10 Most Important Technologies Of 2023: The Most Important Technologies of 2023We have compiled a list highlighting disruptive technologies that are changing the technology landscape worldwide and shaping our future using reports from the most respected scientific journals and media outlets.
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10 Most Important Technologies Of 2023
- Lithium-Metal Batteries
- Vaccines against Messenger RNA
- Data protection according to the Data Trusts Model
- Wi-Fi 6G and 5G
- Augmented and Virtual Reality
- 3D Printing
- Hydrogen “Green”
- Cloud services
- Voice Assistants and Voice Search
The balance of power in the automotive market is at stake with lithium metal batteries. They have a density of 1 kWh per liter, almost double that of lithium-ion batteries. According to MIT Technology Review electric cars can charge faster and last 80% longer than lithium-ion batteries. These indicators are still visible after 800 cycles.
QuantumScape, an American startup that develops lithium metal batteries and is among its investors, was able to conduct its first tests in December 2020. It has already reached a deal to produce electric vehicles using these batteries with Volkswagen after successful trials.
Skeptics claim that the results of the tests are too early to consider them successful. They were performed on single-layer cells while real batteries should have multi-layer. This can create unexpected risks in mass production.
Vaccines against Messenger RNA
The RNA vaccine is one of the most important medical innovations of the last 20 years. Moderna and Pfizer are the only two companies that have created vaccines using this technology. Both vaccines are against coronavirus.
Conventional vector vaccines contain an inactive or attenuated pathogen of the virus. MRNA vaccines cause the body to produce a fragment of the causative agent COVID-19. This immediately attacks the immune system. The body develops strong immunity against the virus and is therefore more resistant to infection.
Also Read: What is Gene Editing?
Because they can be modified for any new strain of virus, matrix (informational)RNAs are a good choice. They can be used to combat infections such as malaria, cancer, sickle-cell disease, HIV, and other serious diseases.
GPT-3 is the most advanced neural network that is based on NLP, which is a text recognition algorithm. It’s a transformative neural network that can generate coherent responses to a person. It uses 100 times more data and parameters than the GPT-2 predecessor.
Even the most skilled transformers, who have access to huge data sets, do not know the meaning of the words or phrases they create. They require huge amounts of data and computational resources, which in turn leaves a large carbon footprint. The problem with data for training neural networks is that they are often imperfect: text on the Internet can contain distortions, manipulations, and outright fakes.
Expansive perception is one of the most promising areas in the advancement of AI and neural network technology. Algorithms can recognize faces, images, fingerprints, sounds, and voices. They can also generate images and videos and speak, mimicking different senses.
Scientists at MIT note that AI lacks emotional intelligence and the ability to feel closer to people. A person is able to process information and provide ready-made solutions. However, AI does not allow for the ability to take into consideration contexts, internal and external factors, and, most importantly, how they react in uncertain and changing environments. DeepMind’s AlphaGo algorithm can beat the world champion in go or chess but cannot extend its strategy beyond that board.
Even the most advanced algorithms such as GPT-3 are still in development. Developers now have to create multimodal systems that combine text recognition with sensory perception in order to process information and find answers.
Data protection according to the Data Trusts Model
Accenture says that cyberattacks have increased significantly since the pandemic. 36 billion accounts and accounts were hacked in the first half of 2020. The Web became a more popular place to store data, work online, and access corporate services via our personal devices. Many companies were affected by data leakage and had to improve cybersecurity.
Leaks can be caused by weak data protection as well as the fact that the model for their storage and collection is obsolete. Data Trusts – “Data trust” – A new approach that can make all the difference. This is where a special trust fund is created that stores and manages data on behalf of the people involved.
Mozilla representatives stated that the principle of data confidentiality means that your data can only be transferred to someone who is using it for their own purposes. All data is stored in one location, and you have full access to it. Your privacy and interests are protected by the trust.
Wi-Fi 6G and 5G
Wireless Internet and new standards of communication allow remote work at high speeds. They also contribute to the development of artificial intelligence and the Internet of things, making data transmission safer.
5G offers the following main benefits:
- Mobile broadband with improved performance: High-speed video streaming on social networks and online services at a minimum of 1-2 ms signal transmission delay
- Large-scale Internet of Things: Accenture says that with 5G, it will be possible for up to 1,000,000 devices to be supported per square km.
- Mission Critical Services. This new communication standard will allow for the smooth operation of remote intensive care units and autonomous drones.
