‘Smarter, Faster, Better’: The New Science of Productivity
Why are
some people so much more productive than others? How can we increase our own
productivity? A new book by New York Timesreporter and bestselling author Charles Duhigg
mines recent scientific findings for the answers.
In the following book review,
Knowledge@Wharton shares highlights fromSmarter Faster Better:
The Secrets of Being Productive in Life and Business.
In an economy ruled by change, disruption, and uncertainty, it
seems that everyone — individuals and companies alike — is searching for an
edge. Stephen Covey published The 7 Habits of Highly Effective People back
in 1989; since then, interest in the art and science of habit formation has
grown steadily and shows no signs of abating.
New York Times reporter
Charles Duhigg has contributed to that literature — but with a difference.
While the majority of books about habits are geared to personal transformation,
his book The Power of Habitfocused equally on the habits of
individuals, but also on those of organizations and societies. His new
book, Smarter Faster Better: The Secrets of Being Productive in Life
and Business, builds on his previous one and maintains its broad
scope.
Although the word “habit” doesn’t even appear in the book’s
index, Duhigg’s latest work isolates a very particular set of habits: those
that govern decision-making. Enhanced productivity, he argues, flows from
“making certain choices in certain ways.” How we frame those choices, and the incentives
and motivations and inputs we attach to them, will “separate the merely busy
from the genuinely productive.”
Motivation and Control
Productivity begins with motivation; and motivation, according
to the research Duhigg cites, begins with control — or more precisely, the
location of control. Psychologists have been considering the question of our
“locus of control” since the 1950s. Those with an external locus of control
have a sense of life happening to them; they believe their
lives are primarily influenced by forces outside their control.
Those with an internal locus of control, by contrast, feel in
charge of their own destiny and attribute success or failure to their own
efforts. An internal locus of control yields vastly superior results. One representative
study finds it “has been linked with academic success, high self-motivation and
social maturity, lower incidences of stress and depression, and longer life
span.”
It might be tempting to view locus of control as an innate
personality trait, like the tendency to be introverted or extroverted. But
researchers like Stanford psychologist Carol Dweck see it not as a fixed,
static quality, but as a “learned skill.” And like any skill, it can be
practiced and consciously cultivated.
This view has been adopted, perhaps surprisingly, in a new
approach in the Marine Corps to basic training. Boot camp has long been
associated with discipline and taking orders — giving up individual control in
the interest of the group. But General Charles C. Krulak found that the
recruits he was seeing needed more than discipline: “they needed a mental
makeover,” and a “vocabulary for ambition.” So he pushed for a redesign of
basic training that forced trainees to take control of their own choices —
sometimes creating situations that required recruits to modify and work around
given orders.
Consciously instilling a “bias toward action” in the Marine
Corps begins at a small, mundane level — like suddenly leaving a group of
recruits in charge of cleaning the mess hall, without any instructions or
guidance. And that approach seems to work for the rest of us as well. The point
is to trigger a “will to act.” Faced with an overwhelming stream of emails, for
example, just pick one from the middle of your inbox and answer it. If you’ve
been avoiding a difficult sales call, settle on your opening line. “Find a
choice, almost any choice, that allows you to exert control.”
Goals: ‘SMART’ Stretching
Control is only a start. In order to “self-motivate more easily,
we need to learn to see our choices not just as expressions of control but also
as affirmations of our values and goals.” Without overarching meaning and
purpose, without linking smaller tasks to larger aspirations, we can “seize” on
an isolated decision just because it makes us feel productive.
The experience of General Electric is an object lesson in the
importance of ambition. As early as the 1940s, GE had formalized what was
widely seen as a model system of corporate goal-setting. SMART goals had to be
Specific, Measurable, Achievable, Realistic, and based on a Timeline. Yet by
the 1980s, GE was seeing some of its key divisions lag. In 1993, CEO Jack Welch
visited Japan, and heard first-hand how in the 1960s they had succeeded in
developing high-speed “bullet trains” that traveled an average speed of 120
miles per hour. Engineers had initially estimated 75 as the top “realistic”
speed; the head of the railway system insisted that wasn’t good enough, not
even close. So the engineers doubled down, and via hundreds of innovations small
and large, eventually broke through — an achievement instrumental in Japan’s
decades-long economic boom.
