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5G and connected
cars: the next-
generation
automotive
industry

Author: Gary Hilson

If we're ever going to have autonomous vehicles, 5G and connected cars will need to share the road. The 5G car should not only be self-driving but will also come with a host of other advancements such as faster networking and compute capabilities that will help transform the traditional automobile into a computer on wheels.

Current 4G LTE network technologies don't quite support the speed, performance or lower latency that are necessary for the near real-time decision-making that can enable autonomous vehicles to become commonplace in nearly every community. Getting to a point where self-driving cars are practically ubiquitous could dramatically improve safety, and the pairing of 5G and connected cars can create other benefits for drivers, passengers, communities and those who plan their growth and development.

Here's what the future of the automotive industry may look like.

Do autonomous vehicles need 5G? 

While it's possible to enable autonomous driving without 5G, the widespread availability of low-latency 5G networks is what will make self-driving cars far more viable. Particularly when they're combined with the development of machine learning models that can interpret traffic and artificial intelligence to emulate a smart, defensive driver.

A key impetus for pairing 5G and connected cars is that a vehicle requires robust computing power and memory onboard as well as connectivity to necessary external resources, such as traffic management systems, weather and road condition data, to be able to make decisions faster than human beings. The speed at which such decisions need to be made at scale will be reliant on the low latency of 5G.      

Communication requirements for autonomous vehicles

Autonomous driving needs more than a system of roadways; it needs a network-based architecture that leverages the pairing of 5G and cars to meet key connectivity requirements.

A 5G vehicle needs reliable networking that supports real-time communications and a whole host of sensors that function across different domains, as well as a high degree of redundancy. When 5G connects the car to surrounding systems, all the domains can have a high-speed data backbone as a foundation. These smarter cars are destined to be highly sophisticated, further expanding on the existing advanced driver assistance system (ADAS) with more improved, high-resolution sensors as well as human-machine interfaces.

The surrounding infrastructure is expected to include more sensors that generate and share data through a 5G network to enable an autonomous driving ecosystem. The car itself will be a computer, full of sensors, memory, storage and compute power that can handle multiple data streams at once. Some streams are essential for enabling autonomous driving, but others gather information to make traffic management systems and cities smarter, and provide rich infotainment for passengers.

All these data transfers will need to be secured. Inside the vehicle, wires will support in-vehicle networks using automotive Ethernet standards that include encryption. In the meantime, there will be an accelerated need for automotive-grade components, including miniaturized connectivity, as the number of sensors and internal communications links rises dramatically.

Internal connectivity must be supported by robust external connectivity, which will be enabled by cellular vehicle-to-everything (V2X). This will enable 5G car technology to interact with its immediate surroundings as it interprets data gathered from its environment using both sensor technology and cellular communication.

Cellular vehicle-to-everything (C-V2X)

Autonomous vehicles must be capable of several different modes of communication, so they can safely and effectively interact with their surroundings. Some modes support safe, responsive driving while others enable different forms of data gathering and analytics with more long-term uses:

  • Vehicle-to-vehicle (V2V) communications enable an autonomous vehicle to share information with other vehicles.
  • Vehicle-to-pedestrian (V2P) transmissions relay a vehicle's intent and alerts to nearby pedestrians.
  • Vehicle-to-infrastructure (V2I) communication allows the vehicle to share information with road units to enable intelligent traffic management.
  • Vehicle-to-network (V2N) connects the vehicle to service providers and contextual information.
  • Vehicle-to-cloud (V2C) links a self-driving car to cloud applications and analytics functions that are able to process large amounts of raw data and derive meaningful, actionable information.

All these modes contribute to fostering the rapid, low-latency communications needed to enable safe driving and address immediate traffic management demands, but the 5G car creates many other benefits within the vehicle and beyond.

The future of transportation

The long-term map for the autonomous vehicle isn't just fast, low-latency connectivity that allows for safe driving. The intelligent 5G car will improve the travel experience for passengers, not just in cars but other vehicles, and play a role in the development of smart cities. A 5G car will expand the entertainment options for children by connecting to their personal devices such as tablets and smartphones, while 5G connectivity could enhance tourism by providing real-time, contextual content on buses and boats. Drivers will have more advanced views of the road through advanced 5G-enabled head-up displays and real-time information delivered by 5G networks.

A 5G-enhanced car is a fundamental piece of a smarter, more livable city, as V2X can optimize traffic flow, reduce congestion and reduce the impact of motorized transportation on the environment. Traffic analytics can help keep vehicles moving and pedestrians and cyclists safer. The data collected by autonomous vehicles can also help municipalities expand their insight into traffic flow and growth to inform road and highway expansion, as well as inform public transit planning.

Explore the other capabilities of smart cities and how Verizon is making the future a reality.