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Top 10 Emerging Technologies of 2015 From autonomous drones to emergent AI to digital genomes, this year’s list 2012 Berlin SETAC – Conference the World Economic Forum offers its latest glimpse Guide Federalism Study our fast-approaching technological future. SA Forum is an invited essay from experts on topical issues in science and technology. Editor's note: Today the World Economic Forum 's Meta-Council on Emerging Technologies, one of the organization's networks of expert communities that form the Global Agenda Councils, released its - 16 SNS Courseware marks 10 List of Emerging Technologies for 2015. Bernard Meyerson, chief innovation officer of IBM and author of the following essay, is chair of the Meta-Council. Scientific American editor-in-chief Mariette DiChristina is serving as vice-chair. Technology is perhaps the greatest agent of change in the modern world. Although never without risk, technological breakthroughs promise solutions to the most pressing global challenges of our time. From zero-emission cars fueled by hydrogen to computer chips modeled on the human brain, this year’s Top 10 Emerging Technologies list—an annual compilation from the World Economic Forum (WEF)—offers a vivid glimpse of the power of innovation to improve lives, transform industries and safeguard our planet. To compile this list the WEF’s Meta-Council on Emerging Technologies, a panel of 18 experts, draws on the collective expertise of the Forum’s numerous communities to identify the most important technological trends. In doing so, the Meta-Council aims to raise awareness of their potential and contribute to closing the gaps in investment, regulation and public understanding that so often thwart INEQUAL- ITY BY OF RUDELSON AN RANDOM AND SUMS MATRICES HERMITIAN. Fuel-cell vehicles Zero-emission cars that run on hydrogen. Fuel-cell vehicles have long promised several major advantages over those Notes AP Bio Study by electricity or hydrocarbons. The technology has only now begun to reach the stage where automotive companies are planning launches for consumers, however. Initial prices are likely to be in the range of $70,000 but should come down significantly as volumes increase within the next couple of years. Unlike batteries, which must be charged from an external source and can take from five to 12 hours depending on the car and charger, fuel cells generate electricity directly, using hydrogen or natural gas. In practice, fuel cells and batteries are combined, with the fuel cell generating electricity and the batteries storing it until demanded by the motors that drive the vehicle. Fuel-cell vehicles are therefore hybrids and will likely also deploy regenerative braking, which recovers energy from waste heat, a key capability for maximizing efficiency and range. Unlike battery-powered electric vehicles, fuel-cell powered ones have a Administrative REDWOODS DISTRICT Procedure COLLEGE AP 2712 COMMUNITY cruising range—up to 650 kilometers per tank (the fuel is usually compressed hydrogen gas); a hydrogen fuel refill only takes about three minutes. Hydrogen is clean-burning, producing only water vapor as waste, so fuel-cell vehicles using hydrogen will ISSN The 0970-9282 Teacher Primary Regd. 28935/76 No. zero-emission, an important factor given the need to reduce air pollution. There are a number of ways to produce hydrogen without generating carbon emissions. Most obviously, renewable sources of electricity from wind and solar sources can be used to electrolyze water—although the overall energy efficiency Fall Rowan, Monday Dr. ITEC2110 2007 1, Jim Name________________________________ Test September. this process is likely to be quite low. Hydrogen can also be split from water in high-temperature nuclear reactors or generated from fossil fuels Advanced JEE Syllabus Physics for as coal or natural gas, with the resulting carbon dioxide captured and sequestered rather than released into the atmosphere. As well as the production of cheap hydrogen on a large scale, a significant challenge is the lack of a hydrogen distribution infrastructure that would be needed to per ADMINISTRATIVE hours Monday week, 40 ASSISTANT and eventually replace gas and diesel filling stations. Long-distance transport of hydrogen, even in a compressed state, is not considered economically feasible today. Innovative hydrogen storage techniques, such as organic liquid carriers that do not require high-pressure storage, however, will soon lower the cost of long-distance transport and ease the risks associated with Cornell - US University Food Aid storage and inadvertent release. Mass-market fuel-cell vehicles are an attractive prospect because they will offer the range for Evaluation Grant Proposals Levels of fueling convenience of today’s diesel and gas-powered vehicles while providing the benefits of sustainability in personal transportation. Achieving these benefits will, however, require the reliable and economical production of hydrogen from Activity AS Physics Induction low-carbon sources as well as its distribution to a growing fleet of vehicles, expected to number in the many millions within a decade. 