Project and content management for Contemporary Authors volumes
WORK TITLE: Superminds
WORK NOTES:
PSEUDONYM(S):
BIRTHDATE: 6/2/1952
WEBSITE:
CITY: Cambridge
STATE: MA
COUNTRY: United States
NATIONALITY: American
Assistant: Yubettys Baez,Telephone: +1-617-253-2656 Email: ybaez@mit.edu http://cci.mit.edu/malone/
RESEARCHER NOTES:
PERSONAL
Born June 2, 1952.
EDUCATION:Earned degrees in applied mathematics, engineering, and psychology; Stanford University, Ph.D.
ADDRESS
CAREER
Writer, editor, information technologist, and educator. Massachusetts Institute of Technology, Cambridge, MA, Patrick J. McGovern Professor of Management at the MIT Sloan School of Management, professor of information technology, professor of work and organizational studies, founding director of the MIT Center for Collective Intelligence, previously founder and director of the MIT Center for Coordination Science and a founding co-director of the MIT Initiative on “Inventing the Organizations of the 21st Century.” Previously worked as a research scientist at Xerox Palo Alto Research Center (PARC), Palo Alto, CA. Also cofounder of four software companies; has consulted and served as a board member for various organizations.
WRITINGS
Contributor to books and periodicals.
SIDELIGHTS
Thomas M. Malone is a professor management and information technology. In addition to information technology classes, he teaches classes on organizational design and leadership. His research focuses on how to design new organizations to take advantage of the possibilities provided by information technology. As early as 1987, Malone predicted many of the major developments in electronic business that took place over the next twenty-five years. Malone is the author and editor of books focusing on his areas of interest.
The Future of Work
In his book titled The Future of Work: How the New Order of Business Will Shape Your Organization, Your Management Style, and Your Life, Malone summarizes his previous two decades of research concerning how technology would change and shape organizations. In the process, Malone provides a model for designing the company of the future. According to Malone, a revolution in the workplace is dramatically changing organizational structures and the roles of employees. Various technological and economic factors are leading to a rethinking of the “command and control” management style. Instead, according to Malone, a more flexible style that uses a “coordinate and cultivate” approach. As a result, decentralized organizations will grow in various sectors, from the marketplace to government.
Malone notes that work projects will be increasingly be handled by small groups or companies featuring electronically collected freelancers. These freelancers will come together to work on specific projects and then disband and regroup in different configuratins and areas of expertise depending on the project. Throughout the book, Malone examines the skills that managers will need to acquire to work in an environment in which everyone has the power to make decisions.
Malone closes The Future of Work with a chapter focusing on the how readers can look within themselves to find their highest value. He suggests readers imagining what they would like to accomplish before they die and discusses how to apply their values to the workplace. Malone also reviews the idea of establishing guilds, like the craft associations during the Middle Ages, to ensure that “e-lancers” have the security often associated with traditional employment, from health care benefits and financial security to social interactions with peers.
“Managers of all kinds can find ideas and insights,” wrote a Transform contributor. Bruce Rosenstein, writing for USA Today, remarked: “Thomas W. Malone’s briskly written, insightful The Future of Work sketches out what your work life may be like in the near future, whether you are ready or not.”
Handbook of Collective Intelligence
Malone is coeditor with Michael S. Bernstein of Handbook of Collective Intelligence. The book features essays on research and developments in the rapidly growing multidisciplinary field of collective intelligence. The field focuses on the study of groups of individuals acting collectively in a manner that appears to be intelligent. The idea is that intelligence does not just come from individual brains but also developed in groups of individuals.
Essays focus on collective intelligence within specific disciplines with an emphasis on social sciences, computer science, and business as overarching themes. The editors profile introductions to each chapter to united the various disciplinary discussions. Choice contributor D.D. Tritt recommended the book for “upper-division undergraduates through researchers and faculty; professionals and practitioners.”
Superminds
Malone continues his discussion of new kinds of intelligence with his book titled Superminds: The Surprising Power of People and Computers Thinking Together. Malone writes that much of the focus in information technology circles has been on the idea that computers can become more intelligent by teaching themselves. As a result, Malone believes that the idea of collective intelligence, in this case the idea of groups of people and computers working together, is largely being ignored in favor of focusing on the promise of neural networks and deep learning.
According to Malone, groups of people and computers working together can form a type of supermind that can achieve more in terms of intelligence than any single person, group, or computer. Writing in Sloan Management Review Online, Malone noted: “All superminds have a kind of collective intelligence, an ability to do things that the individuals in the groups couldn’t have done alone. What’s new is that machines can increasingly participate in the intellectual, as well as the physical, activities of these groups. That means we will be able to combine people and machines to create superminds that are smarter than any groups or individuals our planet has ever known.”
Malone breaks Superminds up into seven parts. He begins with a discussion of what superminds are followed by an examination of how computers can make superminds formed by groups of people even smarter. He explores how superminds can make smarter decisions and be more intelligent in the creative process. Another section discusses how superminds can help solve some serious problems, such as climate change. Malone also delves into potential risks associated with artificial intelligence. He closes with a section focusing on collective intelligence in the future and what he calls the “global mind.” A Kirkus Reviews contributor called Superminds “a book rich in speculation about how collective thinking might solve big problems.”
