The possibility of bringing Sci-Fi ideas and concepts to reality is exciting for humanity. From dreams of flying cars to space travel, new technologies now make it possible to create futuristic ideas that once seemed outlandish.
The lines between science fiction and actual reality continue to blur, and many anticipate future technologies’ possibilities. Humanity now stands on the precipes of a new era. This era in which technological disruptions across all industries raise a question that many eagerly seek the answer to know: What technologies will change the world?
In response, a reality beckons in which quantum computers will offer ever-improving processing power, enabling us to solve complex problems that once seemed unsolvable.
The rise of genetic medicine, gene editing, and personalized treatments tailored to our DNA will revolutionize healthcare, and we will likely find cures for diseases that contribute to the extension of human lifespans.
Other notable mentions of technologies that will change the world include; automation rapidly progressing to hyper-automation. Serverless Computing is optimizing the IT infrastructure of enterprises.
Blockchain and Web3 technologies are redefining our relationship with money and data. Robots of all shapes and sizes are finding use cases that range from home robot assistants to robots working in manufacturing.
So now you know. The future is calling. We will attempt to answer the call in this article and traverse the expanding world of futuristic technologies that will shape our world in 10 years to 15 years, and who knows, we may even stumble on technologies that may still be relevant 100 years from now.
Life-Changing Technologies In The Next 10 Years: A Step Further Into The Digital Era
We will start by considering what technologies will change the world in the next ten years and begin by exploring how IoT enables AI, then discuss the impact of AI across various sectors.
We will then explore how Extended reality (XR), which includes virtual, augmented reality, and mixed realities, is another game-changer that offers new dimensions for personalized experiences.
The fourth industrial revolution is upon us, thanks to 3D Printing in manufacturing processes. Similarly intriguing are discoveries in synthetic biology, which unlock unprecedented possibilities for DNA modifications and gene editing.
On a larger scale, power generation through nuclear fusion reactors and green hydrogen heralds a greener future. As we look skyward, the democratization of space exploration opens up enticing prospects.
Radical changes are in sight, emerging technology in transportation systems, with autonomous vehicles set to transform society. There’s Li-Fi tech. Its potential for fast data transfer speeds could reshape digital interactions in the next decade.
1. The Internet of Things (IoT) And Artificial Intelligence (AI): Two Converging Technologies
The integration of both the Internet of Things (IoT) and Artificial Intelligence (AI) offers the ability to merge behavioral data alongside individual preferences. Providing users with personalized experiences.
IoT is an ever-growing network of intelligent devices capable of gathering and transmitting data. AI is empowered by this interconnected web, using the data it provides to gain knowledge, modify its behavior, and offer the best user experience.
How IoT Enables AI
IoT supplies a vast and massive amount of real-time data from various sources, such as sensors embedded in devices. This data fuels AI algorithms allowing them to analyze patterns, make predictions, or automate tasks without human intervention. From smart homes that adjust the temperature based on your preferences to healthcare applications that monitor patients’ vital signs – IoT is enabling smarter solutions powered by AI.
Impact Of AI In Various Sectors
- Healthcare: Predictive analytics can help doctors diagnose diseases earlier and suggest personalized treatment plans.
- Retail: AI’s ability to analyze customer behavior can lead to more effective marketing strategies. Check out Salesforce Einstein for more information.
- Farming: Using drones equipped with AI tech, precision agriculture could increase crop yields while reducing water usage. Learn more about IoT for Agriculture.
These advancements will significantly impact our lives across multiple sectors, including healthcare and communication, paving the way for seamless digital interactions.
2. AI And Machine Learning – The Buzz Continues
AI and Machine Learning spearhead the ongoing tech revolution and will continue to do so. For businesses, the importance of this emerging tech has increased exponentially. Artificial Intelligence (AI) market size will reach 80.28 billion dollars by 2029. AI and Machine Learning will have even more complex applications as the technologies progress.
AI Will Continue To Improve Human Lives Online And Offline
AI has many different applications. Machines, robots, and mobile phones use this technology. Voice assistant devices such as Siri and Amazon Echo show that AI is a huge technological leap forward. Moreover, chat technologies have started influencing our everyday actions and depicting how AI could evolve.