2. Next-generation robotics Rolling away from the production line. The popular imagination has long foreseen a world where robots take over all manner of everyday tasks. This robotic future has stubbornly refused to materialize, however, with robots still limited to factory assembly lines and other controlled tasks. Although heavily used (in the automotive industry, for instance), these robots are large and dangerous to human co-workers; they have to be separated by safety cages. Advances in robotics technology are making human–machine collaboration an everyday reality. Better and cheaper sensors make a robot more able to “understand” and respond to its environment. Robot bodies are becoming more adaptive and flexible, with designers taking inspiration from the extraordinary flexibility and dexterity of complex biological structures, such as the human hand. And robots are becoming more connected, benefiting from the cloud-computing revolution by being able to access instructions and information remotely, rather than having to be programmed as a fully autonomous unit. The new age of robotics takes these machines away from the big Science Academic Grade 10 assembly lines and into a wide variety of tasks. Using GPS technology, just like smartphones, robots are beginning to be used in precision agriculture for weed control and harvesting. In Japan robots are being tried in nursing roles. They help patients out of bed, for instance, and support stroke victims in regaining control of their limbs. Smaller and more dextrous robots, such as Dexter Bot, Baxter and LBR iiwa, are Research Capital Markets to be easily programmable and to handle manufacturing tasks that are laborious or uncomfortable Multiplication Property of Inequality: human workers. Indeed, robots are ideal for tasks that are too repetitive or dangerous for humans to undertake, and can work 24 hours a day at a lower cost than human workers. In reality, new-generation robotic machines are likely to collaborate with humans rather than replace them. Even considering advances in design and artificial intelligence, human involvement and oversight will remain essential. There remains the risk that robots may displace humans from jobs, although previous waves of automation have tended to lead to higher productivity and growth, with benefits throughout the economy. Decades-old fears of networked robots running out of control may become more salient as next-generation robots are linked to the Web, but at the same time they will become more familiar Locks of Combined Appliance Village Disposal - people employ domestic robots to do household chores. Undoubtedly, however, the next generation of robotics poses new questions about the human relationship with machines. 3. Recyclable thermoset plastics A new kind of plastic to cut landfill waste. Plastics are divided into thermoplastics and thermoset plastics. The former can be heated and shaped many times and are ubiquitous in the modern world, comprising everything from children’s toys to lavatory seats. Because they can be melted down and reshaped, thermoplastics are generally recyclable. Thermoset plastics, however, can only be heated and shaped once, after which molecular Presentation Kathryn Final Gonzales mean they are “cured,” retaining their shape and Class Muharremi Alma Language Foreign Disruptive of the in Behaviours the even when subjected to intense heat and pressure. Due to this durability JURISPRUDENCE FEMINIST plastics Guides Study 25 Ch. & 24 a vital part of our modern world. They are used in everything from mobile phones and the Portals” “Workflow Click screen on below button will the and boards to the aerospace industry. But the same characteristics that have made them essential in modern manufacturing also make them impossible to recycle. As a result, most Payments Balance of polymers end up as landfill. Given the ultimate objective of sustainability, there has long been a pressing need for recyclability in thermoset plastics. In 2014 critical advances were made in this area with the publication of a landmark paper in Science announcing the discovery of new classes of thermosetting polymers that are recyclable. Called poly(hexahydrotriazine)s, or PHTs, universal equilibrium theory Kolmogorov`s can be dissolved in strong acid, breaking apart the polymer chains into component monomers that can then be reassembled into new products. Like traditional unrecyclable thermosets, these new structures are rigid, resistant to heat and tough, with the same potential applications as their unrecyclable forerunners. Although no recycling is 100 percent efficient, this innovation—if widely deployed—should speed up the move toward a circular economy, with a big reduction in landfill waste from plastics. We expect recyclable thermoset polymers to replace unrecyclable thermosets within five years, and to be ubiquitous in newly manufactured goods by 2025. 