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Automation and Artificial Intelligence: How machines are affecting people and places

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At first, technologists issued dystopian alarms about the power of automation and artificial intelligence (AI) to destroy jobs. Then came a correction, with a wave of reassurances. Now, the discourse appears to be arriving at a more complicated understanding, suggesting that automation will bring neither apocalypse nor utopia, but instead both benefits and stress alike. Such is the ambiguous and sometimes disembodied nature of the “future of work” discussion. 

Hence the analysis presented here. Intended to bring often-inscrutable trends down to earth, the following report develops both backward and forward-looking analyses of the impacts of automation over the years 1980 to 2016 and 2016 to 2030 to assess past and upcoming trends as they affect both people and communities in the United States.

The report focuses on areas of potential occupational change rather than net employment losses or gains. Special attention is applied to digging beneath national top-line statistics to explore industry, geographical, and demographic variations. Finally, the report concludes by suggesting a comprehensive response framework for national and state-local policymakers.

Automation: What it is and how it impacts workers

Automation exists to substitute work undertaken by humans with work done by machines, with the aim of increasing the quality and quantity of output at a reduced cost.

How do humans and automation interact?

The concept of automation, and the use of task-based models to analyze it, leads to some general rules that seem to govern the interaction of machines and workers. Here are six basic tendencies in the workings of automation and its interplay with human labor that help in assessment:

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Automation substitutes for labor

If a machine can do a task currently done by humans, it will do it with greater precision, speed, and at a lower cost—but there are limitations to such substitution.

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Machines substitute for tasks, not jobs

A job is a collection of tasks, and even under the most aggressive scenarios, it is unlikely that machines will substitute for all tasks in any one occupation.

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Automation also complements labor

Workplace activity that isn’t taken over by automation is complemented by it—making the remaining human tasks more valuable.

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Automation can increase demand, creating jobs

Automation-driven cost and quality improvements can increase demand to a degree that offsets any would-be job losses.

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Capital and labor augmentation spurs innovation

When machines handle routine, time-consuming activities, human capacity is freed-up to create new products and new tasks.

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Tech possibility is not the same as tech reality

There are many reasons why technological adoption falls short of potential, so it is a mistake to equate technological potential with likely projected outcomes.

In terms of determining the net impact of automation on employment and wages, MIT economist David Autor provides a simplified framework. In it, he highlights three primary dynamics:

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What technology doesn’t replace, it complements

Workers who supply tasks that are substituted by machines are more likely to benefit from automation than are workers who supply tasks that machines can complete.

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Wages will be determined by the ease with which roles in demand can be filled

Wage gains for the remaining tasks completed by humans will be larger when the barriers to entry (e.g. education, training, certification) are higher.

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The number of jobs in an industry will be determined by the complex interaction of automation-driven price, quality, and wealth changes

Automation drives cost and quality improvements for products, as well as productivity and wealth increases for workers, which can mitigate some labor displacement.

Read the report’s details regarding the framing of automation and its impacts on page 14

Findings

The report’s predictions assess the susceptibility of different jobs, places, and demographic groups to disruption by workplace automation and AI. Data produced by McKinsey Global Institute are employed to estimate the percentage of tasks in a given occupation that are potentially automatable given currently available technologies.

“Routine” physical and cognitive tasks will be the most vulnerable

Almost no occupation will be unaffected by technological change in the AI era. Some of the most vulnerable jobs are those in office administration, production, transportation, and food preparation. Such jobs are deemed to face “high risk” with over 70 percent of their tasks potentially automatable. All of these either involve routine, physical labor or information collection and processing activities.

“High risk” jobs represent only one-quarter of all jobs, however. The remaining, more secure jobs include a broader array of occupations ranging from professional and technical roles with high educational requirements to low-paying personal care and domestic service work characterized by non-routine or abstract activities and social and emotional intelligence.

Read more about automation’s impacts on occupations on page 29 »

Automation potential by major occupation group, 2016

Automation will affect different places in varied ways

Automation will take place everywhere, but its inroads will be felt differently across places, varying with local industry, task, and skill mix. Overall, smaller, more rural communities seem significantly more exposed to the automation of current-task content than larger ones. This relationship holds when comparing metropolitan to rural areas as well as among metros of different sizes. Among the country’s 100 largest metros, workers’ education attainment will prove to be decisive.

Read more about automation’s impacts on local geographies on page 37 »

Average automation potential by metropolitan area, 2016

100 largest metropolitan areas

Men, youth, and under-represented groups will be the most affected among demographic groups

The sharp segmentation of the labor market by educational attainment, gender, age, and racial-ethnic identity ensures that some demographic groups are likely to bear more of the burden of adjusting to the AI era than will others. The probable divides are clear: Men, youth, and less educated workers, along with underrepresented groups all appear likely to face significantly more acute challenges from automation in the coming years. Young workers and Hispanics will be especially exposed.

Read more about automation’s impacts on demographic groups on page 44 »

Average automation potential by age or race/ethnicity, 2017

demographics of automation

Strategies for adjusting

Federal, state, local, and civic leaders need to initiate sustained efforts to ensure the labor market works tolerably for people in the AI era of automation.

Five major agendas require attention to mitigate coming stresses as the nation moves into the AI period of automation.

Embrace growth and technology

Run a full-employment economy, both nationally and regionally

Embrace transformative technology to power growth

Promote a constant learning mindset

Invest in reskilling incumbent workers

Expand accelerated learning and certifications

Make skill development more financially accessible

Align and expand traditional education

Foster uniquely human qualities

Facilitate smoother adjustment

Create a Universal Adjustment Benefit to support all displaced workers

Maximize hiring through a subsidized employment program

Reduce hardships for workers who are struggling

Reform and expand income supports for workers in low-paying jobs

Reduce financial volatility for workers in low-wage jobs

Mitigate harsh local impacts

Future-proof vulnerable regional economies

Expand support for community adjustment

Read more about strategies for policymakers to address automation’s impacts on page 47 »

Ian Hathaway provided significant contributions to the production of this report.
Interactive by Alec Friedhoff.

Authors