BIOCRIT
PERIODICALS
Choice, November, 2016, D.D. Tritt, review of Handbook of Collective Intelligence, p. 392.
Computerworld, July 5, 2004, Mitch Betts, “Best Bits,” review of The Future of Work: How the New Order of Business Will Shape Your Organization, Your Management Style, and Your Life, p. 36.
Kirkus Reviews, March 15, 2018, review of Superminds: The Surprising Power of People and Computers Thinking Together.
Transform, April, 2004. Thomas W. Malone, review of The Future of Work, p. 40.
USA Today, April 12, 2004, Bruce Rosenstein, “Tomorrow’s Work Forecast,” review of The Future of Work, p. 11B.
ONLINE
MIT Center for Collective Intelligence website, http://cci.mit.edu/ (August 4, 2018), author faculty profile.
MIT Sloan Management Review Online, https://sloanreview.mit.edu/ (May 21, 2018), Thomas W. Malone, “How Human-Computer ‘Superminds’ Are Redefining the Future of Work.”
THOMAS W. MALONE
› Biography
› Contact Information
› Teaching
› Research Projects
› Audio & Video
› Press Mentions
› Publications
Thomas W. Malone is the Patrick J. McGovern Professor of Management at the MIT Sloan School of Management and the founding director of the MIT Center for Collective Intelligence. At MIT, he is also a Professor of Information Technology and a Professor of Work and Organizational Studies. Previously, he was the founder and director of the MIT Center for Coordination Science and one of the two founding co-directors of the MIT Initiative on “Inventing the Organizations of the 21st Century.” Professor Malone teaches classes on organizational design, information technology, and leadership, and his research focuses on how new organizations can be designed to take advantage of the possibilities provided by information technology.
For example, Professor Malone predicted, in an article published in 1987, many of the major developments in electronic business over the following 25 years, including electronic buying and selling for many kinds of products. Then, in 2004, Professor Malone summarized two decades of his research in his critically acclaimed book, The Future of Work. His newest book, Superminds, appeared in May 2018. Professor Malone has also published over 100 articles, research papers, and book chapters; he is an inventor with 11 patents; and he is the co-editor of four books.
Malone has been a cofounder of four software companies and has consulted and served as a board member for a number of other organizations. His background includes work as a research scientist at Xerox Palo Alto Research Center (PARC), a Ph.D. from Stanford University, an honorary doctorate from the University of Zurich, and degrees in applied mathematics, engineering, and psychology.
Last updated: May 4, 2018
Short Biography
Contact Information
Prof. Thomas W. Malone
Sloan School of Management (E62-424)
100 Main Street
Massachusetts Institute of Technology
Cambridge, MA 02142
Directions to MIT Sloan School
Telephone: +1-617-253-6843
Fax: +1-781-647-4536
Email: malone@mit.edu
Assistant: Elizabeth McFall
Telephone: +1-617-253-7273
Email: mcfall@mit.edu
Malone, Thomas W.: SUPERMINDS
Kirkus Reviews.
(Mar. 15, 2018):
COPYRIGHT 2018 Kirkus Media LLC
http://www.kirkusreviews.com/
Full Text:
Malone, Thomas W. SUPERMINDS Little, Brown (Adult Nonfiction) $28.00 5, 15 ISBN: 978-0-316-
34913-0
Forget artificial intelligence. Instead, think collective intelligence, putting "AI in combination with humans
who provide whatever skills and general intelligence the machines don't yet have themselves."
It's not so much that the machines are going to supplant us, writes Malone (Management/MIT; The Future
of Work, 2004), the director of the MIT Center for Collective Intelligence. It's that machines aren't quite
capable--yet--of thinking in ways that humans do, just as machines can perform calculations that it would
take generations of human thinkers to complete. Add IT to human brainpower, and you've got a supermind--
with the operative notion being that the machines are aids to a collective of human thinkers who illustrate,
in case after case, that "almost all of our important problems are solved by groups of people, rather than by
individuals alone." While individual intelligence is important--and, writes Malone, intelligence tests are the
best predictors of success in a broad range of human endeavors--it's the pulling together that's significant.
Moreover, while smart people are certainly a desideratum, what counts more in powerful collective
intelligence is "social perceptiveness," a matter in which women typically score higher than men. The
author enumerates the cognitive processes that go into an intelligent system, including, importantly, the
ability to learn from experience, which is perhaps not as widespread a talent as we might wish. That
learning, in turn, may inspire platform revolutions. After all, Malone suggests, now that we're used to the
ease of buying books and toothpaste online, why shouldn't we be able to shop for spinal surgery in the same
way, so that "if consumers don't get what they want from their current doctors' offices, they're likely to go to
other superminds in the market for medical services." The possibilities are endless.
A book rich in speculation about how collective thinking might solve big problems such as climate change;
of interests to fans of Daniel Dennett, Steven Pinker, and other big-picture thinkers.
Source Citation (MLA 8th
Edition)
"Malone, Thomas W.: SUPERMINDS." Kirkus Reviews, 15 Mar. 2018. General OneFile,
http://link.galegroup.com/apps/doc/A530650779/ITOF?u=schlager&sid=ITOF&xid=fd61ddaa.
