The New Digital Age Page 3
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Innovation, More Opportunity
That the steady march of globalization will continue apace, even accelerate, as connectivity spreads will come as no surprise. But what might surprise you is how small some of the advances in technology, when paired with increased connection and interdependence across countries, will make your world feel. Instant language translation, virtual-reality interactions and real-time collective editing—most easily understood today as wikis—will reshape how firms and organizations interact with partners, clients and employees in other places. While certain differences will perhaps never be fully overcome—like cultural nuance and time zones—the ability to engage with people in disparate locations, with near-total comprehension and on shared platforms, will make such interactions feel incredibly familiar.
Supply chains for corporations and other organizations will become increasingly disaggregated, not just on the production side but also with respect to people. More effective communication across borders and languages will build trust and create opportunities for hardworking and talented individuals around the world. It will not be unusual for a French technology company to operate its sales team from Southeast Asia, while locating its human-resources people in Canada and its engineers in Israel. Bureaucratic obstacles that prevent this level of decentralized operation today, like visa restrictions and regulations around money transfers, will become either irrelevant or be circumvented as digital solutions are discovered. Perhaps a human-rights organization with staff living in a country under heavy diplomatic sanctions will pay its employees in mobile money credits, or in an entirely digital currency.
As fewer jobs require a physical presence, talented individuals will have more options available to them. Skilled young adults in Uruguay will find themselves competing for certain types of jobs against their counterparts in Orange County. Of course, just as not all jobs can or will be automated in the future, not every job can be conducted from a distance—but more can than you might think. And for those living on a few dollars per day, there will be endless opportunities to increase their earnings. In fact, Amazon Mechanical Turk, which is a digital task-distribution platform, offers a present-day example of a company outsourcing small tasks that can be performed for a few cents by anyone with an Internet connection. As the quality of virtual interactions continues to improve, a range of vocations can expand the platform’s client base; you might retain a lawyer from one continent and use a Realtor from another. Globalization’s critics will decry this erosion of local monopolies, but it should be embraced, because this is how our societies will move forward and continue to innovate. Indeed, rising connectivity should help countries discover their competitive advantage—it could be that the world’s best graphic designers come from Botswana, and the world just doesn’t know it yet.
This leveling of the playing field for talent extends to the world of ideas, and innovation will increasingly come from the margins, outside traditional bastions of growth, as people begin to make new connections and apply unique perspectives to difficult problems, driving change. New levels of collaboration and cross-pollination across different sectors internationally will ensure that many of the best ideas and solutions will have a chance to rise to the top and be seen, considered, explored, funded, adopted and celebrated. Perhaps an aspiring Russian programmer currently working as a teacher in Novosibirsk will discover a new application of the technology behind the popular mobile game Angry Birds, realizing how its game framework could be used to improve the educational tools he is building to teach physics to local students. He finds similar gaming software that is open source and then he builds on it. As the open-source movement around the world continues to gain speed (for governments and companies it is low cost, and for contributors the benefits are in recognition and economic opportunities to improve and enlarge the support ecosystems), the Russian teacher-programmer will have an enormous cache of technical plans to learn from and use in his own work. In a fully connected world, he is increasingly likely to catch the eyes of the right people, to be offered jobs or fellowships, or to sell his creation to a major multinational company. At a minimum, he can get his foot in the door.
Innovation can come from the ground up, but not all local innovation will work on a larger scale, because some entrepreneurs and inventors will be building for different audiences, solving very specific problems. This is true today as well. Consider the twenty-four-year-old Kenyan inventor Anthony Mutua, who unveiled at a 2012 Nairobi science fair an ultrathin crystal chip he developed that can generate electricity when put under pressure. He placed the chip in the sole of a tennis shoe and demonstrated how, just by walking, a person can charge his mobile phone. (It’s a reminder of how bad the problems of reliable and affordable electricity, and to a lesser extent short battery life, are for many people—and how some governments are not rushing to fix the electricity grids—that innovators like Mutua are designing microchips that turn people into portable charging stations.) Mutua’s chip is now set to go into mass production, and if that successfully brings down the cost, he will have invented one of the cleverest designs that no one outside the developing world will ever use, simply because they’ll never need to. Unfortunately, the level of a population’s access to technology is often determined by external factors, and even if power and electricity problems are eventually solved (by the government or by citizens), there is no telling what new roadblocks will prevent certain groups from reaching the same level of connectivity and opportunity as others.