AI tech can make artwork using just descriptive words in some instances. Text-to-image generators are common, with the AI’s goal of creating images that a human artist could have created. Sometimes an AI text-to-image generator takes original artwork or expands on an existing idea. This advancement in AI technology makes it possible to believe that futuristic AI text-to-image generators will have the potential to create all sorts of original pieces that will probably prove to be very valuable.
“AI will power clinical decision-making in fertility clinics around the globe.”
Artificial intelligence fertility treatments will aid in fostering new families and future generations. Traditional methods like in-vitro fertilization procedures are expensive, often requiring repeated attempts. They are also physically and emotionally painful. New alternatives to IVF can make fertility treatments more effortless and more efficient.
Natural Language Processing
Although you may know about NLP by using the autocomplete feature on Google apps and your smartphone predicts what you type, there is much more to it. The OpenAI company is an industry leader in artificial intelligence.
Their ChatGPT technology has made it possible to create all sorts of content; it replies to its user with knowledge collected from the Internet and edited to match the user prompt. Chat GPT can create website code, solve math problems, research a subject, and more. Chat GPT technology is like changing the Internet’s future and how we search the Internet.
3. Extended Reality (XR): A New Dimension For Personalized Experiences
Technology is always evolving, and one example of its growing business applications is Extended Reality (XR). XR combines immersive technologies, such as AR and VR, that can be leveraged to create tailored experiences for each user, the so-called mixed reality.
Opportunities With Augmented Reality And Virtual Reality
Virtual and augmented reality devices offer countless opportunities, from gaming to professional training. They’re transforming how we interact with digital content by bringing it into our physical world. For instance, architects can use these AR and VR technologies to view their designs in real settings before building. new technologies
Enhanced User Experience Through XR
By 2023, many enterprises will have adopted extended and augmented reality to create personalized experiences for consumers and employees.
Beyond entertainment or work applications, XR can change how we experience everyday life. Imagine walking down a grocery store aisle and seeing nutritional information next to products through an AR app on your phone or using a VR headset at home for an immersive workout session.
4. Revolutionizing Manufacturing Processes With 3D Printing
The manufacturing world is undergoing the fourth industrial revolution thanks to the advent of 3D printing tech. This innovative method allows manufacturers to create complex and unique, challenging or impossible items to bring to life using traditional manufacturing techniques.
The Implications of 3D Printing On Global Manufacturing
3D Printing enables the production of parts layer by layer directly from a digital model. The implications are vast – it could lead to reduced waste, lower costs, and faster production times. Furthermore, this technology opens up opportunities for producing customized products tailored to individual needs without significantly increasing cost or time.
Streamlined Production Through 3D Printing
Beyond creating new possibilities for product design and customization, 3D Printing streamlines the entire manufacturing process. Tool production, which can be costly and time-consuming, is rendered unnecessary by 3D Printing; instead, more robust and durable end-products are achievable through advancements in manufacturing processes.
The next decade will see an exponential increase in adopting this transformative tech across various industries. From automotive components to medical implants and even 3d printed houses – there’s no limit to what can be achieved with 3D Printing.
3D Printed Bones
An interesting application for 3D Printing is its ability to build actual human bones. 3D-printed bones would be made using tricalcium phosphate, which has similar properties to human bones. Soon, it will be easy to print bones in 3D easily. A hospital may conduct an MRI and send it to create a 3D model of a patient’s body with specific implants. The physician accepts the designs and can then use the print for surgery.
Breakthroughs Enabled by Synthetic Biology
The potential breakthroughs in synthetic biology are immense. For instance, we’re close to creating advanced electric car batteries powered by bioengineered organisms. Or even lab-grown meat that mimics actual muscle tissue. These developments could significantly reduce our reliance on petrol and address ethical animal farming concerns.
Innovations Under Development
- Bio-batteries: Researchers are exploring using genetically modified bacteria as a battery power source. This idea holds great promise as a sustainable energy solution.
- Cultured meat: Institutions like the University of Tokyo have begun developing lab-grown meat similar to natural muscle tissue. The development of cultured meat could provide a sustainable solution to the environmental impact of traditional animal farming.
The possibilities of synthetic biology seem endless, promising a future where we can manipulate life at its most fundamental level – the genetic code itself. This technology will significantly transform our lifestyle and relationship with the environment as it improves.
5. Power Generation Through Nuclear Fusion Reactors And Green Hydrogen
There is a push toward green alternatives when it comes to power generation. Nuclear fusion reactors and green hydrogen are two emerging technologies that could significantly change the landscape in the next decade.