Accessed 14 July 2018.
Gale Document Number: GALE|A530650779
7/14/2018 General OneFile - Saved Articles
http://go.galegroup.com/ps/marklist.do?actionCmd=GET_MARK_LIST&userGroupName=schlager&inPS=true&prodId=ITOF&ts=1531593074305 2/7
Best bits
Mitch Betts
Computerworld.
38.27 (July 5, 2004): p36.
COPYRIGHT 2004 Computerworld, Inc.
http://www.computerworld.com
Full Text:
The most useful parts of recent business and IT management books
THE BOOK: The Future of Work, by Thomas W. Malone (Harvard Business School Press, 2004).
You know how open-source software is created by a widely dispersed bunch of highly talented people who
come and go but at some point focus on this particular software project?
[ILLUSTRATION OMITTED]
That's the future of work, according to MIT organizational guru Thomas Malone. Projects will be handled
by "flexible webs of small companies," or ad hoc teams of internal experts, or electronically connected
freelancers. Malone calls the latter group e-lancers, and already there's an online market-place where buyers
can receive bids from service contractors (www.elance.com). Afterward, the team will disband and regroup
in different combinations for other projects.
This is all made possible by cheaper communications and collaborative IT, of course, but it will require new
ways of managing: more coordination, less command-and-control. And Malone says we'll need to establish
guilds--reminiscent of the craft associations of the Middle Ages--to make sure e-lancers have health care
benefits, financial security, training, recognition and social interaction with their peers.
Betts, Mitch
Source Citation (MLA 8th
Edition)
Betts, Mitch. "Best bits." Computerworld, 5 July 2004, p. 36. General OneFile,
http://link.galegroup.com/apps/doc/A119371096/ITOF?u=schlager&sid=ITOF&xid=17e6a1df.
Accessed 14 July 2018.
7/14/2018 General OneFile - Saved Articles
http://go.galegroup.com/ps/marklist.do?actionCmd=GET_MARK_LIST&userGroupName=schlager&inPS=true&prodId=ITOF&ts=1531593074305 3/7
Gale Document Number: GALE|A119371096
7/14/2018 General OneFile - Saved Articles
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The Future of Work
Thomas W. Malone
Transform.
13.4 (Apr. 2004): p40.
COPYRIGHT 2004 UBM LLC
http://www.transformmag.com
Full Text:
THE FUTURE OF WORK By Thomas W. Malone Harvard Business School Press; $29.95
[ILLUSTRATION OMITTED]
"Nike, the athletic apparel manufacturer, outsources all its manufacturing to other companies. HewlettPackard
surveys its own employees to see whether they think it should merge with Compaq. British
Petroleum divides itself into 90 business units, each with an average of fewer than 600 employees. One of
the best computer operating systems in the world is developed not by a company but by a loose network of
thousands of volunteers.
"What's going on here?"
The answer, author Thomas W. Malone maintains, is that large corporations are shifting from centralized
hierarchies of power to loose networks of workers inside and outside the company. In The Future of Work,
Malone suggests ways of shifting management technique and thinking from command-and-control to
coordinate-and-cultivate. He explains how to map out business processes in ways that loosely coordinate
people and knowledge rather than rigidly box them in.
The final chapter encourages readers to look within and discover their own higher values, first by imagining
what they would like to have accomplished before their own death and then by trying to apply those values
at work. What if every employee and manager in a company believed in hard work, honesty and integrity--
how much could that company accomplish? Managers of all kinds can find ideas and insights.
Malone, Thomas W.
Source Citation (MLA 8th
Edition)
Malone, Thomas W. "The Future of Work." Transform, Apr. 2004, p. 40. General OneFile,
http://link.galegroup.com/apps/doc/A115836182/ITOF?u=schlager&sid=ITOF&xid=fc2e63c4.
Accessed 14 July 2018.
7/14/2018 General OneFile - Saved Articles
http://go.galegroup.com/ps/marklist.do?actionCmd=GET_MARK_LIST&userGroupName=schlager&inPS=true&prodId=ITOF&ts=1531593074305 5/7
Gale Document Number: GALE|A115836182
7/14/2018 General OneFile - Saved Articles
http://go.galegroup.com/ps/marklist.do?actionCmd=GET_MARK_LIST&userGroupName=schlager&inPS=true&prodId=ITOF&ts=1531593074305 6/7
Handbook of collective intelligence
D.D. Tritt
CHOICE: Current Reviews for Academic Libraries.
54.3 (Nov. 2016): p392.
COPYRIGHT 2016 American Library Association CHOICE
http://www.ala.org/acrl/choice/about
Full Text:
Handbook of collective intelligence, ed. by Thomas W. Malone and Michael S.Bernstein. MIT, 2015. 219p
bibl index ISBN9780262029810 cloth, $30.00; ISBN 9780262331456 ebook, $21.00
54-1150
Q337
2015-29234 MARC
Editors Malone (management, MIT Sloan School of Management; director, MIT Center for Collective
Intelligence) and Bernstein (computer science, Stanford Univ.) have assembled a multidisciplinary
collection of essays on collective intelligence with the goal of uniting disparate disciplinary conversations
into a single interdisciplinary field. With this objective in mind, the editors frame the discussion by
providing definitions and guidelines for thinking about collective intelligence in a multidisciplinary context.
