Personal vehicles have served as a means for transportation for about a hundred years now. However, today, just like cell phones aren’t used only for making calls, cars are also not about only to drive and park. To achieve that the automotive industry has been working hand-in-hand with the emerging technologies, in order to deliver the safest, advanced and most comfortable vehicles for modern users.
Driven by technological improvements, our vehicles are becoming large smart devices that provide mapping technology, connectivity, improved fuel efficiency, and many more infotainment features.
Today, the technological movement, originated by innovative initiatives of some of the largest companies in the sphere, is powering a connected and autonomous car phenomenon that is set to change the world. But is that the only thing that’s driving the industry forward?
In this article, we’ll share 5 technology trends to consider before the actual fully autonomous vehicles become a fact. These also show us a sneak peek of what the near future of automotive looks like.
Vehicles As IoT Devices
The Internet of Things provides a great potential for interconnectivity, linking smart vehicles into a network. This provides the possibility of optimizing vehicle performance and driver experience. This trend also leverages the ability of IC manufacturers to integrate enhanced functionality into more powerful microprocessors.
The wireless connectivity integration not only simplifies communication between vehicle’s subsystems but serves to link it with external networks, other vehicles or traffic control systems. The connected cars and the collected data offer potential for other features such as predictive maintenance, traffic management and of course the most important, enhanced safety and emergency response capabilities.
Our vehicles are no longer limited productivity spaces. What’s more, we can just continue with our other activities on the go, while still not being distracted from the road. Which leads us to the next trend.
Advanced Driver Assistance Systems
The advanced driver assistance system (ADAS) is designed to reduce the driver’s workflow during the driving process itself. It’s based on embedded vision technology, which consists of vision systems that surround the vehicle, looking to place it within a protective bubble against driver error, road obstacles, other vehicles, and pedestrians.
These vision systems are capable of identification and real-time tracking. They usually require specialized knowledge of image acquisition and processing techniques. However, today the development of these complex systems have been simplified.
The dedicated vision processors and multicore CPUs have put the sophisticated vision capabilities in most engineers’ hands. There are even some development kits that lower the barriers to entry into embedded vision technologies. This means they are getting more and more widespread among new vehicle.
Advanced Motor Control
Modern vehicles are filled with dedicated motor-control systems, which drive fans, pumps, compressors, and servomechanisms of all types. The growing desire of maximum efficiency and control has motivated engineers to move beyond traditional scalar control systems to more sophisticated digital vector control algorithms capable of delivering full torque with acceleration and deceleration at rates that can be precisely managed.
Many cost-effective solutions are developed, that still provide maximum control capability and enable engineers to harness the power of advanced vector control methods. These sophisticated methods provide great flexibility, but also present designers with some challenges.
That’s why for the achievement of stable operation through all corner cases of a vector control design can demand highly specialized knowledge and often leads to slips in tight development cycles.
However, advanced motor control is a tech trend that provides an improved driver experience.
Artificial intelligence and machine learning impact almost all technological aspects. They have an essential role in the future of the automotive industry as well. Predictive capabilities are now becoming prevalent in cars. They provide a highly personalized driving experience.
Manufacturers are applying AI and ML algorithms to automate the setting up process of a vehicle, including its infotainment system and its application preferences. This makes vehicles our new IoT devices that connect to our smartphones or wearable devices and actually understand us.
The predictive technologies could also be implemented as sensors within a car. They can inform the driver if the vehicle needs service and estimate its performance, depending on the mileage and condition as well.
As we already noted above, connectivity is among the key trends in the automotive industry. You’ve seen the IoT trend above as well. However, this one goes beyond network connectivity. It’s actually already changing the future of driving. Intelligent traffic systems will be created, in order to avoid collisions, send emergency vehicle notifications to provide car diagnostics, and manage to park.
The vehicle-to-everything technology will send real-time traffic notifications, accident alerts, and other warnings. It’s set to increase traffic safety, sent forward-collision warnings, detect obstacles and offer safety measures. This technology will take us a step closer to smart roadways and safer driving experience.
Technology is Changing the Automotive Industry
Modern cars will be more like connected computers on wheels that will generate huge amounts of data. The Automotive Industry is making use of the latest technological advancements in order to satisfy increasing customer expectations.
Companies are starting to combine cutting-edge thinking with environmentally friendly technology that is the future of mobility. Our new-generation vehicles will be connected with each other proving a safer driving experience.
Working within the automotive industry is fast-paced and an exciting career choice. The automotive industry is currently on the road to a more environmentally friendly future and technological innovation will be a crucial feature as cars continue to evolve to meet the needs of a low carbon economy.
Companies are also identifying gaps in basic skill levels, associating industry recruitment difficulties with an absence of ‘job-ready’ candidates. A high proportion of companies engage with the vocational training system in response to their skill needs, influenced partly by the reasonably strong uptake of apprenticeships in the industry. Students looking to start a career in the automotive industry should begin their training with the Certificate Automotive Application Development with C++ of xSeries by FUNIX.
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