Pursuing Auto Careers? How the DiSus System Could Revolutionize Driver Assistance Tech
With the number of vehicle users on the rise today, stakeholders in the automobile industry are continuously looking to improve the quality of the driving experience. The massive investments in automobile technology are yielding significant returns that are geared towards improved user safety, comfort, and driving efficiency. And driver assistance technology is one of the latest developments in the long line of automobile industry advances.
This emerging technology runs on sensors, cameras, and other technologies to improve the modern car’s odds on the road. And it is a technology that is constantly being improved (as with the DiSuS system).
If you’re excited about the prospects in assisted driving technology and would like to pursue a career in this line after completing auto mechanic school, you should explore the program offered at ATC Cambridge.
What You Should Know About DiSuS In Auto Mechanic School
Digital System for Urban Sustainability (DiSuS) is a wide-ranging smart city initiative developed by the Chinese automobile and technology company BYD. It is an integrated solutions technology platform that deploys a range of connected components to optimize transportation and energy resources while being environmentally responsible.
Some of these components include sensor and camera-equipped electric vehicles that plug into smart traffic/transport management systems to provide assisted driving. They are in addition to energy storage and renewable energy solutions, all of which are linked to a central platform.
DiSuS, ADAS, and Intelligent Vehicle Body Motion
The DiSuS platform promotes the development of advanced driver assistance systems (ADAS). It is a system designed to improve driving efficiency and safety by helping drivers navigate complex driving scenarios. And it builds on the concept of intelligent vehicle body control to initiate autonomous vehicle actions that eliminate human errors. This intelligent vehicle body control derives from the movement of electronic signals as received from sensors, radars, and cameras (placed around your car) to the car’s actuators, thus initiating vertical, longitudinal, and lateral car movements.
These vehicle motions are adapted into Adaptive Cruise Control (ACC), Traction Control (TC), and other assisted driving systems. And they work by initiating a forced adjustment action on vehicle components (such as brakes, steering, suspension, etc.) on receiving these signals.
So, when a car’s sensors perceive that the car is approaching a corner too sharply, the car’s suspension receives the signal to initiate a lateral action and avert an overturning incident. And when a driver needs to maintain a safe distance from a car ahead of them, the Adaptive Cruise Control (ACC) system initiates a steady forward (longitudinal) motion to keep them stable and collision-free.
Similarly, the Forward Collision Warning System warns the driver of an impending collision. At the same time, the Automatic Emergency Braking System forces an emergency braking action via controlled vertical motions of the suspension to forestall or dampen the collision. These technologies form major talking points in auto mechanic school as they’re the face of assisted driving technology.
How It Works for Those in Auto Careers
All the above systems represent the hallmarks of Advanced Driving Assistance systems (ADAS) and intelligent Vehicle body control. They are the product of an intelligent design of strategically placed sensors and cameras (on your vehicle) that pick up roadway action in all its nuances.
This action is then converted to readable data (using a complex array of AI algorithms) to be analyzed and transmitted to the execution points—brakes, suspension, and wheels. The result is that drivers and others in auto careers can navigate the road safer and more comfortably due to the assistance they get. And this is the ultimate purpose for which the DiSuS system was developed.
The DiSuS platform incorporates a system where critical transport and vehicle components can communicate with each other and send instructions across the board. This has considerably made the driver’s job easier due to help from ADAS systems. And the possibility for an even better driver experience in the future is even better, what with the rate of advances projected and with industry leaders like the Electric Vehicle giant BYD leading the way.
Are you considering auto tech training?
Contact ATC Cambridge to learn how you can get started!