Experts in different fields examine collective intelligence within the context of specific disciplines, thus
revealing methodological and research considerations. Organized into three overarching thematic clusters--
the social sciences, computer science, and business--the text's seven chapters examine collective
intelligence within the fields of economics, biology, human-computer interaction, artificial intelligence,
cognitive psychology, and organizational behavior, and close with a cornucopia social science chapter titled
"Law, Communications, Sociology, Political Science, and Anthropology." Each chapter is preceded by an
editors' introduction, which unites and contextualizes the disciplinary discussions. Chapters are extensively
sourced and include recommended readings. Summing Up: *** Highly recommended. Upper-division
undergraduates through researchers and faculty; professionals and practitioners.--D. D. Tritt, University of
South Carolina Aiken
Source Citation (MLA 8th
Edition)
Tritt, D.D. "Handbook of collective intelligence." CHOICE: Current Reviews for Academic Libraries, Nov.
2016, p. 392. General OneFile, http://link.galegroup.com/apps/doc/A469640578/ITOF?
u=schlager&sid=ITOF&xid=61c623cd. Accessed 14 July 2018.
Gale Document Number: GALE|A469640578
Tomorrow's work forecast
USA Today. (Apr. 12, 2004): Business News: p11B.
Copyright: COPYRIGHT 2004 USA Today
http://www.usatoday.com/
Full Text:
Byline: Bruce Rosenstein
The Future of Work: How the New Order of Business Will Shape Your Organization, Your Management Style, and Your Life
By Thomas W. Malone
Harvard Business School Press, 225 pages, $29.95
---
Thomas W. Malone's briskly written, insightful The Future of Work sketches out what your work life may be like in the near future, whether you are ready or not.
Malone is a management professor at the Massachusetts Institute of Technology. Before joining MIT in 1983, he was a research scientist at the famed Xerox Palo Alto Research Center (PARC).
Many of the ideas in his book are based on research from two entities he helped found and guide: the MIT Center for Coordination Science and the MIT initiative, Inventing the Organizations of the 21st Century. He does not engage in crystal-ball gazing. He extrapolates from historical patterns and trends in the present world of business to discover what the future may hold. What he forecasts:
* Management. He advocates a managerial shift from traditional "command and control" to "coordination and cultivation." That's jargon for organizing work to let people use their own talents more wisely, while making sure they have connections to the right information and the proper incentives. Merely ordering people around won't cut it. When you cultivate rather than control people, you help them tap their natural abilities. This is currently a scarce practice: "Organizations today come nowhere close to realizing and taking advantage of people's true potential."
If you're fatigued by such jargon as empowerment and self-organizing, he suggests we replace these in our thinking with a catch-all term: decentralized. He defines decentralization as: "the participation of people in making the decisions that matter to them."
* History repeats itself. As he sees it, communication cost declines and technological advances make it possible to distribute power and decision making much more widely in organizations. This makes possible a continuum of power shifts, from now-prevalent centralized hierarchies to loose hierarchies, democracies and markets.
This "amazing pattern," as he calls it, has played out not just in business, but in the history of human civilization. The second chapter charts the sweep of history from people living as hunters and gatherers in individual units, then moving (or being forced) into centralized kingdoms and eventually -- for some -- living in more decentralized democracies. The continual drop of communication costs helped make each of these transitions possible.
* Loose hierarchies. The free online encyclopedia Wikipedia (www.wikipedia.org ) is mostly a volunteer operation, but it employs a few guidelines, such as writing articles from a neutral point of view. Chances are you've seen Wikipedia results while Googling, but if you haven't, here is Malone's take: "OK, you may be thinking, 'I can believe that some people might do this for fun, but how good are the articles?' The answer is: pretty darn good."
The idea is not necessarily to farm work out to volunteers, but to get used to the idea that people can work independently with minimal direction, at far-flung locations, without a loss of quality.
* More bidding for work and "e-lancers" for hire. Rather than all work done internally, some can be auctioned on the Web. This can be anything from a long-term project to designing a set of slides. Companies may get a higher quality of work at lower cost -- because you are drawing from a larger, worldwide talent pool -- than if you rely only on your own staff.
* Workplace democracy. The highly successful online auction company eBay is cited as an example of an online democracy. Malone says the company's managers continually solicit the opinions of buyers and sellers and incorporate them into the site. The redistribution of power and decision making may make some people nervous, but consider Malone's concept of "the paradox of power." "Sometimes the best way to gain power is to give it away. If you try to micromanage people too much, they'll resist you, or if they capitulate, they'll lack the motivation to help you achieve your goals."
* The new way to get benefits. If we freelancers are constantly auctioning off our work to bidders around the world, where are we going to go for things we now get from regular employers, such as health care, training and even -- if we derive pride from working for a company -- a sense of identity and well-being?
The answer is so old, it's new. He favors the concept of guilds, "a term that conjures up images of the craft associations of the Middle Ages." Organizations exist now that can simply extend the range of services they offer. Examples: professional societies, labor unions, temp agencies, college alumni associations.