Welch returned determined to get GE to adopt “bullet train
thinking.” In a letter to shareholders, he proposed marrying SMART goals to
what he called “stretch” goals. That would mean “using dreams to set business
targets — with no real idea of how to get there. If you do know how to get
there — it’s not a stretch target.” Welch tested the new approach with GE’s
airplane engine division, which had announced it was going to try to reduce
defects by 25%. Not good enough, Welch said. He told them he wanted 70%, and
gave them three years to get there. The audacious goal “set off a chain
reaction” in which the division completely reimagined the entire manufacturing
process. By 1999, defects had dropped 75%.
“Numerous academic studies have examined the impact of stretch
goals,” Duhigg writes, “and have consistently found that forcing people to
commit to ambitious, seemingly out-of-reach objectives can spark outsized jumps
in innovation and productivity.”
On a personal level, we can apply this to something as mundane
as a to-do list. A commonly traded productivity tip is to first write down easy
tasks that can be completed and finished right away. A psychologist Duhigg
interviewed says this is exactly the wrong way to approach a
to-do list, and accomplishes little more than “mood repair.” Genuine
productivity grows from starting a to-do list with larger goals and then
splitting them up into bite-sized “smart” goals.
Tunnel Vision
The need to balance large goals and small goals — the big
picture and the small one, the forest and the trees — is an ongoing theme in
Duhigg’s investigations. Our need for “cognitive closure” can compel us to
“seize” on a sub-par choice or goal simply because it “meets a minimum
threshold of acceptability.” On the one hand, it’s healthy to activate our
decision-making and to avoid the paralysis of endless second-guessing. Yet if
our urge for closure is too strong, we can “freeze” our goals and analysis.
The challenge is to balance order and chaos, certainty and
ambiguity — a challenge that is particularly pronounced in high-stakes jobs
like flying an airplane. Complicating matters is the introduction of automatic
flight systems that have greatly improved safety, yet which require pilots to
be fully active for only a small part of each flight, transforming piloting
from a proactive to a reactive profession. In doing so, these systems create
new risks at moments when pilots must suddenly switch modes and are forced to
“toggle between automaticity and focus.”
Duhigg shares the harrowing story of Air France Flight 447 from
Rio de Janeiro to Paris in 2009. The Airbus plane had a highly advanced flight
system that vastly reduced the number of decisions a pilot had to make. In
response to a fairly routine occurrence at high altitudes — a tube measuring
air speed became clogged with ice crystals — the auto-flight system turned off.
Jarred by unexpectedly having to shift into active mode, the pilot fell prey to
a mental glitch called “cognitive tunneling” — an immediate focus on the first
thing to come to attention, even if it’s not the most important thing. In this
case, the pilot latched onto a display showing whether the plane was rolling
slightly to one side or the other. He focused solely on leveling the wings, not
realizing he was pulling back on the control stick and raising the plane’s
nose. In the thin high air, the smooth flow of air over the wings that
generates “lift” was disrupted, causing what’s called an “aerodynamic stall”
and sending the plane into free fall.
The pilot never recovered from his initial tunnel vision, and so
was not able to assess the situation and correct it. “But what’s happening?” he
asked two seconds before the plane plunged into the sea.
Telling Stories
A year later, another Airbus plane, a Qantas Airways flight from
Singapore to Sydney, experienced multiple engine failures shortly after
takeoff. The pilot had to turn back and attempt an emergency landing, despite
the fact that the plane’s major systems were failing. The difference is this:
The pilot kept his head and successfully avoided tunnel vision. He did so by
creating a narrative and by envisioning scenarios — generating what cognitive
scientists call “mental models.”
For the pilot of Qantas Flight 32, this was a habit of mind he
consciously cultivated, for himself and his crew. Part of his pre-flight ritual
was for the entire crew to run through potential emergencies, and to visualize
what they would do, and to where they would turn their attention. When disaster
struck, he and his crew had a picture in their minds of how they would react.
Moreover, when he realized that 21 of the plane’s 22 major
systems were damaged or completely disabled, the pilot simplified the situation
by constructing a new narrative on the spot. He imagined he was flying a
Cessna, a simple single-engine plane, the first he had ever flown. Instead of
panicking over what wasn’t working, this story helped him focus on what was
working. In a case that has since been much studied, investigators declared it
the most damaged Airbus ever to land safely.
Duhigg finds this pattern across a wide range of occupations and
settings — from neonatal intensive care units to corporate recruiting firms.
Especially in challenging or chaotic situations, the most successful are those
with a habit of telling stories about their experiences, generating theories
and mental models. A corporate vice-president Duhigg interviewed says he looks
for candidates “who describe their experiences as some kind of narrative. It’s
a tip-off that someone has an instinct for connecting the dots and
understanding how the world works at a deeper level.”
