Technology is changing the world today faster than ever.
In the 70s, artificial intelligence existed only in fantasy novels. AI development was already underway 20 years ago, but the successes were not impressive. But in the mid-noughties, there was a qualitative breakthrough in machine learning, which became a big bang for artificial intelligence. And today, a lot of neural networks help us filter and search for information on the Internet, process photos, and translate texts. One of the areas where AI opens up amazing new opportunities is motor transport.
Thanks to the integration of IT and the automotive industry, smart cars have appeared – eco-friendly transport, endowed with an advanced navigation system and self-management, as well as using alternative fuels. Thanks to the use of high technologies in the creation of cars, the vehicle’s functionality is expanded, the driver’s work is simplified, and comfort is increased.
The future has already arrived. Cars master IT, learn to assess the condition of drivers, give them advice and even move independently along the planned route. Now no one is surprised by the most amazing technologies, everything has become easy and accessible. And if you are not ready to spend large sums on a car right away, you can try renting luxury cars. Rental companies worldwide are ready to provide you with all types of services, allowing you to rent Lamborghini in Dubai or hire exotic cars in any other location. You should try it!
Moreover, the price for such supercar will be just great!
And today, we will analyze three key areas in the development of smart cars.
It is possible to turn a car into a miracle of automotive engineering without deep integration with IT – it is enough to expand the functionality technically.
Designers from Italdesign Giugiaro and LG employees presented the concept car of the future – GEA to the public in 2015. As their target audience, the authors saw businessmen for whom a car should be something more than just a vehicle. Therefore, the interior of this expensive car was equipped with three modes.
Business. The front passenger seat turns to face the rear passengers or folds into a small table – so the salon turns into a mobile office.
Wellness. Mode for maintaining tone: in the rear passenger seat, you can perform simple exercises using special handles.
Dream. The chairs move to rest positions, a special soothing backlight turns on.
The integration of AI into the driving process is aimed at improving road safety. A person may get tired and miss a sign or not notice another car, fall asleep, or get behind the wheel while intoxicated. Smart systems learn to analyze the driver’s behavior and the situation on the road. Artificial intelligence can block driving if it suspects that the driver is intoxicated, notify if it notices that a person is tired and falls asleep at the wheel, and when creating an emergency, the AI will contact the dispatcher.
The S-Max development from Ford scans road signs and automatically adjusts the speed of the car. Such an assistant can reduce the fuel supply to the engine. And the automatic speed control system developed by Tesla can stop the car in a critical situation.
Autopilot has become a key trend in the introduction of AI capabilities in the automotive industry. To move without the help of a driver, the system must know the route, clearly analyze the situation on the road, comply with traffic regulations and correctly interact with other vehicles and pedestrians.
High-tech developments help the autopilot.
Lidar is a laser rangefinder located on the roof of a car that generates a 3D map of space within a radius of up to 100 meters, covering 360 degrees.
A radar is a device that uses radio waves to determine the range of objects, the trajectory, and the speed of their movement. Thanks to this technology, artificial intelligence receives detailed information about changes on the road.
Position sensors and a GPS receiver allow you to determine the coordinates of the car on the map and track its location and route.
The video camera detects the color signals of traffic lights, as well as objects that are approaching at a potentially dangerous distance.
Smart device engineers are engaged in the integration of high-tech devices into our everyday life. Such specialists develop gadgets for aircraft, smart homes, and cars, work with software code, and design networks of connected elements. Smart device engineers make our lives more comfortable and our work more efficient. The demand for such specialists will increase with the growth of IT capabilities, but right now, for example, road safety depends on them.