Not everyone is ready to deal with this unpredictable employer -- the global boss who may or may not need your services on a given day. To say nothing of having to deal with your own pension and health benefits. But it is, Malone says, a way of doing business that some of us will eventually get to know.
CAPTION(S):
GRAPHIC, B/W (CHART); PHOTO, B/W
Bruce Rosenstein
Source Citation (MLA 8th Edition)
"Tomorrow's work forecast." USA Today, 12 Apr. 2004, p. 11B. General OneFile, http://link.galegroup.com/apps/doc/A133432470/ITOF?u=schlager&sid=ITOF&xid=abdb1ab9. Accessed 14 July 2018.
Gale Document Number: GALE|A133432470
How Human-Computer ‘Superminds’ Are Redefining the Future of Work
Magazine: Summer 2018 IssueResearch Highlight May 21, 2018 Reading Time: 20 min
Thomas W. Malone
Digital, Innovation, Strategy, Innovation Strategy, Management Innovation, Technology Implementation
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Virtually all human achievements have been made by groups of people, not lone individuals. As we incorporate smart technologies further into traditionally human processes, an even more powerful form of collaboration is emerging.
Superminds Computer Human Brain Artificial Intelligence AI Work Technology Collaboration Innovation
The ongoing, and sometimes loud, debate about how many and what kinds of jobs smart machines will leave for humans to do in the future is missing a salient point: Just as the automation of human work in the past allowed people and machines to do many things that couldn’t be done before, groups of people and computers working together will be able to do many things in the future that neither can do alone now.
To think about how this will happen, it’s useful to contemplate an obvious but not widely appreciated fact. Virtually all human achievements — from developing written language to making a turkey sandwich — require the work of groups of people, not just lone individuals. Even the breakthroughs of individual geniuses like Albert Einstein aren’t conjured out of thin air; they are erected on vast amounts of prior work by others.
The human groups that accomplish all these things can be described as superminds. I define a supermind as a group of individuals acting together in ways that seem intelligent.
Superminds take many forms. They include the hierarchies in most businesses and other organizations; the markets that help create and exchange many kinds of goods and services; the communities that use norms and reputations to guide behavior in many professional, social, and geographical groups; and the democracies that are common in governments and some other organizations.
All superminds have a kind of collective intelligence, an ability to do things that the individuals in the groups couldn’t have done alone. What’s new is that machines can increasingly participate in the intellectual, as well as the physical, activities of these groups. That means we will be able to combine people and machines to create superminds that are smarter than any groups or individuals our planet has ever known.
To do that, we need to understand how people and computers can work together more effectively on tasks that require intelligence. And for that, we need to define intelligence.
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What Is Intelligence?
The concept of intelligence is notoriously slippery, and different people have defined it in different ways. For our purposes, let’s say that intelligence involves the ability to achieve goals. And since we don’t always know what goals an individual or group is trying to achieve, let’s say that whether an entity “seems” intelligent depends on what goals an observer attributes to it.
Based on these assumptions, we can define two kinds of intelligence. The first is specialized intelligence, which is the ability to achieve specific goals effectively in a given environment. This means that an intelligent entity will do whatever is most likely to help it achieve its goals, based on everything it knows. Stated even more simply, specialized intelligence is “effectiveness” at achieving specific goals. In this sense, then, specialized collective intelligence is “group effectiveness,” and a supermind is an effective group.
The second kind of intelligence is more broadly useful and often more interesting. It is general intelligence, which is the ability to achieve a wide range of different goals effectively in different environments. This means that an intelligent actor needs not only to be good at a specific kind of task but also to be good at learning how to do a wide range of tasks. In short, this definition of intelligence means roughly the same thing as “versatility” or “adaptability.” In this sense, then, general collective intelligence means “group versatility” or “group adaptability,” and a supermind is a versatile or adaptable group.
What Kind of Intelligence Do Computers Have?
The distinction between specialized intelligence and general intelligence helps clarify the difference between the abilities of today’s computers and human abilities. Some artificially intelligent computers are far smarter than people in terms of certain kinds of specialized intelligence. But one of the most important things most people don’t realize about AI today is that it is all very specialized.1
Google’s search engine is great at retrieving news articles about baseball games, for example, but it can’t write an article about your son’s Little League game. IBM’s Watson beats humans at Jeopardy!, but the program that played Jeopardy! can’t play tic-tac-toe, much less chess.2 Teslas can (sort of) drive themselves, but they can’t pick up a box from a warehouse shelf.
Of course, there are computer systems that can do these other things. But the point is that they are all different, specialized programs, not a single general AI that can figure out what to do in each specific situation. Humans, with their general intelligence, must write programs that contain rules for solving different specific problems, and humans must decide which programs to run in a given situation.
In fact, none of today’s computers are anywhere close to having the level of general intelligence of any normal human 5-year-old. No single computer today can converse sensibly about the vast number of topics an ordinary 5-year-old can, not to mention the fact that the child can also walk, pick up weirdly shaped objects, and recognize when people are happy, sad, or angry.
