Technology and Innovation

The United States needs to champion international cooperation and work toward collective rather than unilateral security in outer space. 

Just as the mobile phone and solar energy have allowed developing nations to leap-frog into more advanced stages of technology, advances in medical technology can provide easy access to maternal and women’s healthcare in rural areas around the world.

The following is a guest post by Kyle L. Evanoff, research associate in international economics and U.S. foreign policy at the Council on Foreign Relations. A dash of competition could be the secret to improving global cooperation. In November 2016, the Stockholm-based Global Challenges Foundation launched the New Shape Prize, a $5 million contest to reimagine global governance for the twenty-first century. The competition, open to anyone with an internet connection, garnered 2,702 entries from residents in 122 countries during its ten-month span. Now, with the window for submissions closed and the judging complete, preparations are underway to showcase the top proposals at November’s inaugural Paris Peace Forum, a gathering that bills itself as the Davos of collective action. The New Shape Prize highlights an encouraging trend in world affairs: the rise of prize competitions as tools for global innovation. In diverse fields, governments and philanthropists are offering multimillion-dollar sums for breakthroughs with transformative implications. Contest sponsors hope to use prizes as low-cost, low-risk vehicles for bringing new and unexpected talent to bear in addressing some of humanity’s greatest challenges. The premise has promise. Whether these aspiring changemakers prove successful, however, will depend in large part on their ability to select appropriate goals and recognize the limitations of the prizes they offer. Prizes, Past and Present Inducement prizes, which reward future innovation rather than past achievement, are old instruments in the governance toolkit. The British Longitude Act of 1714, for instance, established prizes for devising more precise methods for determining a ship’s longitude, a navigational problem of growing importance in an era of increasing transoceanic commercial and military activity. Likewise, Napoleon set out a reward of 12,000 francs in 1795 for finding a better way to preserve food, a critical logistical challenge for his armies. In each case, the prize sponsor looked to the broader public to address a problem whose solution had long eluded the experts.     Legislators and heads of state have not been alone in dangling cash to induce competition. Twentieth century philanthropists jumpstarted the field of aviation with a series of prizes: The Daily Mail sponsored numerous competitions, and hotelier Raymond Orteig offered $25,000 for the first nonstop flight between Paris and New York, a reward famously captured by Charles Lindbergh. Contemporary philanthropists have followed suit—a 2009 report found that the aggregate value of large purses (over $100,000) had more than tripled over the preceding decade. Today, competitions to build nanoscale devices, map the ocean floor, and increase longevity are all underway, with at least one meta-contest even offering prizes for prize-design. One plausible catalyst for this profusion of purses was the success of the Ansari XPRIZE. Launched in 1996, the contest offered $10 million to the first team “to build a reliable, reusable, privately financed, manned spaceship capable of carrying three people to 100 kilometers above the Earth’s surface twice within two weeks.” Twenty-six teams participated, investing over $100 million—more than ten times the value of the prize—into research and development. Mojave Aerospace Ventures, led by aerospace pioneer Burt Rutan, claimed victory in 2004 with SpaceShipOne, in what many hailed as a milestone for private spaceflight. On one hand, the Ansari XPRIZE, with its grand designs and positive outcome, exemplifies how prizes can facilitate large-scale change. The XPRIZE Foundation, its Silicon Valley progenitor, credits the competition with launching a $2 billion-plus private space industry—a tremendous accomplishment, given spaceflight’s historical state-centrism and recalcitrance to newcomers. Little wonder, then, that a host of ambitious prizes have emerged in the competition’s wake. The possibility of global change on the cheap has obvious allure.       On the other hand, the Ansari XPRIZE provides an object lesson in the limitations and risks of inducement prizes. Following his team’s success, Rutan entered into a joint venture to develop spacecraft for Richard Branson’s space tourism outfit, Virgin Galactic. Despite regular promises to offer suborbital joyrides to the public, Virgin has failed to launch a single paying customer in the fourteen interim years. The company was, however, party to the death of a test pilot, as well as several others, during this same period. The extent to which the Ansari XPRIZE actually contributed to increasing access to space, then, is a matter of contention, dependent on perspective and time horizon.  Setting the Global Prize Agenda Prizes can be powerful tools for change, but only under the right circumstances. For a contest to be useful, its objectives should lie on the edge of possibility. If the goals are too difficult, they will go unaccomplished; too easy, and accomplishment means little. Threading the needle demands considerable expertise in defining the problem at hand. Setting objective criteria for success is also essential, as expertise has its limits. Even first-rate judges are bound to make errors in assessing the prospects of unfamiliar, untested ideas. This implies that essay contests like the New Shape Prize, for which evaluation is necessarily subjective, can often produce suspect results and misallocate awards.   The need for objective criteria, however, does not imply that prize-design is apolitical. The 2012 Wolfson Economics Prize, which offered £250,000 for a plan for a country to leave the euro, and the 2013 IEA Brexit Prize, which offered €100,000 for a blueprint for Brexit, underscore how prizes can serve narrow interests. Even contests meant to increase the general welfare impose private costs and produce uneven gains: Many early aviators met their deaths while in pursuit of some purse, and private spacecraft provide a wider array of benefits to billionaires than subsistence farmers. Ignoring the political aspects of prize competitions can lead to blunders and precipitate backlash from aggrieved parties. Choosing appropriate goals, then, entails contextual understanding of who stands to gain or lose, and how. A competition produces winners and losers not only at its conclusion, but for years afterward, as second- and third-order effects play out. For the Global Challenges Foundation and the New Shape Prize, this means considering the geopolitical fallout that would occur if the contest were to lead to an international reordering. It also implies a moral duty to account for social opportunity costs, implement reasonable safeguards, and redress grievances as warranted. Prize sponsors, philanthropists especially, cannot claim credit for benefits while disavowing harms.   Inducing competition for the global good will require diligence and foresight in selecting goals and administering contests. National governments should establish guidelines for domestic prize competitions, intervening on a case-by-case basis to prevent abuses and mitigate risks. Philanthropists and other prize sponsors, meanwhile, should undertake wide-ranging public and expert consultations prior to, during, and after contests. Establishing multistakeholder prize committees, tasked with agenda setting and oversight, can help minimize harms and increase accountability. With the right measures in place, prize competitions can and will remain important tools for global innovation and change. Innovation and change, however, are not one and the same. Realizing the promise of these competitions requires that ideation lead to implementation, as well as the acknowledgment that there is no ‘magic bullet’ solution to complex global challenges—prizes are only one governance tool among many.