In a later section on probabilistic thinking, Duhigg delves into
another narrative-related skill: the ability to envision multiple futures. In a
sense, all decision-making involves anticipating future possibility and
probability. Cross-cutting the journey of a star poker player with other fields
that rely on forecasting, the author finds that those with the keenest
“computational cognition” can “hold multiple, conflicting outcomes” in their
minds, and then “estimate their relative likelihoods.”
Teams and ‘Psychological Safety’
Generating mental models and theories is key. But so is subjecting
them to scrutiny. As part of his pre-flight visualizations, the Qantas pilot
actively encouraged his crew to challenge him and one another. “Everyone has a
responsibility to tell me if you disagree with my decisions or think I’m
missing something.”
Creating an environment that encourages the airing of a
diversity of opinion requires what one researcher calls “team psychological
safety.” In 1991, Amy Edmondson — then a first-year PhD student and now a
professor at the Harvard Business School — began looking into the relationship
between team culture and error rates at different units of two Boston
hospitals. The most cohesive units were ones that not only encouraged the open
sharing of ideas — but also where nurses felt comfortable admitting and reporting
mistakes.
Google’s People
Analytics group (its version of Human Resources) drew
on Edmondson’s research as it tried to hone in on what made for the most
successful teams. Always big believers in data, they first studied 180 teams
from all over the company to see if they could correlate a team’s composition
with its productivity. “The ‘who’ part of the equation didn’t seem to matter,”
says one executive, so they began to look at the ‘how’ — the group norms that
governed how teams functioned.
What mattered most in the end, concluded Laszlo
Bock, head of Google’s people operations, was “voice” and “social
sensitivity.” Google created checklists to ensure that team leaders modeled the
right behavior and fostered psychological safety. Disagreement was encouraged,
always; but leaders should never interrupt during a conversation. And a meeting
shouldn’t end until all team members have spoken at least once.
A joint study by MIT and Carnegie Mellon reached similar
conclusions. Successful teams exhibited a wide range of personalities and
styles, but they shared two core qualities. Members of the best teams spoke in
roughly the same proportion. And they exhibited high average social
sensitivity: the ability to read one another and react appropriately.
Lean, Agile Management
Japan’s bullet trains inspired General Electric to adopt stretch
goals. And Toyota’s experiments with decentralized decision-making prompted
similar changes at General Motors, and later at the FBI.
In 1982, GM shut down its Fremont, California plant — one with a
well-earned reputation as “the worst auto factory in the world.” Two years
later, GM reopened the plant in a new partnership with Toyota. For the Japanese
company, it was an opportunity to expand in the American market. And for GM it
was a chance to learn about the famed “Toyota Production System” that
consistently produced cars of high quality at low cost. At the heart of this
system was the idea of pushing decision making to the lowest level: workers on
the assembly line saw mistakes and problems first, so they should be empowered
to take immediate action to correct them.
The United Auto Workers had negotiated a commitment that at
least 80% of the laid-off workers would be hired at the rebooted plant. The
union and workers were skeptical about the promised new “culture of trust,” and
management wasn’t sure that culture could be exported to America. For the first
month, workers didn’t dare pull the “andon cords” that would immediately halt
the production line. They knew that any stoppage would cost the factory $15,000
a minute. Under the old regime, workers might indicate a problem by marking the
vehicle with a crayon or Post-it –and only after it was fully assembled would
it then be taken to the back lot and disassembled so the problem could be
fixed. It was an inefficient system of passing the buck, but the unspoken rule
in the plant had always been: The line never stops.
Eventually, the rehired workers were coaxed into pulling the
cord. They realized they could halt the line and take care of the problem
without being penalized. Soon there were hundreds of such pulls a day, and the
culture was transformed. By 1986, productivity had doubled, and absenteeism was
down from 25% to 3%.
Toyota’s approach is sometimes dubbed “lean manufacturing,” and
was an unexpected inspiration for major reforms at the Federal Bureau of
Investigation. Since 1997, the FBI had been trying to update its computer
system for sorting and managing evidence and case histories. The intelligence
failures of 9/11 only heightened the urgency of doing so. But 11 years and $305
million later, the new system, Sentinel, was nowhere near operational. The
bureau brought in an outside consultant, Chad Fulgham, who had no background in
law enforcement, and whose specialty was developing computer networks for large
banks.
Fulgham and other like-minded programmers were admirers of the
Toyota Production System, and had drafted a “Manifesto for Agile Software
Development.” Fulgham applied the Toyota philosophy to a skeptical FBI:
distributing critical decision-making power to people on the ground. Whoever
was closest to a particular challenge was empowered to take initiative,
regardless of rank. Top officials were allowed to offer suggestions, but not to
micromanage.