How soon, if ever, will this change? Progress in the field of artificial intelligence has been notoriously difficult to predict ever since its early days in the 1950s. When researchers Stuart Armstrong and Kaj Sotala analyzed 95 predictions made between 1950 and 2012 about when general AI would be achieved, they found a strong tendency for both experts and nonexperts to predict that it would be achieved between 15 and 25 years in the future — regardless of when the predictions were made.3 In other words, general AI has seemed about 20 years away for the last 60 years.
More recent surveys and interviews tend to be consistent with this long-term pattern: People still predict that general AI will be here in about 15 to 25 years.4 So while we certainly don’t know for sure, there is good reason to be skeptical of confident predictions that general AI will appear in the next couple of decades. My own view is that, barring some major societal disasters, it is very likely that general AI will appear someday, but probably not until quite a few decades in the future.
All uses of computers will need to involve humans in some way until then. In many cases today, people are doing parts of a task that machines can’t do. But even when a computer can do a complete task by itself, people are always involved in developing the software and usually modifying it over time. They also decide when to use different programs in different situations and what to do when things go wrong.
How Can People and Computers Work Together?
One of the most intriguing possibilities for how people and computers can work together comes from an analogy with how the human brain is structured. There are many different parts of the brain that specialize in different kinds of processing, and these parts somehow work together to produce the overall behavior we call intelligence. For instance, one part of the brain is heavily involved in producing language, another in understanding language, and still another in processing visual information. Marvin Minsky, one of the fathers of AI, called this architecture a “society of mind.”5
Minsky was primarily interested in how human brains worked and how artificial intelligence programs might be developed, but his analogy also suggests a surprisingly important idea for how superminds consisting of both people and computers might work: Long before we have general AI, we can create more and more collectively intelligent systems by building societies of mind that include both humans and machines, each doing part of the overall task.
In other words, instead of having computers try to solve a whole problem by themselves, we can create cyber-human systems where multiple people and machines work together on the same problem. In some cases, the people may not even know — or care — whether they are interacting with another human or a machine. People can supply the general intelligence and other skills that machines don’t have. The machines can supply the knowledge and other capabilities that people don’t have. And, together, these systems can act more intelligently than any person, group, or computer has done before.
How is this different from current thinking about AI? Many people today assume that computers will eventually do most things by themselves and that we should put “humans in the loop” in situations where people are still needed.6 But it’s probably more useful to realize that most things now are done by groups of people, and we should put computers into these groups in situations where that is helpful. In other words, we should move away from thinking about putting humans in the loop to putting computers in the group.
What Roles Will Computers Play Relative to Humans?
If you want to use computers as part of human groups in your business or other organization, what roles should computers play in those groups? Thinking about the roles that people and machines play today, there are four obvious possibilities. People have the most control when machines act only as tools; and machines have successively more control as their roles expand to assistants, peers, and, finally, managers.
Tools
A physical tool, like a hammer or a lawn mower, provides some capability that a human doesn’t have alone — but the human user is directly in control at all times, guiding its actions and monitoring its progress. Information tools are similar. When you use a spreadsheet, the program is doing what you tell it to do, which often increases your specialized intelligence for a task like financial analysis.
But many of the most important uses of automated tools in the future won’t be to increase individual users’ specialized intelligence, but to increase a group’s collective intelligence by helping people communicate more effectively with one another. Even today, computers are largely used as tools to enhance human communication. With email, mobile applications, the web in general, and sites such as Facebook, Google, Wikipedia, Netflix, YouTube, and Twitter, we’ve created the most massively connected groups the world has ever known. In all these cases, computers are not doing much “intelligent” processing; they are primarily transferring information created by humans to other humans.
While we often overestimate the potential of AI, I think we often underestimate the potential power of this kind of hyperconnectivity among the 7 billion or so amazingly powerful information processors called human brains that are already on our planet.
Assistants
A human assistant can work without direct attention and often takes initiative in trying to achieve the general goals someone else has specified. Automated assistants are similar, but the boundary between tools and assistants is not always a sharp one. Text-message platforms, for instance, are mostly tools, but they sometimes take the initiative and autocorrect your spelling (occasionally with hilarious results).
Another example of an automated assistant is the software used by the online clothing retailer Stitch Fix Inc., based in San Francisco, California, to help its human stylists recommend items to customers.7 Stitch Fix customers fill out detailed questionnaires about their style, size, and price preferences, which are digested by machine-learning algorithms that select promising items of clothing.
The algorithmic assistant in this partnership is able to take into account far more information than human stylists can. For instance, jeans are often notoriously hard to fit, but the algorithms are able to select for each customer a variety of jeans that other customers with similar measurements decided to keep.
And it is the stylists who make the final selection of five items to send to the customer in each shipment. The human stylists are able to take into account information the Stitch Fix assistant hasn’t yet learned to deal with — such as whether the customer wants an outfit for a baby shower or a business meeting. And, of course, they can relate to customers in a more personal way than the assistant does. Together, the combination of people and computers provides better service than either could alone.
Peers
Some of the most intriguing uses of computers involve roles in which they operate as human peers more than assistants or tools, even in cases where there isn’t much actual artificial intelligence being used. For example, if you are a stock trader, you may already be transacting with an automated program trading system without knowing it.