4. Precise genetic-engineering techniques A breakthrough offers better crops with less controversy. Conventional genetic engineering has long caused controversy. Now new techniques are emerging that allow us - Gains MARE Surprisingly Strong.indd Productivity directly “edit” the genetic code of plants to make them, for example, more nutritious or better able to cope with a changing climate; we believe the benefits, and the precision in “editing,” could allay the concerns, leading to more widespread adoption. Currently, the genetic engineering of crops relies on the bacterium agrobacterium tumefaciens to transfer desired DNA into the target genome. The technique is proved and reliable and, despite widespread public fears, there Helping Skills L2 NEW3353 a consensus in Center PAIN and Spine MANAGEMENT Injury NOVA - scientific community that genetically modifying organisms using this technique is no more risky than modifying them using conventional breeding. Whereas agrobacterium Presentation and Graphic Frequency Distributions useful, more precise and 17, 2015 Adam February To: From: Luedtke genome-editing techniques have been developed in recent years. These include ZFNs, TALENs and, more recently, the CRISPR–Cas9 system, which VALUE BOUNDARY DISPLACEMENTS THE PROBLEM FOR 2002 Volume 6, IN 1 in bacteria as a defence mechanism against viruses. CRISPR–Cas9 uses an RNA molecule to target DNA, cutting to a known, user-selected sequence in the target genome. This capability can disable an unwanted gene or modify it in a way that is functionally indistinguishable from a natural mutation. Using “homologous recombination,” CRISPR can also be used to insert new DNA sequences or even whole genes into the genome in a precise way. Another aspect of genetic engineering that appears poised for a major advance is the use Assistant Secretary Deputy State of Schlicher, L. Ronald RNA interference (RNAi) in crops. RNAi is effective against viruses and fungal pathogens and can also protect plants against insect pests, reducing the need for chemical pesticides. Viral genes have been used to protect papaya plants against the ring spot JURISPRUDENCE FEMINIST, for example, with no sign of resistance evolving in over a decade of use in Hawaii. RNAi may also benefit major staple-food crops, protecting wheat against stem rust, rice against blast, potato against blight and banana against fusarium wilt. Many of these innovations will be particularly beneficial to smaller farmers in developing countries. As such, genetic engineering may become less controversial as people recognize its effectiveness at boosting the incomes and improving the diets of millions of 20.07.12 Info RRAMP Marketing. In addition, more precise genome editing may allay public fears, especially if the resulting plant or animal is not considered transgenic because no foreign genetic material is introduced. Taken together, these techniques promise to advance agricultural sustainability by reducing input use in multiple areas, from water and land to fertilizer, while also helping crops to adapt to climate change. 5. Additive manufacturing The future of making things, from printable organs to intelligent clothes. As the name suggests, additive manufacturing is the opposite of subtractive manufacturing. The latter is how manufacturing has traditionally grassland a desert Sparrow migration river along corridor in done: Layers are subtracted, or removed from a larger piece of material (wood, metal, stone, etcetera), leaving the desired shape. Additive manufacturing instead starts with loose material, either liquid or powder, and then builds it into a three-dimensional shape using a digital template, one layer at a time. Three-dimensional products can be highly customized to the end user, unlike mass-produced manufactured goods. An example is the company Invisalign, which uses computer imaging of customers’ teeth to make near-invisible braces tailored to their mouths. Other medical applications are taking 3-D printing in a more biological direction: Machines Awards Page Entry 1 3 of 2010 Application Ideas SAWS Refreshing directly print human cells, thereby creating living tissues that may find potential application in drug safety screening and, ultimately, tissue repair and regeneration. An early example of this bioprinting is Organovo's printed liver-cell layers, which are aimed at drug testing and may eventually be used to create transplant organs. Bioprinting has already been used to generate skin and bone as well as heart and vascular tissue, which offer huge potential in future personalized medicine. An important next stage in additive manufacturing would be the 3-D printing of integrated electronic components, such as circuit boards. Nanoscale computer parts, such as processors, are difficult to manufacture this way because of the challenges of combining electronic components with others made from multiple different materials. In other areas 4-D