The Benefits Of Nuclear Fusion Reactors
Nuclear fusion reactors have long been seen as the ultimate answer to clean energy production. Unlike current nuclear fusion processes, which split atoms to release energy and create harmful radioactive waste, fusion combines atoms at high temperatures to produce heat without hazardous byproducts. Scientists believe that these reactors may deliver net power output by 2035.
The Advantages Of Green Hydrogen
Green hydrogen is produced using renewable electricity to split water into hydrogen and oxygen gases. It can be used as a fuel source in various sectors, including transportation and industry, offering cleaner alternatives to petrol, which currently dominates global energy consumption patterns.
6. Alternative And Sustainable Energy
A new technology developed by scientists at the Lausanne Polytechnical College has created a fuel cell for hydrogen fuel. Its design is based on semiconductors capturing atmospheric water to generate hydrogen.
When consumed in a fuel cell, hydrogen produces only water, making it an attractive fuel option for transportation and electricity generation applications.
Hydrogen fuel is a flexible energy carrier used in combustion engines with minimal emissions. The Department of Energy claims that hydrogen fuel possesses considerable potential in contributing to mitigating greenhouse gas emissions and the transition to a more sustainable energy future.
The World Economic Forum also notes that “green hydrogen” – hydrogen produced using renewable energy – could be a critical enabler of the global transition to sustainable energy and net zero emissions economies.
7. Democratization Of Space Exploration
The final frontier is no longer just for astronauts and scientists, as humanity seems destined to explore our surroundings in the solar system. Companies like Virgin Galatic are investing in passenger shuttles that reach altitudes around 100km above sea level, bringing commercial space travel a reality.
Robots In Space And The Workplace
Nasa currently ships robotic devices into space. Robots can send sensitive data back to Earth without oxygen or eating food. The same can happen in the workplace. Robots will do harder, more dangerous jobs and save human workers from unnecessary danger. A robotic system with a lower error rate can also be used much faster.
Potential Benefits of Commercial Space Travel
Commercial space travel promises more than just thrills. Exploring the cosmos through commercial space travel has the potential to drive innovation, generate employment opportunities, and broaden our knowledge of the universe. Amazon’s Blue Origin and Elon MusksSpaceX compete in the commercial race by developing a reusable rocket for human spaceflight.
These ventures could also provide practical applications such as satellite deployment or scientific research missions at a fraction of current costs.
We’re on the brink of an exciting era where humans actively explore outer space – truly embodying Carl Sagan’s vision: “We are star stuff which has taken its destiny into its own hands.”
8. Revolutionizing Transportation: The Future Is Here
The Rise of Autonomous Vehicles and Their Impact on Society
Imagine sitting back and relaxing while your car drives itself. Companies like Waymo are making this come true. Driverless cargo trucks, soon on UK roads, could transform logistics by increasing efficiency and reducing human error.
Hyperloop, another pioneering technology in the transport industry, was first conceived in 2012 by Tesla and SpaceX founder Elon Musk. The frictionless train, powered by electromagnetic levitation, aims to be the fastest mode of transport across the face of the Earth and promises to reach speeds of over 700 mph.
The Benefits of Automated Transportation
These innovations hint towards a shift from traditional modes of transport to more automated ones, marking significant progress. The impact will be far-reaching: reduced traffic congestion due to efficient route planning by AI-driven vehicles, lower carbon emissions thanks to electric powertrains, and enhanced safety as human errors get eliminated.
Ridesharing companies are figuring out how to automate their taxis’ trips – replacing the common vehicles with robotaxis. Robotaxis or driverless taxis are autonomous cars.
One captivating utilization of autonomous vehicle technology is the concept of “robotaxis” – self-driving taxis capable of transporting passengers sans a human operator. This visionary mode of transportation carries immense possibilities to reshape urban mobility bolstering safety, efficiency, and affordability.
Electric vertical takeoff and landing (eVTOL) aircraft are an innovative technology currently being developed to address urban congestion and transportation issues. Notably, these aircraft possess superior environmental credentials compared to traditional airborne vehicles.
eVTOLs do not require a runway, making them suitable in densely populated urban areas. Companies such as Uber, Boeing, and Airbus are investing in developing eVTOLs to create air taxi services that transport passengers within cities.