The new approach was a wild success. A 2010 inspector general’s
report had estimated it would take six years and almost $400 million to get
Sentinel working; Fulgham and his team delivered it for $20 million in just
over a year. “It was like government on steroids,” Fulgham remembers, and has
had a significant ripple effect on how the bureau goes about its business in
general.
Innovation
Fulgham had taken his experience in the private sector on Wall
Street and applied it to the public sector and the FBI. Duhigg finds that
cross-pollination and unexpected combinations are yet another key ingredient in
increasing productivity. Across a wide range of settings — including academic
publishing, show business, and product design — successful innovation is often
rooted in unusual combinations and interdisciplinary thinking.
A survey of a database of almost 18 million scientific papers
found that those with the most novelty and impact (as measured by subsequent
citations and other factors) took largely conventional material and enlivened
it by pairing it with something unusual — instead of Newton and Einstein,
juxtaposing Einstein and the Chinese philosopher Wang Chong, to cite one
instance. The consumer design firm IDEO has had some of its biggest successes
by combining “existing knowledge from disparate industries.” A top-selling
water bottle, for example, mixed a standard water carafe with the nozzle of a
shampoo container. Ronald Burt studied 673 managers at a large electronic
company. Those rated most “creative” were the ones who exported ideas from one
division to another. “This is not creativity born of genius,” he asserts. “It
is creativity as an import-export business.” He dubs such intellectual
middlemen “innovation brokers.”
Similarly, the groundbreaking musical West Side Story simply
takes the familiar story of Romeo and Juliet and transplants
it among New York City street gangs. It is a fresh and surprising combination
of conventional elements. And the runaway hit movie Frozen was
a very conscious attempt to take the standard princess fairy tale and turn it
on its head.
Disruption
The process by which Frozen achieved its
creative breakthrough illustrates the last of Duhigg’s keys to productivity.
For months, the creative team struggled to get the final third of the film
right. They had hit a rut that Pixar founder Ed Catmull calls “spinning.” His
ongoing obsession (which he details in his book Creativity, Inc.)
is how to maintain a culture of creativity and prevent success from letting
that culture go stale.
One of his main tactics is a kind of intentional disruption:
mid-project, he will step in and shake up a team by tweaking its dynamics, even
if he knows that by doing so he will generate a certain amount of tension. In
the case of Frozen, he named the film’s writer, Jennifer Lee,
as a second director. A writer is more a lone voice, where a director must
listen to and incorporate suggestions from across the production. The new
responsibility and point of view were just the jolt she needed.
Duhigg profiles a very different kind of disruption at an
elementary school in Cincinnati that — despite ample funding from the city, and
generous sponsorship from companies like Procter & Gamble — had for years
languished as one of the worst-performing schools in Ohio. Administrators had
embraced the idea of using data to inform education, and they were armed with a
sophisticated software system that tracked students’ performance, and made it
available online to teachers and parents on an easily accessible dashboard. The
hope was that the data would allow educators to target students with exactly
the kind of individual assistance they needed; but measurable progress had yet
to be seen.
In truth, most of the school’s teachers rarely looked at the
data on the students’ dashboards. So the school experimented with a disruption
that forced teachers to actively engage with the information, instead of merely
passively viewing it on the screen. Teachers were required to spend at least
two afternoons a month in a new “data room” where they participated in
mandatory exercise whereby they transcribed the data onto individual index
cards and tabulated statistics by hand. Essentially, the school was
intentionally complicating the handling of data: the process was more
cumbersome and time-consuming, but in the end the information was “stickier.”
The task was boring, and seemed redundant. But eventually,
teachers started engaging with the information in interesting ways. One
teacher, Nancy Johnson, ended up spending extra time in the data room,
experimenting with different ways of grouping the cards. “Handling the index cards,
she found, gave her a more granular sense of each student’s strengths and
weaknesses.”
The changed engagement with data led to a changed engagement
with teaching, and a series of innovative moves to help struggling students. In
less than a year, the school’s overall scores had more than doubled. A year
after that, Johnson was named Cincinnati’s Educator of the Year.
Duhigg found that absorbing and engaging the insights of his own
book was not a simple task. In an Appendix, “A Reader’s Guide to Using These
Ideas,” he shares his own journey to translate the science of productivity into
his daily routine. He concludes that it is ultimately about making more
conscious (and often more difficult) choices: “Productive people and companies
force themselves to make choices most people are content to ignore.”
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