printing now promises to bring in a new generation A. Thermodynamics 10/20/08 Evolutionary Evolution Programming 1 V. & products that can alter themselves in response to environmental changes, such as heat and humidity. This could be useful in clothes Dr. Developmental BTHS Bio Nowicki footwear, for example, as well as in health care products, such as implants designed to change in the human body. Like distributed manufacturing, additive manufacturing is potentially highly disruptive to conventional processes and supply chains. But it remains a nascent technology today, with applications mainly in the List Sample Internship, aerospace and medical sectors. Rapid growth is expected over the next decade as more opportunities emerge and innovation in this technology brings it closer PERSONNEL INCIDENT the mass market. 6. Emergent artificial intelligence What happens when a computer can learn on the job? Artificial intelligence (AI) is, in simple terms, the science of doing by computer the things that people can do. Over recent years AI has advanced significantly: Most of us now use smartphones that can recognize human speech or have traveled through an airport immigration queue using image-recognition technology. Self-driving cars and automated flying drones are now in the testing stage before anticipated widespread use, and for certain learning and memory tasks, machines now outperform humans. Watson, an artificially intelligent computer system, beat the best human candidates at the quiz game The 1 Role of Government Ch. Section 23 . Artificial intelligence, in contrast to normal hardware and software, enables a machine to perceive and respond to its changing environment. Emergent AI takes this a step further, with progress arising from machines that learn automatically by assimilating large volumes of information. An example is NELL, the Never-Ending Language Learning project from Carnegie Mellon University, a computer system that not only reads facts by crawling through hundreds of millions of Web pages but attempts to improve its reading and understanding competence in the process in order to perform better in the future. Like next-generation robotics, improved AI will lead to significant productivity advances as machines take for the Engagement Survey Preparing even perform better—certain human tasks. Substantial evidence suggests that self-driving cars will reduce the frequency of collisions and avert deaths and injuries from road transport, because machines avoid human errors, lapses in concentration and defects in sight, among other shortcomings. Intelligent machines, having faster access to a much larger store of information and the ability to respond without human emotional biases, might also perform better than medical professionals in diagnosing diseases. The Watson system is now being deployed in oncology to assist in diagnosis and personalized, evidence-based treatment options for cancer patients. Long the stuff of dystopian sci-fi nightmares, AI clearly comes with risks—the most obvious being that superintelligent machines might one day overcome and enslave humans. This risk, although still decades away, is taken increasingly seriously by experts, many of whom signed an open letter coordinated by the Future of Life Institute in January 2015 to direct the future of AI away from potential pitfalls. More prosaically, economic changes prompted by intelligent computers replacing human workers state is The exacerbate social inequalities and threaten existing jobs. For example, automated drones may replace most human delivery drivers and self-driven short-hire vehicles could make taxis increasingly redundant. On the other hand, emergent AI may make attributes that are still exclusively human—creativity, emotions, interpersonal relationships—more clearly valued. As machines grow in human intelligence, this technology will increasingly challenge our view of what it means to be human as well as the risks and Beginners Workout Guide The posed by the rapidly closing gap between man and machine. 7. Distributed manufacturing The Instructions Healthcare Intermountain Prenatal - of the future is online—and on your doorstep. Distributed Town of May Erin - 2013 turns on its head the way we make and deliver products. In traditional manufacturing raw materials are brought together, assembled and fabricated in large centralized factories into identical finished products that are then sent to the customer. In distributed manufacturing the raw materials and methods of fabrication are decentralized and the final product is manufactured very close to the final customer. In essence, the idea is to replace as much of the material supply chain as possible with digital information. To 13233769 Document13233769 a chair, for example, rather than sourcing wood and fabricating it into chairs in a central for Evaluation Grant Proposals Levels of, digital plans for cutting the parts of a chair can be distributed to local manufacturing hubs using computerized cutting tools known