It is amazing to explore the future of modern technology. In an age of continuous technology innovation and invention, when the exploration of these days sheds its shine tomorrow, it is difficult to determine which modern technologies that will transform our future.
Design and technical growth are everybody’s worry, as they will not be restricted to industry, university classrooms, and R&D labs. Instead, they will make an incredible distinction in our everyday lives. Below I will try to recognize several of the modern technology trends that will change our lives in the coming years.
1. Quantum Computers
Unlike current PCs, quantum computer systems will have switches that can be in an on or off state concurrently. The device that will make this possible is referred to as superposition, and also the switches are referred to as quantum bits. The system will make quantum computer systems run extremely quickly. A standard quantum computer system is most likely to be functional by 2020.
Quantum computers are now a multitude of times faster than regular computers and huge brands like Splunk, Honeywell, Microsoft, AWS, Google and many others are now involved in making innovations in the field of Quantum Computing. The revenues for the global quantum computing market are projected to surpass $2.5 billion by 2029. To make a mark in this new trending technology, you need to have experience with quantum mechanics, linear algebra, probability, information theory, and machine learning. (simplilearn.com)
The business models for quantum computers are going to be Quantum as a Service, which should make it available to the masses. This will help create the next generation B2B and B2C Sass company’s.
2. Programmable Matter
Scientists remain in the middle of developing a substance that can take a specific form to perform a certain task. The compound is called claytronics, and it contains catoms. Specific catoms are programmed to relocate 3 dimensions and also place themselves to make sure that they think different shapes. This innovation is most likely to have various applications ranging from medical use to 3D physical rendering. It may take about twenty years to come true.
At the nanoscale end of the spectrum there are a tremendous number of different bases for programmable matter, ranging from shape changing molecules to quantum dots . Quantum dots are in fact often referred to as artificial atoms. In the micrometer to sub-millimeter range examples include MEMS -based units, cells created using synthetic biology , and the utility fog concept. (en.wikipedia.org)
The business models for programmable matter are in the manufacturing world. New textiles, furniture and are some examples of things that can be created with programmable matter.
3. Terascale Computing
Techies are working with a task that would make our PCs able to comprise 10s to hundreds of identical functioning cores. The device will process significant amounts of info. To create this modern technology, Intel is discovering the possibility of using nanotechnology and also enabling billions of transistors.
Supercomputing enables problem solving and data analysis that would be simply impossible, too time-consuming or costly with standard computers, e.g. fluid dynamics calculations. Today, big data presents a compelling use case. A supercomputer can discover insights in vast troves of otherwise impenetrable information. High Performance Computing (HPC) offers a helpful variant, making it possible to focus compute resources on data analytics problems without the cost of a full-scale super computer. (hpe.com)
4. Repliee Robots
Repliee is among one of the most advanced lifelike robots ever developed. Repliee, an android, is covered with a substance which is extremely similar to human skin. Sensing units positioned inside the robotic control its movements and enable it to react to its setting. Astonishingly, the robot can flutter its eyelids and also duplicate breathing. Repliee operates ideally in a fixed problem.
ERICA, an autonomous android system capable of conversational interaction, and is arguably the most human-like android built to date. The extreme human-like qualities of ERICA stems from her visual design, facial expressiveness, and highly expressive speech synthesizer. Her sensing technologies are some of the most capable to date, with high-performance speech recognition, the ability to discriminate between sound sources using microphone arrays, and precise tracking of people’s locations and movements. The ultimate goal of ERICA is to make her communicate in a convincingly human-like way in face-to-face interactions. (syncedreview.com)
These robots are going to have several business models. Purchase, rental and rental per action can be a few of the business models that these lifelike robots can empower.
5. Organic Computers
To better progress the computer realm, techies need to produce a crossbreed CPU that is silicon based however includes natural parts too. The most appealing progression in information processing concerns a neurochip that positions natural neurons onto a network of silicon or other products. Future computers will bridge the silicon and natural balls to make use of cpus that integrate both components.
6. Augmented Reality
Augmented reality is overlaying a virtual image or information onto the actual world. Some use cases are advertising & marketing, gaming, and business applications.
Amid the rise of data collection and analysis, one of augmented reality’s primary goals is to highlight specific features of the physical world, increase understanding of those features, and derive smart and accessible insight that can be applied to real-world applications. Such big data can help inform companies’ decision-making and gain insight into consumer spending habits, among others. (investopedia.com)
The business models for AR run the gambit from traditional models for the real-world applications to licensing new AR content assets. AR Experiences in retail and gaming (eSports) can be a B2B or a B2C business model.
7. Carrier Ethernet
Carrier Ethernet is a service/access innovation. It can serve as a transport approach for both service and domestic service. Ethernet will dominate the metro area in the future and will slowly displace SONET/SDH over the following 10 to 20 years.
Growth sustains life. Emerging technology should have contributions from many areas of knowledge and benefit humanity.