The most important pillar behind innovation and opportunity—education—will see tremendous positive change in the coming decades as rising connectivity reshapes traditional routines and offers new paths for learning. Most students will be highly technologically literate, as schools continue to integrate technology into lesson plans and, in some cases, replace traditional lessons with more interactive workshops. Education will be a more flexible experience, adapting itself to children’s learning styles and pace instead of the other way around. Kids will still go to physical schools, to socialize and be guided by teachers, but as much, if not more, learning will take place employing carefully designed educational tools in the spirit of today’s Khan Academy, a nonprofit organization that produces thousands of short videos (the majority in science and math) and shares them online for free. With hundreds of millions of views on the Khan Academy’s YouTube channel already, educators in the United States are increasingly adopting its materials and integrating the approach of its founder, Salman Khan—modular learning tailored to a student’s needs. Some are even “flipping” their classrooms, replacing lectures with videos watched at home (as homework) and using school time for traditional homework, such as filling out a problem set for math class. Critical thinking and problem-solving skills will become the focus in many school systems as ubiquitous digital-knowledge tools, like the more accurate sections of Wikipedia, reduce the importance of rote memorization.
For children in poor countries, future connectivity promises new access to educational tools, though clearly not at the level described above. Physical classrooms will remain dilapidated; teachers will continue to take paychecks and not show up for class; and books and supplies will still be scarce. But what’s new in this equation—connectivity—promises that kids with access to mobile devices and the Internet will be able to experience school physically and virtually, even if the latter is informal and on their own time.
In places where basic needs are poorly met by the government, or in insecure areas, basic digital technologies like mobile phones will offer safe and inexpensive options for families looking to educate their children. A child who cannot attend school due to distance, lack of security or school fees will have a lifeline to the world of learning if she has access to a mobile phone. Even for those children without access to data plans or the mobile web, basic mobile services, like text messages and IVR (interactive voice response, a form of voice-recognition technology), can provide educational outl
ets. Loading tablets and mobile phones with high-quality education applications and entertainment content before they are sold will ensure that the “bandwidth poor,” who lack reliable connectivity, will still benefit from access to these devices. And for children whose classrooms are overcrowded or understaffed, or whose national curriculum is dubiously narrow, connectivity through mobile devices will supplement their education and help them reach their full potential, regardless of their origins. Today numerous pilot projects exist in developing countries that leverage mobile technology to teach a wide range of topics and skills, including basic literacy for children and adults, second languages and advanced courses from universities. In 2012, the MIT Media Lab tested this approach in Ethiopia by distributing preloaded tablets to primary-age kids without instructions or accompanying teachers. The results were extraordinary: within months the kids were reciting the entire alphabet and writing complete sentences in English. Without the connectivity that will be ubiquitous in the future, there are limits to what any of these efforts can accomplish today.
Just imagine the implications of these burgeoning mobile or tablet-based learning platforms for a country like Afghanistan, which has one of the lowest rates of literacy in the world. Digital platforms, whether presented in simple mobile form or in more sophisticated ways online, will eventually be able to withstand any environmental turbulence (political instability, economic collapse, perhaps even bad weather) and continue to serve the needs of users. So while the educational experience in the physical world will remain volatile for many, the virtual experience will increasingly become the more important and predictable option. And students stuck in school systems that teach narrow curriculums or only rote memorization will have access to a virtual world that encourages independent exploration and critical thinking.
A Better
Quality of Life
In tandem with the wide variety of functional improvements in your daily life, future connectivity promises a dazzling array of “quality of life” improvements: things that make you healthier, safer and more engaged. As with other gains, there remains a sliding scale of access here, but that doesn’t make them any less meaningful.
The devices, screens and various machines in your future apartment will serve a purpose beyond utility—they will offer entertainment, wanted distraction, intellectual and cultural enrichment, relaxation and opportunities to share things with others. The key advance ahead is personalization. You’ll be able to customize your devices—indeed, much of the technology around you—to fit your needs, so that your environment reflects your preferences. People will have a better way to curate their life stories and will no longer have to rely on physical or online photo albums, although both will still exist. Future videography and photography will allow you to project any still or moving image you’ve captured as a three-dimensional holograph. Even more remarkable, you will be able to integrate any photos, videos and geographic settings that you choose to save into a single holographic device that you will place on the floor of your living room, instantaneously transforming the space into a memory room. A couple will be able to re-create their wedding ceremony for grandparents who were too ill to attend.
What you can watch on your various displays (high-quality LCD—liquid crystal display—screens, holographic projections or a handheld mobile device) will be determined by you, not by network-television schedules. At your fingertips will be an entire world’s worth of digital content, constantly updated, ranked and categorized to help you find the music, movies, shows, books, magazines, blogs and art you like. Individual agency over entertainment and information channels will be greater than ever, as content producers shift from balkanized protectiveness to more unified and open models, since a different business model will be necessary in order to keep the audience. Contemporary services like Spotify, which offers a large catalog of live-streaming music for free, give us a sense of what the future will look like: an endless amount of content, available anytime, on almost any device, and at little or no cost to users, with copyrights and revenue streams preserved. Long-standing barriers to entry for content creators are being flattened as well; just as YouTube can be said to launch careers today1 (or at least offer fleeting fame), in the future, even more platforms will offer artists, writers, directors, musicians and others in every country the chance to reach a wider audience. It will still require skill to create quality content, but it will also be easier to assemble a team with the requisite skills to do this—say, an animator from South Korea, a voice actor from the Philippines, a storyboarder from Mexico and a musician from Kenya—and the finished product may have the potential to reach as wide an audience as any Hollywood blockbuster.