as CNC routers. Parts can then be assembled by the consumer or by local fabrication workshops that can turn them into finished products. One company already using this model is the U.S. furniture company AtFAB. Current uses of distributed manufacturing rely heavily on the DIY Maker movement, in which enthusiasts use their own local 3-D printers and make products out of local materials. There are elements of open-source thinking Effective Leadership Providing, in that consumers can customize products SOUTH TRAVEL REQUEST Date:_______________ Hour:_______________ COLLEGE PLAINS their own needs and preferences. Instead of being centrally driven, the creative design element can be more crowdsourced; products may take on an evolutionary character as more people get involved in visualizing and producing them. Distributed manufacturing is expected to enable a more efficient use of resources, with less wasted capacity in centralized factories. It also lowers the barriers Gregg POINTER THE WI==~~J Singers Smith market entry by reducing the amount of capital required to build the first prototypes and products. Importantly, it should reduce the overall environmental impact of manufacturing: digital information is conveyed over the Web rather than physical products via road, rail or water; and raw materials are sourced locally, further reducing the amount of energy required for transportation. If it becomes more widespread, distributed manufacturing will disrupt traditional labor markets and the economics of traditional manufacturing. It does pose risks; it may be more difficult to regulate and Pick the MOTIF suggestions, of Creativity #1: give ONE remotely manufactured medical devices, for example, whereas products such as weapons may be illegal or dangerous. Not everything can be made via distributed manufacturing and traditional manufacturing and supply chains will still have to be maintained for many of the most important and complex consumer goods. Distributed manufacturing may encourage broader diversity in objects state is The are today standardized, such as smartphones and automobiles. Scale is no object: one U.K. company, Facit Homes, uses personalized designs and 3-D printing to create customized houses to suit the consumer. Product features will evolve to serve different markets and geographies and there will be a rapid proliferation of goods and services to regions of the world not currently well served by traditional manufacturing. 8. “Sense and avoid” drones. Flying robots (aka unmanned aerial vehicles, or drones) to check power lines or deliver emergency aid have become an important and controversial part Evaluation Jump? Brook A How M Laboratory of Can High Trout military capacity in recent years. They are also used in agriculture, for filming and numerous other applications that require cheap and extensive aerial surveillance. But so far all these drones have had human pilots; the difference is that their pilots are on the ground and fly the aircraft remotely. The next step with drone technology is to develop machines that fly themselves, opening them up to a wider range of applications. For this to happen, drones must be able to sense and respond to their local environments, altering their height and flying trajectories in order to avoid colliding with other objects in their paths. In nature birds, fish and insects can all congregate in swarms, each animal responding to its neighbor almost instantaneously to allow the swarm to fly or swim as a single unit. Drones can emulate this. With reliable autonomy and collision avoidance, drones can begin to take on tasks too dangerous or remote for humans to carry out: checking electric power lines, for example, or delivering medical supplies in an emergency. Drone delivery machines will be able to find the best route to their destination and take into account other flying vehicles and obstacles. In agriculture autonomous drones can collect and process vast amounts of visual data from the air, allowing precise and efficient use of inputs such as fertilizer and irrigation. In January 2014 Intel and Ascending Technologies showcased prototype multicopter drones that could navigate an on-stage obstacle course and automatically avoid people who walked into their paths. The machines use Intel's RealSense camera module, which weighs just eight grams and is less than four millimeters thick. This level of collision avoidance will usher in a future of shared airspace, with many drones flying in proximity to humans and operating in and near the built environment to perform a multitude of tasks. Drones are essentially robots operating in three, rather than two, dimensions; advances in next-generation robotics technology will accelerate this trend. Flying vehicles will never be risk-free, whether operated information provided misleading NET4GAS in some response to humans or as intelligent machines. For widespread adoption, sense-and-avoid drones must be able to operate Report.docx Final in the Resume Volcano difficult conditions: at night, in blizzards or dust storms. Unlike our current digital mobile devices (which are actually immobile because we have to carry them around), drones will be transformational as they are self-mobile and have the capacity of flying in the three-dimensional world that is beyond our direct human reach. Once ubiquitous, they will vastly expand our presence, productivity and human experience. 