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The automotive industry is converging with the information and communication technology (ICT) industry at a rapidly increasing rate. Technology is reshaping the global automotive sector. In the future, cars will become computers on wheels as tech players move into the automotive sector to leverage their existing capabilities. 

The first one hundred years of automotive evolution were marked by a sharp focus on engineering innovation. Cars became more appealing, better at fuel efficiency, safer and more comfortable.

Why Connected Cars Are Better

In 1996, there was a tectonic shift of communication technology; this switching of gears to connected vehicles was led by GM’s OnStar. Each fundamental element of the connected vehicle, like diagnostics, navigation, and infotainment, rapidly changed.

The Next Frontier

We’re now headed to an era where this convergence of digital and engineering innovations will give birth to connected cars that increasingly understand and interact with the environment around them.

A crucial link in that development chain is the infotainment system. Once considered as mere accessories for the car, today’s infotainment systems are fast emerging as a platform for creating immersive experiences. 

Spurred by the rapid progress in AI and natural language processing over the past decade, the growing acceptance of virtual assistants in consumer technology products means that consumers are now inherently attuned to the ubiquity of personalized technology. 

For automakers, therefore, the next frontier is exploring how effortlessly the driver is connected to the outside world during transit. Now, it’s not just about how smart the car is; it’s about how intuitive the software is to the needs of the consumer. 

The fundamental premise of the connected car’s environment lies in the power of wireless connectivity among vehicles (referred to as V2V communications); vehicles and infrastructure (referred to as V2I communications); and wireless communications for crash prevention, which improves mobility and environmental sustainability.  

A connected car is defined by its devices within that connect with devices, networks, and services outside the car, including other cars and infrastructure.

Impacts and Potential Operational Benefits of CVs

Long-range Planning Models

Connected vehicle (CV) technology will have a profound impact on the long-range planning and land-use models used today. It will provide planners with greater insight into each step, leading possibly to more precise models and providing enhanced information for better decision-making. 

Geometric Design of Highways

Roads and signalized intersections are usually designed based on the behavior and characteristics of human drivers. This human behavior might differ vastly from the driverless vehicles’ behavior.  

Unlike people, the automated vehicle uses sensor systems to locate itself along the path and to communicate with other vehicles and/or infrastructure along with the network. This element could lead to optimizing the geometric design of highways, enabling the use of minimum control radii and horizontal and vertical curves. 

Capacity and Traffic Operations

One of the major benefits of CVs and AVs is their potential to increase capacity on freeways and other uninterrupted flow facilities. AVs can improve capacity by using their equipped radars and other sensors to maintain a consistent gap with the vehicle ahead, thereby reducing the headway between vehicles compared to human-driven vehicles.

Highway Safety

Research shows that the deployment of connected vehicle and the combined use of (V2V) and (V2I) applications have the potential to address 81% of unimpaired driver crashes in all vehicle types (i.e., cars and heavy vehicles). Highway crashes can be reduced when vehicles can sense and communicate the hazards around them.

Mobility

According to the Texas Transportation Institute, US highway users wasted 5.5 billion hours stuck in traffic in 2011. CV mobility applications will enable system users and system operators to make smart choices to reduce the delay by providing actionable information and tools to affect the performance of the transportation system in real-time.

Environmental Benefits

The principal pollutants of vehicle emissions include nitrous oxide, sulfur oxide, and carbon monoxide, which have negative health effects. Connected vehicle technologies will generate real-time data that drivers and transportation managers can use to make green transportation choices. 

Challenges to CV Technology

The challenges to the development and application of the CV may be summarized as follows: 

Cars Take Longer to Develop Than Smartphones

The difference in lifecycles in the automotive and the mobile industry is a serious challenge for the future of connected cars. New features, such as operating system upgrades and new applications, are provided almost constantly for the smartphone, whereas car manufacturers work on five-year cycles.