The ‘car you own forever’ era is over. The auto industry is working on self-driving cars and augmented-reality systems. However, ephemeral car software and the Internet of Things are putting an end to the era of the “car you own for decades”. These new technologies will make driving more comfortable in the coming days, but they won’t last you decades.
There are several documentaries and debates about smart car innovation. Smart car debates are frequently held on talk shows and news which you can catch on your Cox cable deals. But why won’t this technological advancement last a decade? Here are some reasons:
Smarter Cars Are Driverless
The auto industry is working on the production of self-driving cars. But, the safety of driverless cars is still a key concern. The technology has not reached the commercial stage yet and has many flaws. Driverless cars still need to abide by road rules, communicate with pedestrians, and be equipped with sensors that can detect weather and visibility conditions. Automakers have to teach autonomous vehicles how to respond to edge cases, such as a flock of birds crossing a road or wind-blown leaves.
China is targeting smart transportation as a national growth strategy. As part of that, the country has designated sections of major cities for testing. Uber, Waymo, and Cruise are among the industry leaders in autonomous vehicles. Meanwhile, Austin, Miami, and San Francisco are setting up operations for self-driving cars.
While some stakeholders predict that autonomous vehicles will be available in the next decade. For now, autonomous vehicles will likely be limited to warm-climate urban areas and may be slow to come to rural areas. They likely won’t arrive on the market before a tragedy, such as a fatal accident.
In the meantime, the tech giants are betting big on smarter transit technology and investing billions in self-driving vehicles. In addition to investing billions in research and development, these companies are testing driverless vehicles in various scenarios. Despite their early success, many challenges remain in this area. However, if the industry can overcome these challenges and get the public’s trust, it can be long before fully autonomous cars are available.
Smart Cars Runs with Augmented Reality Systems
Cars have been “smart” for decades. Automakers began using electronics in the 1970s to control the engine and added computerized features like power steering and anti-lock brakes. Today, most new cars contain augmented reality systems, cameras, and sensors and are filled with data-spewing operating systems.
The auto industry is facing the transition from low-margin manufacturing businesses to high-margin software businesses. Tesla’s market cap of $1 trillion is transforming from a low-margin manufacturing business to a high-margin software company. Its IPO raised $1 billion and its stock has soared. Despite the high risk, the technology behind smarter cars is already here.
While self-driving cars are a few decades away, Tesla and other car makers are betting on the technology. It will lead to safer roads, reduced transportation costs, and reduced pollution. The concept of self-driving cars is simple: the car should react to objects and navigate to its destination. That means no more human intervention in the car’s steering wheel! That’s the ultimate goal of technology.
High-Tech Driver Assistance Features Make Driving Easier
Driver assistance technologies in smarter cars make driving safer and easier. These high-tech features make driving easier and safer, but they also add a new layer of complexity to the process. While driver assistance systems make driving easier, they also require close human supervision. Drivers can become complacent while operating these features, and they can also be tiresome.
The technology in today’s smarter cars can automatically detect and judge when there are obstacles on the road. They can do this by using radar technology. Unlike older vehicles, this technology works even when the car is in motion. This feature also helps the driver stay alert and avoid hitting obstacles. Driver assistance features in smarter cars can also help the driver steer or pull the brake more easily.
Advanced lane-keeping assistance is another technology found in smarter cars. These systems use cameras and radar to detect lane markings and spring into action when a driver starts drifting out of their lane. Some systems even steer the car back to the center if it crosses a line. Other systems try to keep the car in the center of the lane at all times, but do not intervene when a driver switches lanes.
Advanced braking systems make it safer to drive in severe crosswinds. Crosswind Assist has sensors to detect lateral movement caused by strong gusts of wind and intervene to keep the car on course. It can even prevent the car from departing from its intended path by applying one-side braking. The system works when the car is engaged in adaptive cruise control.