Futuristic micromobility promises to revolutionize the way people move around cities. This mode of transportation involves small, lightweight vehicles such as e-scooters, e-bikes, and e-mopeds micro-cars designed to replace short car trips with a more eco-friendly option while addressing other challenges such as traffic congestion. Companies and governments are exploring ways to integrate these modes of transport to provide seamless and efficient transportation in the future of urban mobility.
9. Li-Fi Technology: Fast Data Transfer Speeds
Li-Fi is an advanced wireless communication technology that uses light to transmit data between devices. It holds the potential to achieve remarkable data transfer speeds.
Revolutionizing Digital Interactions
Li-Fi could revolutionize how we interact with digital gadgets. Its superior speed enables smoother streaming experiences and faster downloads, making it ideal for high-bandwidth tasks like video conferencing and online gaming.
- Faster Internet: Li-Fi’s lightning-fast speed makes it perfect for tasks requiring high bandwidth.
- Better Connectivity: With its ability to provide higher densities than Wi-Fi, Li-Fi can ensure better device-to-device connectivity in populated areas like offices or apartment buildings.
Li-Fi can benefit individuals and businesses by enabling quicker decision-making processes and efficient operations due to its enhanced connectivity capabilities. Studies show that implementing Li-Fi could lead to significant productivity gains across various sectors over the next decade.
10. Big Data, Data Monetization, and Data Commercialization
‘The data industry will become more inclusive and affordable,’ says Christina Qi, CEO of Databento
The amount of data produced has increased exponentially in the past ten years. With massive growth comes many challenges, including data privacy, management, access, and affordability – all of which are significant contention topics among individuals and businesses. How do I get information from someone? What are my rights? We still need to work on regulating this.
Big Data, Data Monetization, and Data Commercialization hold immense significance in the current digital era. These concepts are driving the transformation of business operations and decision-making processes.
“Big Data” is the term used to describe trillions of gigabytes of data created by various sources. These sources include social media platforms, online purchases, enterprise IT infrastructure, logistical data, CRM systems, and Internet of Things (IoT) devices.
By meticulously examining this vast reserve of data and harnessing its potential insights; businesses can acquire valuable knowledge regarding consumer behaviors; prevailing market trends, and operational achievements.
Moreover, due to the sheer volume of information produced by Big Data, It becomes impractical for humans to sort through it all manually.
Businesses are figuring out methods to turn their data assets into sources of income in today’s data-driven environment. In the “data monetization” process, the data is either sold to third parties or used to develop new goods and services. Companies can increase their revenue streams and maintain their competitiveness in the market by doing this.
Data Commercialization is turning data into a commercial product or service. This involves creating a business model around the data and finding ways to sell it to customers. Data Commercialization can create new revenue streams, improve customer engagement, and gain a competitive advantage in the market. With the right approach, businesses can turn their data into valuable assets that drive growth and innovation.
11. Blockchain – Digital Currency, Digital Trust, And Beyond!
One of the most revolutionary technological developments of the 21st century is, without a doubt, blockchain technology. It has received a lot of praise for its potential to revolutionize our everyday activities and professional endeavors.
Blockchain technology is regarded as a prominent candidate for what technologies will change the world due to its potential to shake up several sectors, including finance, healthcare, and supply chain management. This is primarily attributed to its ability to offer a reliable and open platform for data exchange.
Blockchain technology is also promising to be transformative because of its impact on the digital currency landscape, its potential to create digital trust, its contribution to the inception of the metaverse, and the many other exciting possibilities that lie beyond.
Central Bank Digital Currency Will Revolutionize The Financial System
A new digital currency in a national monetary authority could have significant disruptive effects in a few years. These forms are called central bank digital money, central banks digital currency, or CBDC. The CBDC can efficiently revolutionize the banking system and increase its impact in terms of financial inclusion.
Web3 technologies will revolutionize the world of commerce
It is predicted that by the end of 2025, the Internet will revolutionize commerce, much like Web2 changed the accessibility of data. Physical and digital goods and services will go public and trade online via a free liquid and digital market. The single searchability of available online information has resulted in a simple, accessible web.
12. Battery Power
Battery-powered construction will underpin sustainability efforts
The building industry produces around 40 percent of the global carbon dioxide emissions, most due to cities’ expansion. Fossil fuel production for construction contributes to about half a billion tons of CO2 annually. Noise and exhaust gases of fossil fuels have a significant adverse effect.