Many employees will be able to move permanently to remote work with 5G. Companies will also make quicker decisions using streaming analytics. Technology will help the US create 16 million new jobs and $ 2.7 trillion in economic growth between 2023-2025.
The New Wi-Fi 6 standard will add 6 GHz frequency frequencies to the existing 2.4 and 5. It has the same goals that 5G: it speeds up Internet connections (up to 2 Gb/s for mobile devices), makes them more stable and broadband, and allows you to connect more devices to one location. Depending on the capacity of each device, the network will distribute Internet traffic among them.
Cisco experts identify the main benefits of Wi-Fi 6 for businesses:
- Support for new services or applications, including those that are highly loaded, within the local network
- Service level and speed improvements for existing services (e.g. streaming video in 8K).
- The ability to serve more customers when there is a high load.
- Remote and wireless offices, IoT devices included.
A Deloitte poll found that 86% of CEOs think advanced wireless will transform the organization in three years. 79% agree with this view about the industry.
According to The Verge, the first 316 million Wi-Fi 6E mobile devices will be available in 2023, according to The Verge. According to the task and type of devices, 5G and Wi-Fi 6 are not expected to compete.
Russian operators will spend over RUB 1.1 trillion. 5G development will be underway between 2023 and 2027. Although active implementation will start in 2024, the timing could be changed due to low demand. Wi-Fi 6 will not work because the frequencies of the network are already used by fixed radio communications. They can also be transferred under 5G in the future.
Augmented and Virtual Reality
Statista estimates that the AR/VR market will reach $ 18.8 billion in 2020. This is three times higher than 2016’s estimate. In 2019, PwC analysts predicted that VR and AR will be used more often in work by employees than ever before. This was compared to 2016’s $ 18.8 billion.
These technologies are being used today in healthcare to train surgeons and perform operations using diagnostic data such as holograms or online consultations with doctors. Microsoft broadcast 12 operations in mixed reality MR online beginning February 2023. Online consultations were possible between 13 surgeons from 13 different countries. They could see each other’s diagnostic data and also consult one another.
Also Read: Future Scope of 6G Technology
AR is a way to shop in retail. You can try on products and place furniture in the interior, before you buy, and get personalized offers. Toy manufacturer Mattel, which makes Barbie dolls and other toys, uses AR for Hot Wheels toy cars. To play with a model, buyers can point their smartphones at it and use any surface to interact with it.
You can use a VR headset to see what your IKEA kitchen will look like using the chosen furniture.
Augmented and virtual reality are used in education to deepen student engagement and create a realistic environment. This technology can also be used for corporate training. Tyson Foods, a multinational food company, uses VR to teach its employees about workplace safety. The result was a 20% decrease in work-related injuries.
Designers and architects present their projects at a 1:1 scale by using virtual and/or augmented reality rather than traditional 3D renders.
ThyssenKrupp Elevator is a supplier of transportation systems and elevators. It has opened virtual reality rooms in Asia, the Middle East, and Europe with demonstrations of urban transport solutions.
VR is a tool that allows engineers in the automotive industry to use their imaginations during the design phase of a new model. This is how Hyundai uses it.
Entertainment and games are the most popular areas for virtual and augmented realities. Virtual reality simulations and games are not the only options. There are whole amusement parks that use virtual reality in different countries, such as Europa Park in Germany, or VR Star in China.
In the next seven years, gloves for VR/AR and gesture recognition will be the fastest-growing market. According to Grand View Research estimates that the market will grow by 18% annually between 2023 and 2028.
In the context of the COVID-19 pandemic additive technologies was a viable alternative to traditional manufacturing, which requires large investments and resources. A significant advantage is the substantially lower amount of waste.
Grand View Research estimates that the global 3D printing market will grow by more than 14% annually between 2020 and 2027. There will be eight million 3D printers worldwide by 2027, almost six times the number in 2018. 77% are industrial printers. 3D printing allows them to create clothes, shoes, interior items, and even prostheses. Many of the parts that make up the Rutherford engines on the Electron launch vehicle can be 3D printed.
3D printers can be used in medicine and healthcare to create cables and parts for medical equipment. A third amazing innovation is the 3D printing of bone fragments directly from the body. This replaces damaged or lost bones. Special biocompatible inks are used for this purpose.