Imagine a global leak, an explosion of data unlike anything the planet has yet seen, where the innermost secrets of virtually every government, corporation, and entity on the planet are thrown open. That could be the future of quantum computing. 

This blog post is adapted from a new discussion paper from the Energy Security and Climate Change Program: “Applying Blockchain Technology to the Electric Power Sector.” 

This post is about a new book, “Digital Decarbonization: Promoting Digital Innovations to Advance Clean Energy Systems,” edited by Varun Sivaram. It is available as a paperback or e-book on Amazon, and you can also download a free PDF copy here. Digitalization is all the rage in energy circles. The International Energy Agency published a major report last year proclaiming that the global energy system was on the cusp of a new, digital era. And indeed, advances in artificial intelligence and computing power, the falling cost of digital equipment such as sensors, and the connectivity provided by the Internet are transforming the way energy is produced, transported, and consumed. Many cheer on these trends because of the potential for digital innovations to make energy systems cleaner and more efficient. But digitalization is not inherently clean. That’s a prominent theme in a new CFR book published today, Digital Decarbonization, which features an all-star lineup of thirteen expert authors, ranging from university professors to corporate executives to the energy czar of New York state. The authors highlight the dramatic potential for digital innovations, from self-driving cars to smarter grids, to reduce energy-related greenhouse gas emissions. But they also warn that digital technologies could instead increase emissions by making it easier to obtain and use fossil fuels. Listed below are the diverse topics the book covers (and if you’re looking for Cliffs Notes, my introductory chapter to the book offers a sneak preview into each of the subsequent chapters): PART I: THE DIGITAL WAVE OF CLEAN ENERGY INNOVATION Stephen D. Comello, (Stanford University) “Trends in Early-Stage Financing for Clean Energy Innovation” David G. Victor (University of California, San Diego), “Digitalization: An Equal Opportunity Wave of Energy Innovation” PART II: DIGITAL OPPORTUNITIES IN ELECTRIC POWER, TRANSPORTATION, AND DATA SCIENCE Lidija Sekaric (Siemens), A Survey of Digital Innovations for a Decentralized and Transactive Electric Power System Ben Hertz-Shargel (EnergyHub), How Distribution Energy Markets Could Enable a Lean and Reliable Power System Peter Fox-Penner (Energy Impact Partners), The Implications of Vehicle Electrification and Autonomy for Global Decarbonization Rohit T. Aggarwala (Sidewalk Labs), Autonomous Vehicles and Cities: Expectations, Uncertainties, and Policy Choices Kyle Bradbury (Duke University), How Data Science Can Enable the Evolution of Energy Systems Sunil Garg (Uptake Technologies), Applying Data Science to Promote Renewable Energy PART III: MANAGING THE RISKS OF DIGITAL INNOVATIONS Erfan Ibrahim (Bit Bazaar), Managing the Cybersecurity Risks of an Increasingly Digital Power System Jesse Scott (Eurogas), Managing the Economic and Privacy Risks Arising From Digital Innovations in Energy PART IV: POLICY RECOMMENDATIONS Richard Kauffman and John O’Leary (Office of the Governor of New York), How State-Level Regulatory Reform Can Enable the Digital Grid of the Future Hiang Kwee Ho (Nanyang Technological University, Singapore), Lessons from Singapore’s Approach to Developing Clean and Digital Energy Systems Digital innovations stand out against the landscape of clean energy innovation. Whereas technologies such as advanced nuclear reactors, next-generation batteries, and new projects to capture and store carbon dioxide all struggle to raise private funding, digital technologies in energy are successfully attracting a new wave of venture capital investment in cleantech (figure 1; credit: Stephen Comello). So unlike other technology areas, where policymakers must seek to stimulate investments in innovation, policymakers face a different challenge when it comes to digital innovations. Here, policymakers need to harness these technologies –which the private sector is already funding—to reduce, rather than raise, carbon emissions and mitigate risks such as those of cyberattacks and privacy breaches. To find out more on how exactly to do so, I hope you’ll download a copy of Digital Decarbonization. Digitalization presents a rare opportunity to rapidly transform energy systems that are tend to be frustratingly slow to change. Making sure that the changes we do get advance an ultimate goal of decarbonization couldn’t be more important.

While women are still underrepresented in media generally, social media encourages a more level playing field, allowing for the voices of women from a wider array of backgrounds and countries, with or without traditional power, to be heard.

As technology companies and carmakers become increasingly reliant on cobalt, many business, government, and nonprofit leaders have grown concerned about the mineral’s controversial supply chain.

As blockchain and cryptocurrencies pioneer new frontiers in finance and beyond, we should be worried about the industry's gender disparity.