8 Electronic Engineering Trends That Will Shape the Future
Whether you’re in the electronic engineering sector yourself or are simply a regular user of electronic technology, you’ve likely noticed a great deal of innovation in recent years. The emergence of new electronic engineering trends has the potential to shape the future and change the world for the better.
Dreiym Engineering has compiled a list of several recent trends in the world of electronic engineering. These emerging technologies are already impacting the lives and livelihoods of everyone who uses electronics regularly. Let’s take a look at these promising trends in greater detail.
Artificial Intelligence and Machine Learning
From casual chatbots to machines with the capacity to learn, artificial intelligence technology has made its mark on the world already—and there’s more innovation to come. Artificial intelligence (AI) increases human productivity in a variety of industries, and the AI algorithms are growing more adept at imitating organic intelligence.
Machine learning is a smaller category under the AI umbrella, and it encourages machines to pick up on patterns and insights that allow them to make better decisions. Electronic engineers are already experimenting with neural networks that imitate the human brain, allowing machines to make more “natural” decisions without human input.
Electric Vehicle (EV) Innovation
The electronic sphere is in the midst of the fourth Industrial Revolution, which focuses on the fusion of physical, digital, and biological worlds. One of its primary innovations is the development and fine-tuning of electric vehicles, which open up the possibility for people to move away from fossil fuel consumption.
Electric cars have had plenty of airtime in the news in recent years as manufacturers test features like self-driving, wireless charging, and smart battery management. Current engineering students have the opportunity to specialize in EV innovation before they even graduate. This educational springboard sets the stage for a new generation of electric transportation experts and a powerful shift away from fossil fuel pollution.
Gadgets that users can wear, like smartwatches, have been around for years already, but they’re getting smarter and more communicative. Many pieces of wearable tech are equipped with sensors and connected to the cloud, allowing for easy storage of personal information.
Smartwatches have already proven helpful in detecting potential health concerns for the wearer. They can notify the wearer if they’re spiking a fever or if their heart rate is irregular. Several Apple Watch users have reported that the watch advised them to visit a doctor, which ultimately saved their lives!
Creating robots that can do jobs that are either unworkable or unsafe for humans has led to a boom in productivity in many fields. Car manufacturers and bomb disposal teams have been using robotic help for decades now, but with the assistance of machine learning, the robots are getting smarter.
Drones fall squarely under the robotics category and are of great help in industries with elevated safety requirements. For example, allowing a drone to fly over a fallen power line to survey the damage is much safer than sending a person out into hazardous conditions. As robotics engineers continue to improve upon the available technology, fewer and fewer workers will end up in unsafe situations on the job.
The advent of printable electronic technology makes the manufacturing of circuits, sensors, solar cells, and other electronic components much easier and more cost-effective. Printable solar cells, for example, are extremely helpful in producing solar power in high volumes at an affordable price.
In addition, printed radio frequency identification (RFID) components like antennas are especially helpful in networks that utilize IoT, or the Internet of Things.
The Internet of Things (IoT)
Do you work with a network of physical objects or pieces of machinery that are all connected via the Internet? IoT technology allows a variety of devices to communicate with one another via sensors and other embedded devices. This innovation is helpful for both electrical experts and consumers of electronic products.
This type of technology is often called smart tech by laypeople who use it in their homes and offices. For example, while you’re away from home, you can check your house’s smart thermostat via an app and control its temperature remotely. IoT technology continues to innovate in conjunction with AI, machine learning, and printed electronic components.
Preconstruction and Prefabrication
The construction industry has been using prefabricated materials for decades; prefab materials help expedite the construction process and cut down on costs. The electrical power sector has gravitated toward using preconstructed materials in recent years for similar reasons. Cost efficiency and time-saving measures are increasingly important in industries like these because many are experiencing labor shortages.
Using prefab materials in electrical engineering also helps reduce the system’s overall carbon footprint, which more and more industries choose to prioritize these days. Electrical experts, such as forensic engineering consultants, see the benefits of these innovations firsthand, as modern building information management (BIM) systems can more easily be planned in advance.
Smart Grid Technology
You’ve no doubt heard of the power grid before—it’s the network of power transmission lines, transformers, and substations that move electricity from the power plant to everywhere it’s needed. Smart technology has transformed power grids in recent years to enable more communication between people and machines.
The electrical sector continues to bring innovations to the power grid to move it toward a smarter future. Technology that is connected to the smart grid communicates with the network to determine changes in power needs. As the smart grid continues to evolve, electronics users will see more efficient delivery of electricity, automatic rerouting in the event of an outage or disturbance, and more.
If you’re interested in the future of the electronics sector, whether as a professional or a consumer, keep an eye on emerging electronic engineering trends. The innovations detailed above are already shaping the future and will continue to do so in tandem with one another.
We at Dreiym Engineering have our fingers on the pulse of the future of the electronics sector, and we hope this guide encourages you to do the same. These forward-thinking trends will develop and shape our world even more as technology advances.