How Will Computers Change In The Future – Every year, the Forum recognizes a new group of technology pioneers and includes them in its initiatives, events and activities.
Innovation is key to future social prosperity and economic growth, which are key priorities of the World Economic Forum. To support these two pillars, the Forum launched the Technology Pioneers community in 2000.
How Will Computers Change In The Future
The community is made up of early-stage companies from around the world involved in the design, development and deployment of new technologies and innovations that can have a significant impact on business and society.
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The program aims to give the next generation of innovators a voice in solving global problems and exploring future trends. Every year, the Forum recognizes a new group of technology pioneers and includes them in its initiatives, events and activities.
We asked the class of 2022 to share their thoughts on how technology will change the world in the next five years. From the evolution of advanced technologies (such as Web3 and quantum) to managing flexible networks and on-demand manufacturing, here are our predictions for the near future.
With the explosion of internet penetration and the proliferation of global digital job markets or platforms, “gig work” will become the main form of work. This change has a greater impact on low-skilled/high-collar workers, who make up more than 80% of the workforce in developing countries. Online platforms in areas such as e-commerce, food delivery, ride-sharing and logistics have low barriers to entry and create a large number of income-generating opportunities in countries where low-skilled populations lack sufficient employment opportunities. To maximize profits, employees can participate on multiple platforms in parallel. Soon, the digital labor market will also include financial services in its offer, making credit available to many people who are ignored by traditional financial institutions. Over time, technology will enable financial stability and discipline without requiring people to acquire the appropriate knowledge. Artificial intelligence and machine learning advisors will be everywhere, constantly recommending the next job, the next investment, or the next online course, truly democratizing growth and financial health.
By 2025, Web3 technology will revolutionize the business world, just as Web2 changed the way we access information. Physical and digital (physical?) “things” are listed and traded on open, liquid digital markets. In the early days of the Internet, information was mostly isolated within private networks. However, zero marginal cost of distribution and consumer demand resulted in the unique, searchable and open Internet of information we enjoy today. It is understandable that trade should continue to jump. In the exchange of tangible assets, the need to manage partner risk, mediate disputes and ensure a solution requires trust. That trust is in the hands of a trusted broker or supplier. As a result, e-commerce transactions are mostly contained in a number of closed, protected systems. The emergence of Web3 technology allows the automation of settlement through smart contracts and the tokenization of trade transactions of physical assets such as NFT with universal standards. Just as decentralized financial “LEGO money” applications have begun to fragment traditional finance, an ecosystem of decentralized “commercial LEGO” protocols and applications will evolve to create an open marketplace that everyone can use and share in the value they create.
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In the past decade, the amount of information or data available about our universe and ourselves has grown exponentially. However, the massive growth also brings with it many issues: data protection, data management, access and affordability are the areas of greatest debate among citizens and leaders. Who owns my data? Is my phone spying on me? How much money does the company make from it? These questions become increasingly important as companies continue to collect our data, whether we pay for it or not, with or without our consent. There are also problems in industries such as finance. Why do I have to pay for market data? In the coming years, as governments allow, we will see technology in the data industry become more inclusive and affordable as new startups enter the space.
By 2027, we will view our current digital interactions as we view our carbon emissions today. Social media has exposed the dangers of human-centric technology and its detrimental effects on our mental health and emotional well-being. We miss what we got from our interactions a decade ago: humanity, intimacy, depth, and empathy. Real conversation rather than crowd influence. As a result of the interaction, we feel closer to each other. In the future, we will focus on the human experience. The transition to the virtual universe will not be a technological but a sociological paradigm shift. Virtual universes are shaped by our emotional interactions and enabled by technologies such as virtual reality, augmented reality, and brain-computer interfaces. New hardware, platforms, disciplines and senses come into play. We are redefining the social contract in a virtual world where emotions, trust and security will be our most important currency. We transfer the platform experience to the human side. We give our girls the comfort of the ocean. We hold our late grandmother’s hand. We will cherish these meaningful moments. Our interactions with others focus on our human experience.
The construction industry accounts for almost 40% of the world’s CO2 emissions, most of which is caused by human urbanization. Fossil fuels continue to support construction projects and emit about 500 million tons of carbon dioxide each year. Noise and exhaust from the use of fossil fuels can also have a negative impact on workers’ health and local air quality. This situation is changing rapidly. Industry is using battery energy storage systems (ESS) tailored to construction projects, which can reduce carbon emissions by 80%; the remaining 20% is carbon from the electricity used to charge the ESS. Electrification of mobile construction machinery has also made great strides in commercialization. All this is due to the development of lithium-ion battery technology. In the future, long-life ESSs (ESSs requiring weekly, monthly or longer charging) will make charging outside of solar or wind farms a reality. The world is still searching for the right technological foundation for a long-life ESS, but there are many options: flow batteries, non-lithium-ion batteries, gravity-based ESS, thermal-based ESS, and hydrogen, and there is a winner. , otherwise a winner will surely appear. In short, the future of urban construction is full of potential.
90% of life is spent indoors, and buildings account for 50% of carbon dioxide emissions. Their influence is enormous. It can also use massive amounts of construction data to achieve better outcomes for people and the planet. Today, we see buildings becoming smarter and more automated through increasingly cost-effective sensors and control points. Properly connected smart buildings can respond to dynamics such as equipment health, space utilization, weather, and more, leveraging the best of artificial intelligence. Most building systems are still manual, but in the next few years that will completely change. The building dynamically responds and adapts to support human well-being and comfort, minimizes carbon emissions, and incorporates interoperability between buildings, enabling true Metaverse applications in the built environment. This change represents a fundamental shift in the construction industry; the emergence of digital twins and 5G/6G technologies as key tools that offer new ways to assess and optimize value throughout a building’s lifecycle, from design to construction to operation; as raising awareness Energy consumption is not only a direct cost for portfolio owners, but also a liability for those who cannot keep up with new regulatory and ESG frameworks.
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A critical challenge on the road to a clean energy future is the flexibility of networks and the need for a more dynamic interplay between energy supply and energy demand. As we introduce more renewable energy sources such as wind and solar into our energy mix, flexible charging will be key to ensuring that the grid can always meet demand. By 2025, smart energy technologies such as electric vehicle chargers and heat pumps will be optimized through market-based software solutions to meet the immediate grid needs of specific regions, opening up a more digital, decarbonized and resource-efficient future. Generating profits for asset owners and protecting the network when it’s needed most. Together, these decentralized energy sources can provide the flexibility needed to phase out polluting peak fossil fuel power plants and start the clean energy transition of the future.
While the rich and the poor alike deserve to have nutritious and tasty food, there is often a huge gap between what they have and what they should have. But capitalism or profiteering does not inherently require disagreement. There is good news: thanks in part to new ways of processing healthy sugar or salt alternatives, high-quality foods are becoming readily available options for all consumers. People will eat more nutritious food, even if they don’t realize it in some cases, because the cost and taste will be similar.
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