The ESS market now focuses on buildings that reduce carbon dioxide emissions by 80% and use energy storage devices with lithium-ion batteries.
Car Batteries That Charge In 10 Minutes
Tesla is working on battery technology that can charge in just 15 minutes. According to the company, this latest battery technology is expected to enhance both the range and performance of their electric vehicles. It is worth noting that other reputable companies, such as Porsche and BMW, are also actively developing rapid charging batteries to reduce the charging duration for electric cars.
Sand batteries consist of a sand layer coated with a conductive material, such as carbon or copper. This conductive coating enables the flow of electrons when an electric current is applied, generating electricity.
There are several potential benefits of sand batteries compared to traditional battery technologies. These include lower cost, greater safety, and higher energy density. Additionally, sand batteries are considered environmentally friendly due to sand’s abundance and nontoxic nature.
However, it is important to note that further research is required to fully comprehend the potential and limitations of sand batteries as they are still in the early stages of development.
13. Computing and Automation
Serverless computers are not really “serverless.” It is impossible to offer computation resources without some physical server anywhere. Instead, the technology allows for better utilization of resources. When applications aren’t being used, there’s no allocation of resources. It means businesses can better manage bandwidth availability and infrastructure.
‘The quantum internet is coming.’ Jim Ricotta, CEO and Founder, Aliro Quantum
The quantum Internet will revolutionize the world just as the first years of the Internet did. The quantum Internet will impact our daily lives by allowing breakthroughs in energy, medicine, materials, science, quantum computing, and others. Within five years, quantum networks will be built using quantum repeaters derived from regional and cluster networks.
Edge Computing – A Distributed Computing Paradigm
Two other future trends in the technology space are Edge Computing and Distributed Computing. They are very different but related and could grow further. Microchip processing power and Internet usage are gaining popularity but shrinking each year.
Edge computing opens broader opportunities for computing at the edge and for hybrid-cloud and multi-cloud infrastructures for distributed computing. Decentralized computing provides multiple advantages, ranging from security and privacy to less power and bandwidth requirements and facilitating real-time processing and decision-making.
Hyperautomation – More Than Just Task Automation
Companies are investing in processes to improve productivity and increase the efficiency of operations. Hyperautomation focuses on finding a firm’s most efficient and automated systems by consuming fewer resources to achieve better results.
Technologies like AIOp & MLOps help companies move beyond conventional automatization, primarily focused on automated tasks. Hyper-automation is cost-effective and helps businesses improve scale, consistency, accuracy, and operations.
14. Healthcare And Wellness
Digital “Twins” That Track Your Health
This future technology aims to improve patient health outcomes and alleviate the burden on physicians. The company has developed a biomarker scanner to measure dozens of genes and inflammatory markers – from your hormones to fat that builds up in your liver – to the underlying causes of various cancers. It plans to use the data to create a 3D digital avatar of a patient, known as a digital twin.
Eating Habits Will Improve
Though healthy food is essential to wealthy and poor people, the gap between social classes is huge when you consider eating habits. Good news comes from new processing processes and healthier alternatives to sugar and salt: good food will be an available and ubiquitous choice for all consumers. Cheaper, healthier food will get the shoppers’ attention.
Smart Mirrors That Check Your Health
Smart mirrors are the epitome of futuristic technology. Imaging Seeing yourself in mirrors daily helps you determine your feelings and look for the outside world. Imagine a future where smart mirrors can monitor your body to know if you have an underlying issue. Preventive information on visible signs can aid in the preparation of your treatment.
15. Industry and Manufacturing
Advanced Manufacturing And Fashion Technology Could Digitally Transform The Apparel Industry
The fashion industry is often criticized for waste and huge demands placed on workers. Furthermore, most fashion businesses have to have supply chains to sell products produced by mass production, resulting in overproduction and a lower profit margin because significantly discounted items are available for customers.
DXM, a technology solution that offers (SaaS) and manufacturing (MaaS) platforms, aims to optimize the customer experience and streamline the manufacturing process. With Afanger of offerings that include virtual tailoring, DXM Transform is changing the clothing market through on-demand, local manufacturing. On-demand manufacturing is likely the adopted trend for mid to high-end fashion.
