The next five years are sure to see some of the most groundbreaking advances in technology to date; these 10 disruptive technologies for 2023 and 5 years ahead are poised to revolutionize how we live, work, and communicate, from metaverses' reinvention of the workplace to the takeoff of flying automobiles.
1 Ağu 2023
5 dk okuma süresi
The next five years are sure to see some of the most groundbreaking advances in technology to date; these 10 disruptive technologies for 2023 and 5 years ahead are poised to revolutionize how we live, work, and communicate, from metaverses' reinvention of the workplace to the takeoff of flying automobiles.
The artificial beings we create increasingly resemble our human counterparts. They are accessible at any time and may communicate with customers in real time on a digital screen to resolve any service-related problems. All forms of human connection are susceptible to digital people taking over.
Leaders in the consulting industry, both alone and in collaboration with other business unit heads, should prioritize helping their customers develop strategies for maximizing the potential of the human and machine workforces that are increasingly merging.
Healthcare and quality of life stand to greatly benefit from bionic organs and other biomedical technology. Biomedical innovations, such as artificial organs that might save the lives of transplant recipients and bionic limbs that could revolutionize the treatment of paralysis, will have a profound effect on the healthcare system.
Strategies for the development and deployment of these technologies should be developed and implemented by healthcare providers and medical technology businesses. To accomplish this goal, one has to acquire knowledge in service areas including bionic organ design and manufacturing, biomedical device research and development, and medical process optimization.
If you want to read more about the future of AI in healthcare, visit our article about the subject.
As both startups and divisions of significant transportation corporations produce prototypes, the long-held dream of flying cars is getting closer to reality. These developments will significantly alter low-altitude airspace. While traffic on Earth's highways thins, new modes of transportation may arise to accommodate individuals and companies.
Code, systems, and procedures that may be developed and optimized by IT service providers will be essential to the creation of a new industry's whole value chain.
Graphene, a form of carbon with semiconductor potential, has the potential to outperform conventional semiconductor materials in both cost and performance. Graphene's high thermal and electrical conductivity suggest it may hold the key to advancing computers and electronics.
C-suite executives at IT and management consulting firms would do well to familiarize themselves with graphene and its potential applications in semiconductors.
Quantum computers have the potential to radically change the way we process information and solve problems. Capable of solving problems that classical computers cannot or take too long to solve, quantum computers could revolutionize drug development, materials science, financial modeling, and a range of other applications.
IT service providers need to understand the opportunities presented by quantum computing and develop and implement strategies to integrate this technology into their customers' business processes. Preparation can begin now by developing expertise in services such as quantum algorithm development and quantum hardware optimization.
Artificial photosynthesis offers the ability to convert carbon dioxide into fuel and other valuable chemicals using sunlight and water. This technology is poised to play an important role in combating climate change and also offers the potential to become a sustainable source of energy.
Energy companies and environmental technology providers can focus on developing and implementing new methods of energy production using this technology. The design and optimization of artificial photosynthesis systems, the development of technologies such as carbon capture and storage, and the implementation of sustainable energy production strategies are remarkable technologies with great potential to get started.
It is becoming increasingly common for CIOs to be able to swap in and out of technologies thanks to the emergence of composability and disposability in the IT industry. Demand from consumers and businesses will ensure the continued development of disposable technologies.
Managers at technology service providers need to rethink their development processes and the underlying architectural decisions that underpin their offerings.
DAOs are blockchain-based digital entities that may interact with other DAOs, digital and human agents, and companies in commercial transactions without the need for traditional human administration. To illustrate how DAO would cause a stir, consider the following: it is now difficult for workers to monetize open-source-style labor, and employers seldom give their employees the chance to be stakeholders and have a say (career ownership).
Because of its essentially "viral" digital character, this notion has the potential to grow and disrupt business as usual at an extraordinarily fast rate, thus general managers in the IT services industry should get familiar with it.
Transition to EVs has been on the increase for years, and now makes up around 4.6% of all new vehicles sold worldwide. A significant barrier to widespread use is the lack of convenient and effective charging infrastructure. Wireless charging, which allows for instantaneous charging while the device is in motion, might facilitate a quicker deployment.
It is in the best interest of IT service providers catering to the automotive sector to help their clients include wireless charging solutions for EVs into their product development roadmaps, says an industry expert.
By simulating real-world scenarios, the metaverse creates a thoroughly convincing digital setting. The financial models, purchasing, selling, organizational style, and collaborative experiences of businesses will all be impacted. Some have long praised virtual reality (VR), while others have laughed it off as a fad.
IT service providers may capitalize on the potential of VR in the workplace by providing consulting and development services to assist their customers in rethinking how they will use VR to enable and improve processes, systems, experiences, and infrastructure.
You can also read our article about: What happened to the metaverse?
Sources:
Gartner. (2023). 7 Disruptive Technologies for 2023-2028. ↩
Gubbi, J., Buyya, R., Marusic, S., & Palaniswami, M. (2013). Internet of things (IoT): A Vision, architectural elements, and future directions. Future generation computer systems, 29(7), 1645-1660. ↩
Milgram, P., & Kishino, F. (1994). A taxonomy of mixed reality visual displays. IEICE Transactions on Information and Systems, E77-D(12), 1321-1329. ↩
Burger, C. & Weinsmann, J., & Kuhlmann A. (2016) Blockchain in the energy transition. A survey among decision-makers in the German energy industry ↩
Surge.AI. (2023). Top 10 Disruptive Technologies for 2023-2028. ↩
OpenAI. (2023). GPT-4: Next Generation AI. ↩
Wolfram Alpha. (2023). Quantum Computing. ↩
National Institutes of Health. (2023). Bionic/Biomedical Technologies. ↩
Nature. (2023). Artificial Photosynthesis. ↩
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