Entertainment will become a more immersive and personalized experience in the future. Integrated tie-ins will make today’s product placements seem passive and even clumsy. If while watching a television show you spot a sweater you want or a dish you think you’d like to cook, information including recipes or purchasing details will be readily available, as will every other fact about the show, its story lines, actors and locations. If you’re feeling bored and want to take an hour-long holiday, why not turn on your holograph box and visit Carnival in Rio? Stressed? Go spend some time on a beach in the Maldives. Worried your kids are becoming spoiled? Have them spend some time wandering around the Dharavi slum in Mumbai. Frustrated by the media’s coverage of the Olympics in a different time zone? Purchase a holographic pass for a reasonable price and watch the women’s gymnastics team compete right in front of you, live. Through virtual-reality interfaces and holographic-projection capabilities, you’ll be able to “join” these activities as they happen and experience them as if you were truly there. Nothing beats the real thing, but this will be a very close second. And if nothing else, it will certainly be more affordable. Thanks to these new technologies, you can be more stimulated, or more relaxed, than ever before.
You’ll be safer, too, at least on the road. While some of the very exciting new possibilities in transportation, like supersonic tube commutes and suborbital space travel, are still far in the distance, ubiquitous self-driving cars are imminent. Google’s fleet of driverless cars, built by a team of Google and Stanford University engineers, has logged hundreds of thousands of miles without incident, and other models will soon join it on the road. Rather than replacing drivers altogether, the liminal step will be a “driver-assist” approach, where the self-driving option can be turned on, just as an airline captain turns on the autopilot. Government authorities are already well versed on self-driving cars and their potential—in 2012, Nevada became the first state to issue licenses to driverless cars, and later that same year California also affirmed their legality. Imagine the possibilities for long-haul truck-driving. Rather than testing the biological limits of human drivers with thirty-hour trips, the computer can take over primary responsibility and drive the truck for stretches as the driver rests.
The advances in health and medicine in our near future will be among the most significant of all the new game-changing developments. And thanks to rising connectivity, an even wider range of people will benefit than at any other time in history. Improvements in disease detection and treatment, the management of medical records and personal-health monitoring promise more equitable access to health care and health information for potentially billions more people when we factor in the spread of digital technology.
The diagnostic capability of your mobile phone will be old news. (Of course you will be able to scan body parts the way you do bar codes.) But soon you will be benefiting from a slew of physical augmentations designed to monitor your well-being, such as microscopic robots in your circulatory system that keep track of your blood pressure, detect nascent heart disease and identify early-stage cancer. Inside your grandfather’s new titanium hip there will be a chip that can act as a pedometer, monitor his insulin levels to check for the early stages of diabetes, and even trigger an automated phone call to an emergency contact if he takes a parti
cularly hard fall and might need assistance. A tiny nasal implant will be available to you that will alert you to airborne toxins and early signs of a cold.
Eventually these accoutrements will be as uncontroversial as artificial pacemakers (the first of which was implanted in the 1950s). They are the logical extensions of today’s personal-health-tracking applications, which allow people to use their smart phones to log their exercise, track their metabolic rates and chart their cholesterol levels. Indeed, ingestible health technology already exists—the Food and Drug Administration (FDA) approved the first electronic pill in 2012. Made by a California-based biomedical firm called Proteus Digital Health, the pill carries a tiny sensor one square millimeter in size, and once the pill is swallowed, stomach acid activates the circuit and sends a signal to a small patch worn outside the body (which then sends its data to a mobile phone). The patch can collect information about a patient’s response to a drug (monitoring body temperature, heart rate and other indicators), relay data about regular usage to doctors and even track what a person eats. For sufferers of chronic illnesses and the elderly particularly, this technology will allow for significant improvements: automatic reminders to take various medications, the ability to measure directly how drugs are reacting in a person’s body and the creation of an instant digital feedback loop with doctors that is personalized and data-driven. Not everyone will want to actively oversee their health to this degree, let alone the even more detailed version of the future, but they probably will want their doctor to have access to such data. “Intelligent pills” and nasal implants will be sufficiently affordable so as to be as accessible as vitamins and supplements. In short order, we will have access to personal health-care systems run off of our mobile devices that will automatically detect if something is wrong with us based on data collected from some of the above-mentioned augmentations, prompt us with appointment options for a nearby doctor and subsequently (with consent) send all of the relevant data about our symptoms and health indicators to the doctor being consulted.