Self-healing living concrete
Scientists are developing a living kind of concrete made by mixing sand with bacteria. The material has a structural load-bearing function and porous structure that can fix damages and improve environmental protection. The team from Colorado Boulder University believes the study opens doors for future construction that will heal any cracks and even prevent the emission of harmful toxins into the atmosphere.
The Polish company Clone Robotics has developed an artificial human hand with similar features, including size, shape, muscle mass, and muscular form. This impressive set of tools is offered with 27 options of customization using synthetic bones, muscles, and ligaments. Clone boasts that sixteen artificial intelligence companies have ordered the hand, and others will follow.
Technology in cognitive science has improved dramatically since the 1970s. Research from ETH Lausanne uses machine-learning algorithms, robot arms, and brain-computer interfaces to create ways for humans to interact with others. These robots can also perform simple functions such as moving around obstacles.
16. Synthetic Biology – Unlocking DNA Modification
In this decade, technological progress in synthetic biology is paving the way for groundbreaking work. Synthetic biology is a rapidly growing field that combines biology and engineering to create new biological systems that do not exist in nature.
The technology involves designing and constructing biological parts, devices, and systems that can be used for various applications, from healthcare to environmental sustainability.
Synthetic biology has the potential to revolutionize the way we live and work by providing new tools and technologies that can help us solve some of the world’s most pressing challenges.
Technology Will Bring The Best Opportunities To The Best Talent
The workplace is another area that saw a dramatic change. Office work is the default method of knowledge work. However, after the pandemic, whether workers needed to return to the office became questionable. And remote work is part of the digital transformation strategy of many companies.
“Credit will become accessible to those ignored by traditional financial institutions,” says Madhav Krishna, Founder and Managing Director of Vahan
Vahan is an example of a company that provides ‘gigs’ as the dominant form of work. Those with lower qualifications or blue-collar jobs typically make up around 80 % of workers in developing countries. The online platform provides an abundance of earning opportunities and enables low-skilled workers to gain access to the goods and services of their choice.
Some other notable futuristic technologies to watch out for
Holographic technological advancements
At the time of writing, holographic tech is on the cusp of groundbreaking evolution. The technology powers holographic displays, telepresence, and holographic entertainment, but it also has medical applications and is used for augmented reality.
Graphene is a one-atom-thick layer of carbon atoms arranged in a hexagonal lattice. It has many applications in hardware, as its electrical properties lead to a strong ability to absorb light. It also conducts electricity, produces heat, and possesses stable chemical reactivity. It has some uncertainties, such as whether it can be toxic for humans.
Neuralink Corporation is working on making Sci-Fi futuristic technology a reality. Neuralink is a neurotechnology company working on implantable brain-computer interfaces. Founded by Elon Musk and a team of seven scientists and engineers, Neuralink was launched in 2016 and was first publicly reported in March 2017. This technology could be life-changing for anyone unable to move independently, as it connects a human brain to a computer.
The future looks bright with IoT and AI transforming various sectors, while XR offers new opportunities for personalized experiences. tec
3D Printing streamlines production processes and synthetic biology unlocks DNA modifications, paving the way for groundbreaking medical advancements.
Nuclear fusion reactors and green hydrogen offer a more sustainable approach to energy production, while commercial space travel presents exciting possibilities for exploration and discovery.
Autonomous vehicles and Li-Fi technology promise radical changes in transportation systems and digital interactions, making our lives easier and more efficient.
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FAQs about Which Technologies Will Change the World in the Next 10 Years
What Will Technology Be Like in the Next 10 Years?
Technology will become more advanced, with analytics integrated, automated, and personalized with AI, IoT, XR technologies, Li-Fi, synthetic biology, and green energy advancements.
What Are the 10 Upcoming Technologies That May Change the World?
– Internet of Things (IoT)
– Artificial Intelligence (AI)
– Extended Reality (XR)
– Synthetic Biology
– Nuclear Fusion Reactors
– Green Hydrogen Energy Production
– Affordable Space Travel
– Sustainable Transportation Systems
– Li-Fi Technology for Fast Data Transfer Speeds
– New Manufacturing Processes via 3D Printing
What Technology Will Have the Biggest Impact in the Future?
The convergence of AI and IoT is predicted to significantly impact various sectors, including healthcare, manufacturing, and transportation.
These two technologies could create a world where machines can communicate with each other, make decisions, and take action without human intervention.