And if your job is dealing with claims for Lemonade Insurance Agency LLC, based in New York City, you already have an automated peer named AI Jim.8 AI Jim is a chatbot, and Lemonade’s customers file claims by exchanging text messages with it. If the claim meets certain parameters, AI Jim pays it automatically and almost instantly. If not, AI Jim refers the claim to one of its human peers, who completes the job.
Managers
Human managers delegate tasks, give directions, evaluate work, and coordinate others’ efforts. Machines can do all these things, too, and when they do, they are performing as automated managers. Even though some people find the idea of a machine as a manager threatening, we already live with mechanical managers every day: A traffic light directs drivers; an automated call router delivers work to call center employees. Most people don’t find either situation threatening or problematic.
It’s likely that there will be many more examples of machines playing the role of managers in the future. For instance, the CrowdForge system crowdsources complex tasks such as writing documents. In one experiment, the system used online workers (recruited via the Amazon Mechanical Turk online marketplace) to write encyclopedia articles.9 For each article, the system first asked an online worker to come up with an outline for the article. Then it asked other workers to find relevant facts for each section in the outline. Next it asked still other workers to write coherent paragraphs using those facts. Finally, it assembled the paragraphs into a complete article. Interestingly, independent readers judged the articles written in this manner to be better than articles written by a single person.
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How Can Computers Help Superminds Be Smarter?
If you want to design a supermind (like a company or a team) that can act intelligently, it needs to have some or all of the five cognitive processes that intelligent entities have — whether they are individuals or groups. Your supermind will need to create possibilities for action, decide which actions to take, sense the external world, remember the past, and learn from experience. (See “The Basic Cognitive Processes Needed by Any Intelligent Entity.”)
The Basic Cognitive Processes Needed by Any Intelligent Entity
Entities that act intelligently (such as people, computers, and groups) need to do these things:
Basic Cognitive Processes
Computers can help do all these things in new ways that often — but, of course, not always — make the superminds smarter. To see how, let’s consider how a large corporation like Procter & Gamble could develop a new strategic plan. The possibilities we’ll discuss are just that: possibilities. I have no reason to believe that P&G is doing these things at present. But I think that P&G and many other companies are likely to do things like this in the future.
Today, corporate strategic planning in large companies usually involves a relatively small group of people, mostly senior executives, their staff, and perhaps some outside consultants. But what if we could use technology to involve far more people and let machines do some of the thinking?
Create
As we saw above, one of the most important roles for computers is as a communication tool that allows much larger groups of people to think together productively. A promising approach for doing that within the strategic planning process is to use a family of related online contests, called a contest web.10 There could be separate online contests for strategies at different levels of the organization. For example, if P&G used this approach, the company might have separate contests for each brand, such as Pantene shampoo, Head & Shoulders shampoo, and Tide laundry detergent. It could also have separate contests for how to combine the strategies of the brands in each business unit, such as hair care and fabric care. And the company could have another contest aimed at combining the business unit strategies into an overall corporate strategy.
Each contest could be open to many company employees, perhaps all of them. Anyone in the contest could propose a strategic option, and others could comment on or help develop the idea. Eventually there would be one winning strategy chosen in each challenge, but during the planning process, it would be important to consider a number of different options.
Opening this process to lots of people could allow surprising new options to arise. For instance, a group of young, tech-savvy employees, who would never have been included in a traditional corporate strategic-planning process, might propose a new cosmetics concept involving skin and eye makeup specially formulated for individual customers who upload selfies to the website.
Decide
One benefit of involving more people in generating strategic possibilities is that you get far more possibilities. But deciding which possibilities are most promising requires evaluating them all, and new technologies also make it easier to involve far more people and more kinds of expertise in evaluating. For instance, P&G might want its manufacturing engineers to evaluate whether it is technically feasible to make a product, its operations managers to estimate manufacturing cost, and perhaps outside market researchers to predict the demand for the product at different price points.
In some cases, it may be worth combining many people’s opinions about some of these questions. For instance, P&G might use online prediction markets to estimate the demand for products. Such markets have already been used to successfully predict movie box-office receipts, winners of U.S. presidential elections, and many other things. Somewhat like futures markets, prediction markets let people buy and sell “shares” of predictions about future events. For instance, if you believe that global sales for Pantene shampoo will be between $1.8 billion and $1.9 billion per year, you could buy a share of this prediction. If the prediction is right, then you will get, say, $1 for each share you own of that prediction. But if your predictions are wrong, you will get nothing.11 That means the resulting price in the prediction market is essentially an estimate of the probability that sales will be in this range.12
Sense
A key necessity for developing good strategic plans is the ability to effectively sense what is going on in the external world: What do customers want now? What are our competitors doing? What new technologies might change our industry? By far the most visible means for improving sensing today are big data and data analytics.
For example, P&G might analyze the positive and negative comments about its products in online social networks to gauge how customer sentiment about the products is changing. It might conduct online experiments at different prices for the products. And it might be able to obtain early warnings about sales changes by installing video and touch-sensitive floors in retail stores to analyze how much time customers spend looking at P&G’s products versus competitors’ products.
P&G might even be able to do something Amazon.com Inc. has already done: use vast amounts of data to develop detailed models of many parts of its business, such as customers’ responses to prices, ads, and recommendations, and sort out how supply-chain costs vary with inventory policies, delivery methods, and warehouse locations.13 With tools like these, computers can take over much of the quantitative work of strategic planning by running the numbers, and people can use their general intelligence to do more qualitative analysis.
