Technology is getting update with every passing day. One cannot say that I am totally aware of the latest trending engineering technologies, however there are some remarkable technologies that you must know about.
Artificial Intelligence (AI) innovations will continue to bring scientific breakthroughs.
Thanks to the vast amounts of data that new technologies have been collecting and is now available.Advances in Machine Learning technology and algorithm training will result in new and more advanced AI.
Autonomous vehicles and robotics are the two industries that will see the most rapid developments during 2019. In 2019, there is going to be a convergence of Artificial Intelligence, Machine Learning, and Deep Learning in business applications.
As AI and learning technologies get to work together in order to reach better results, AI will have greater accuracy at all levels.
The next trending engineering technologies are Robots. They are teaching themselves to handle the physical world. For all the talk about machines taking obs, industrial robots are still clumsy and inflexible.
A robot can repeatedly pick up a component on an assembly line with amazing precision and without ever getting bored—but move the object half an inch, or replace it with something slightly different, and the machine will fumble ineptly or paw at thin air.
We’ll need breakthroughs for robots to master the dexterity needed in a real warehouse or factory. If researchers can reliably employ this kind of learning, robots might eventually assemble our gadgets, load our dishwashers, and even help Grandma out of bed. —Will Knight
Although most people think of blockchain technology & trending engineering technologies in relation to cryptocurrencies such as Bitcoin, blockchain offers security that is useful in many other ways.
In the simplest of terms, blockchain can be described as data you can only add to, not take away from or change. Hence the term “chain” because you’re making a chain of data.
Not being able to change the previous blocks is what makes it so secure. In addition, blockchains are consensus-driven, so no one entity can take control of the data.
With blockchain, you don’t need a trusted third-party to oversee or validate transactions.
By 2025, experts estimate the number of Internet of Things devices—including sensors that gather real-time data about infrastructure and the environment—could rise to 75 billion worldwide.
As it stands, however, those sensors require batteries that must be replaced frequently, which can be problematic for long-term monitoring.
Depending on certain factors in their environment, such as moisture and heat, the sensors can be left inside or outside for months or, potentially, years at a time before they degrade enough to require replacement.
That can be valuable for any application requiring long-term sensing, indoors and outdoors, including tracking cargo in supply chains, monitoring soil, and monitoring the energy used by equipment in buildings and homes.
The key trending engineering technologies & innovations are in the customized cells. They’re fabricated in layers, with perovskite material sandwiched between an electrode, cathode, and special electron-transport layer materials. This achieved about 10 percent efficiency, which is fairly high for still-experimental perovskite cells.
This layering structure also enabled the researchers to tune each cell for its optimal “bandgap,” which is an electron-moving property that dictates a cell’s performance in different lighting conditions. They then combined the cells into modules of four cells.
The hype around augmented (AR), mixed (MR) and virtual (VR) reality has been steadily building over the past 12-18 months and shows no sign of fading in 2019.
It seems like the tech companies are constantly rolling out new devices with better graphical performance. Most new devices and apps have been made with gaming and social media audiences in mind.
However, recent trends towards the digitising of manufacturing with the Internet of Things and Industry 4.0 have caused industry to consider AR, MR and VR for industrial use.
The use of AR, MR or VR (collectively known as XR) in engineering and manufacturing is still in its infancy, but while integrating more modern, innovative technology into existing workflows involves investment and is time-consuming to begin with, in the long run it will save manufacturers money and cut lead times by improving processes.
In the current climate of constant technological advancement and economic uncertainty, organisations may need to find new ways of getting the job done quicker but cheaper.