The architecture uses additive technologies: Whole frame houses can be built from printed parts. This makes them cheaper than their traditional counterparts. According to The Guardian, a whole micro-district was created in California’s Coachella Valley. Mighty Buildings, a real estate developer claims that it has saved 95% of the time taken by builders.
Now, we are just one step closer to using 3D printing to make the necessary objects on the moon’s surface. This will make it much easier to colonize the satellite. You won’t have to transport heavy cargo or equipment.
The global strategy to reduce our carbon footprint and shift to renewable energy sources includes green hydrogen. Hydrogen engines, along with electric cars are expected to be the main alternative to diesel vehicles.
“Green” hydrogen can be produced without the use of nuclear energy or natural gas. Electrolysis is the most benign method of producing hydrogen. This is when an electric current passes through water. This will eliminate 830 million tons per year of harmful carbon dioxide emissions.
There is now a huge opportunity for hydrogen energy to be introduced, as the price of solar and wind energy is falling quickly. Europe has been working to develop the infrastructure and production necessary for electrolysis.
The IEA (International Energy Agency), has reported a record-breaking increase in electrolysis to produce green hydrogen. The IEA predicts that hydrogen fuel prices will drop by at least 30% by 2030 making it more affordable than other fuels.
Before COVID-19, hydrogen-powered cars were selling at an unprecedented pace. However, many manufacturing facilities are experiencing slowdowns or even complete shutdowns. Hydrogen technology is the best option to restore the economy after the pandemic.
According to Allied Market Research, the market for hydrogen fuel cell vehicles will grow at a 66.9% annual rate. This will be fueled by increasing environmental issues and international initiatives to address these, as well as the potential of technology with electric cars.
Toyota, Honda, and Hyundai already produce hydrogen-powered cars. California plans to build 100 hydrogen filling stations and increase the number of zero-emission vehicles to 1.5 million by 2025.
Airbus announced plans to accelerate the development of commercial hydrogen-powered aircraft and eliminate hybrid engines entirely. The first zero-emission aircraft is expected to be in production by 2035.
Calculate as a Service
Global trends include edge computing, software as a service (SaaS), infrastructure as a service (IaaS), and platform-as-a-service (PaaS). Online games and online movie theaters are two examples of this model. A subscription costs money, but the content isn’t stored with you. Instead, it is launched online by the service provider.
Cloud services are available to companies to help them save money on IT infrastructure and support. They also avoid overloading their local network. Cloud services allow you to quickly test and deploy a new online service, or software, and place a virtual telephone exchange and large databases. Many have had to change their business models and shift IT resources to cloud services because of the pandemic.
Grand View Research estimates that the market for edge computing was $ 3.5 billion in 2019. It will reach $ 43.4 billion by 2027. This will be aided, among others, by the widespread adoption of 5G, and a decrease in signal latency to 1 ms. Analysis Mason’s survey found that top companies will spend as much as 30% of their IT budgets on edge cloud computing over the next few years. Gartner predicts that 75% of corporate data will be processed in this manner by 2025. This is 7.5% more than in 2018!
IDC predicts that 25% of companies will be able to make their businesses more resilient and agile by 2024 by integrating cloud applications with edge data. Machine learning and artificial Intelligence will drive computing as a service. They optimize and allocate power to ensure consistent processing speed.
Voice Assistants and Voice Search
Voice recognition and NLP (neurolinguistic programming) in neural networks have reached the point where voice assistants can replace real people or text searches. Amazon, Google, Apple, and Apple are all investing in this area.
Text search is no longer necessary. Smart speakers and voice assistants can search for information, launch podcasts, dial numbers, and set reminders. Voice navigation can be used to control drones and voice chatbots will replace live call center agents and consultants.
A Google report found that 27% of people worldwide use voice assistants on their smartphones. Adobe Analytics reports that 47% of smart speaker users use their smart speakers to search for information, 46% to listen and learn news, and 34% to get directions or ask for an address. Google claims that 62% of smart columns are used to order products online.
Every year, AI voice assistants get smarter. They could recognize 77% of spoken words in 2013, and they can now recognize 97%. Google’s RankBrain algorithm, for example, recognizes a new phrase and returns the most relevant answers.
The European Data Protection Board (EDPB), published guidelines in March for virtual voice assistants. The organization is concerned about the amount of data they use and whether that data is GDPR compliant. Voice assistants are being increasingly used for machine learning algorithms for voice recognition, biometric ID, and profiling for targeted ads.
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