Remember
Another way technology can help superminds create better strategic plans is by helping them remember good ideas that others have had in similar situations. For example, software assistants embedded in an application for generating strategy proposals could automatically suggest generic strategies, such as the following:
Integrating forward by taking on some of the tasks done by your customers, or integrating backward by taking on some of the tasks done by your suppliers;
Outsourcing more of the things you do internally to freelancers or specialized providers;
Moving into related market segments, nearby geographical regions, or other markets frequented by your customers.
When you pick one of these options, the system could then automatically provide a template including the kinds of details necessary for that type of strategy.
By remembering good strategies from other settings, software assistants could help generate new strategies for your setting. For instance, if the strategy of using selfies to customize cosmetics were successful, a software assistant could suggest similar strategies that let customers use smartphones to customize P&G’s other products: shampoos, toothpastes, laundry detergents, potato chips, and others. Of course, many of these combinations would be silly or impractical and could be very quickly eliminated, but some might be surprisingly useful. And even silly options sometimes give rise to good ideas.
For instance, in the early 2000s, P&G developed a process for printing entertaining pictures and words on Pringles potato chips.14 An approach like this might have led to another promising idea: using this technology to let customers buy Pringles that are preprinted with images that customers specify themselves.
Learn
If a system is used over time, it can help a supermind learn from its own experience to become more and more effective. For example, it might help recognize strategic ideas that most people wouldn’t recognize in their early stages. In the 1970s, when Steve Jobs and Bill Gates were first playing around with what we now call personal computers, most people had no idea that these strange, awkward devices would turn out to be among the most innovative and influential products of the next several decades.
It’s certainly not easy to rapidly filter ideas without missing these diamonds in the rough. But perhaps it’s possible to identify the unusual people who do have this skill by systematically tracking over time how accurately, and how early, people predict technological advances and other kinds of breakthroughs. Then we could ask these people to take a second look at some of the “crazy” ideas that we might otherwise reject.
Another intriguing possibility is to use “learning loops” that begin with human experts evaluating strategies manually and then gradually automate more and more of the work as the machines get better at predicting what human experts would do.
In a company like P&G that generally tries to compete on quality rather than price, experts evaluating product strategies usually reject those that emphasize competing on low price. But instead of programmers writing programs that explicitly filter out low-price strategies, a machine-learning program might recognize that experts often reject these types of strategies and start suggesting this action. If the experts agree with the suggestion enough times, then the program might stop asking and just do the filtering automatically.
A Cyber-Human Strategy Machine
You might call the kind of strategic planning process I’ve described above a cyber-human strategy machine.15 Given how complex such a system could be and how generic much of the work would be, it seems unlikely that companies would develop proprietary systems for this purpose. Instead, today’s consulting firms, or their future competitors, might provide much of this functionality as a service. Such a strategy-machine company, for instance, could have a stable of people at many levels of expertise on call who could rapidly generate and evaluate various strategic possibilities, along with software to automate some parts of the process and help manage the rest.
In the long run, such a strategy machine might use a supermind of people and computers to generate and evaluate millions of possible strategies for a single company. Computers would do more and more of the work over time, but people would still be involved in parts of the process. The result would be a handful of the most promising strategic options that the human managers of the company would choose among.
The examples we’ve just discussed are focused on strategic decision-making, but what we’ve really seen is an architecture for general purpose, problem-solving superminds: Computers use their specialized intelligence to solve parts of the problem, people use their general intelligence to do the rest, and computers help engage and coordinate far larger groups of people than has ever been possible.
As new technologies make this easier, we are likely to see many more examples of human-computer superminds being used to solve all kinds of business and societal problems — not just corporate strategic plans, but also designs for new houses, smartphones, factories, cities, educational systems, antiterrorism approaches, and medical treatment plans. The possibilities are virtually unlimited.
ABOUT THE AUTHOR
Thomas W. Malone (@twmalone) is the Patrick J. McGovern Professor of Management, a professor of information technology, and a professor of work and organizational studies at the MIT Sloan School of Management, as well as the founding director of the MIT Center for Collective Intelligence. He is the author of Superminds: The Surprising Power of People and Computers Thinking Together (Little Brown, 2018), from which this article is adapted.
REFERENCES (15)
1. R. Brooks, “Artificial Intelligence Is a Tool, Not a Threat,” Rethink Robotics (blog), Nov. 10, 2014, www.rethinkrobotics.com.
2. David Ferrucci, email to the author, Aug. 24, 2016. Ferrucci led the IBM team that developed Watson.
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TAGS: Artificial Intelligence, Breakthrough Innovation, Collaboration, Future of Work, Smart Technology
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ABOUT THE AUTHOR
Thomas W. Malone (@twmalone) is the Patrick J. McGovern Professor of Management, a professor of information technology, and a professor of work and organizational studies at the MIT Sloan School of Management, as well as the founding director of the MIT Center for Collective Intelligence. He is the author of Superminds: The Surprising Power of People and Computers Thinking Together (Little Brown, 2018), from which this article is adapted.