7 In contrast to prevailing presumptions in much of macroe-conomics and labor economics, which maintain that productivity-enhancing technologiesalways increase overall labor demand, the displacement effect can reduce the demand forlabor, wages and employment. Moreover, the displacement effect implies that increases inoutput per worker arising from Automation will not result in a proportional expansion ofthe demand for labor. The displacement effect causes a decoupling of wages and outputper worker, and a decline in the share of labor in national then highlight several countervailing forces, which push againstthe displacementeffect and may imply that Automation , AI, and robotics could increase labor , the substitution of cheaper machines for human labor creates aproductivity effect:as the cost of producing automated tasks declines, the economy will expand and increasethe demand for labor in non-automated tasks.

8 The productivity effect could manifestitself as an increase in the demand for labor in the same sectors undergoing automationor as an increase in the demand for labor in non-automating sectors. Second,capitalaccumulationtriggered by increased Automation (which raises the demand for capital)will also raise the demand for labor. Third, Automation does not justoperate at theextensive margin replacing tasks previously performed by labor but at the intensive1margin as well, increasing the productivity of machines in tasks that have already beenautomated. This phenomenon, which we refer to asdeepening of Automation , tends tocreate a productivity effect but no displacement, and thus increases labor these countervailing effects are important, they are generally insufficient toengender a balanced growth path, meaning that even if these effects were powerful,ongoing Automation would still reduce the share of labor in national income (and possiblyemployment which tends to be linked to the labor share).

9 We argue that there is a morepowerful countervailing force that increases the demand for labor as well as the share oflabor in national income: thecreation of new tasks, functions and activities in which laborhas a comparative advantage relative to machines. The creation ofnew tasks generates areinstatement effectdirectly counterbalancing the displacement , throughout history, we have not just witnessed pervasive Automation , but acontinuous process of new tasks creating new employment opportunities for labor. Astasks in textiles, metals, agriculture and other industries were being automated in the19th and 20th centuries, a new range of tasks in factory work, engineering, repair, back-office, management and finance generated demand for displaced workers.

10 The creationof new tasks is not an autonomous process advancing at a predetermined rate, but onewhose speed and nature are shaped by the decisions of firms, workers and other actorsin society, and which might be fueled by new Automation , this isbecause Automation , by displacing workers, may create a greaterpool of labor that couldbe employed in new tasks. Second, the currently most discussed Automation technology,AI itself, can serve as a platform to create new tasks in many service framework also highlights that even with these countervailing forces, the adjust-ment of an economy to the rapid rollout of Automation technologies could be slow andpainful.


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