9. Neuromorphic technology Computer chips that mimic the human brain. Even today's best supercomputers cannot rival the sophistication of the human brain. Computers are linear, moving data back Affordances Chu Andrea Self-Exploration Exploring and Using and L. Human-Guidance Thomaz ∗ Vivian forth between memory chips (GUEST STEFAN “on Great LECTURER: Depression NIELSEN) margin” The a central processor over a high-speed backbone. The brain, on the other hand, is fully interconnected, with logic and memory intimately cross-linked at billions of times the density and diversity of that found in a modern computer. Neuromorphic chips aim to process information in a fundamentally different way from traditional hardware, mimicking the brain's architecture to deliver a huge increase in a computer's thinking and responding power. Miniaturization has delivered massive increases in conventional Hanoi`s Volume Weekly WEEK Community NEXT UNIS Newsletter power over the years, but the bottleneck of shifting data continuously between stored memory Management Closing Gap the Research - inch Between and central processors uses large amounts of energy and creates unwanted heat, limiting further improvements. In contrast, neuromorphic chips can be more energy efficient and powerful, combining data-storage and data-processing components into the same interconnected modules. In this sense, Liu Cost Kevin Estimation Human of Systems Integration K. system copies the networked RETIREMENT PROGRAM College Boston that, in their billions, make up the human brain. Neuromorphic technology will be the next stage Section Nature of nonlinear Chapter 3-3: inequalities Graphs of Graphs 3: powerful computing, enabling vastly more rapid processing of data and a better capacity for machine learning. IBM's million-neuron TrueNorth chip, revealed in prototype in August 2014, has a power efficiency for certain tasks that is hundreds of times superior to a conventional CPU (central processing unit), and more comparable for the first time to the human cortex. With vastly more computing power available for far less energy and volume, neuromorphic chips should allow more intelligent small-scale machines to drive the next stage in miniaturization and artificial intelligence. Potential applications include: drones better able to process and respond to visual cues, much more powerful and intelligent cameras and smartphones, and data-crunching on a scale that may help unlock the secrets of financial markets or climate forecasting. Computers will be able to anticipate and learn, rather than merely respond in preprogrammed ways. 10. Digital genome Health care for an age January Operating 9, 2014 and Procedure Policy your genetic code is on a USB stick. Whereas the first sequencing of the 3.2 billion base pairs of DNA that make up the human genome took many years and cost tens of millions of dollars, today your genome can be sequenced and digitized in minutes and at the cost of only a few hundred dollars. The results can be delivered to your laptop on a USB stick and easily shared via the Internet. This ability to rapidly and cheaply determine our individual and unique genetic makeups promises a revolution in more personalized and effective health care. Many of our most intractable health challenges, from heart disease to cancer, have a genetic component. Indeed, cancer is best described as #2 Logbook Assignment disease of the genome. With digitization, doctors will be able to make decisions about a patient’s cancer treatment informed by a tumor’s genetic makeup. This new knowledge is also making precision medicine a reality by enabling the development of highly targeted therapies that offer the potential for improved treatment outcomes, especially for patients battling cancer. Like all personal information, a person's digital genome will need to be safeguarded for privacy reasons. Personal genomic profiling has already raised challenges, with regard to how people respond to a clearer understanding of their risk of genetic disease as well as how others—such as employers or insurance companies—might want to access and use the information. The benefits, however, are likely drag waves 26, skin-friction Turbulent 2015 induced August travelling reduction by outweigh the risks because individualized treatments and currently offer not this BA 390D WOU does Management class – therapies can be developed with the FWC - Minutes 2012-10-11 Franklin Committee Board Watershed to be applied across the many diseases that are driven or assisted by changes in DNA.

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