The rapid growth of 5G will drive the latest innovations in the automotive industry | So Good News


To address commercialization challenges and bring 5G experience to the automotive industry in a unified way this year, we must make smart investments and commit to strong cross-industry partnerships.

Whether you’re taking a scenic route or hitting the highway, today’s connectivity demands exceptional accuracy and speed. From navigation screens to dash cams, information sent to and from drivers and passengers must be seamless and virtually flawless.

This rapidly growing need puts 5G wireless data at the forefront of the latest automotive innovations. And self-driving cars may be the tip of the iceberg. Industry pioneers are using the low-latency, high-speed transmission to drive new connected vehicle concepts that help define how cities are structured, how businesses operate and how many people live on a daily basis.

It all starts with smart cars for a safer and less congested future – a key demand for the auto industry, which sees its revenue pool grow 30 percent to more than $5 trillion over the next eight years. McKinsey.

With the latest 5G services and edge computing technologies, companies are testing new fully connected car concepts to meet the needs of today’s drivers. The shared goal is to create a state-of-the-art vehicle that can act as a personalized smartphone, automated assistant, and real-time traffic and weather reporter, as well as securely transmit data in emergency situations.

Innovation wheels for smart cities

Without automotive innovation, city planners can only move the needle so far. There are now hundreds of smart city projects around the world, and the World Bank estimates that by 2050 there could be as many as 2 billion vehicles on the road. Creating coordinated traffic systems and avoiding global gridlock will require sophisticated data systems. rely on sensors embedded in everything from street surfaces to the cars that drive over them.

One of the biggest innovations being driven is vehicle-to-everything (V2X) technology, which allows direct communication between cars and their surroundings, including other cars. V2X and vehicle networks — often referred to as the “Internet of Things (IoT) on the road” — were first launched in the US, Europe and Japan and became standard around 2010. Recently, V2X technology has evolved to include highly customized software. it can detect and interact with everything from road signs and bumper-to-bumper traffic to potholes and badly damaged pavement via in-car touchscreens. Sensors powered by 5G transmissions can now be embedded in multiple parts of the same vehicle, providing safe and seamless navigation and ensuring privacy for each owner and operator.

See more: Security standards, processes and key learnings for autonomous vehicle software

For example, multifaceted software platforms such as MECWAVE use ultra-low-latency signals to accelerate the deployment and expansion of V2X to non-V2X-enabled vehicles and devices, including bicycles, scooters, smartphones, and smart glasses. MECWAVE is complemented by two additional solutions: HARMAN Savari StreetWAVE and Savari MobiWAVE, which can be used together or independently to improve transport connectivity.

Orientation to the future

Another major breakthrough in the works is in-car mapping, which allows navigation systems to pinpoint specific locations and events at a moment’s notice without interference. In-car GPS navigation systems are constantly evolving, and the rapid growth of V2X will further advance detailed mapping for drivers, passengers and pedestrians. Daily traffic, weather, and other cloud-centric services will become much more real for commercial and consumer drivers with 5G networks and edge computing, paving the way for smoother road services. According to the National Highway Traffic Safety Administration, these technologies can significantly improve the accuracy and efficiency of today’s vehicles.

In recent years, mobile applications have topped the list of almost every technological innovation, with low latency and high performance. 5G, as well as its reliability, opens up the unlimited potential of the automotive industry in the future. From in-car monitors and cameras to dedicated entertainment and news, all the essential features are ready for improvement. In-car display screens offer a rich experience that can be enhanced with 3D mapping, HD video and cloud-based streaming, while optimized data transfer speeds save time and money for both automakers and drivers.

Of course, the future of the automotive world isn’t just about the latest bells and whistles, it’s about giving drivers and pedestrians greater control. Such a task requires highly responsive and reliable data from trusted providers and secure platforms that can operate even in remote areas. 5G provides reliability, which is critical in such scenarios, making it a key decision-making factor in transportation.

Mobility, networking and security

As network speeds continue to improve, the number of 5G users worldwide has grown in recent years from less than 200 million subscribers in 2019 to more than 650 million at the end of last year. Ericsson’s latest mobility report. North America leads the way with a 5G penetration rate of nearly 30 percent in 2021. Globally, the number of commercial and consumer 5G users is expected to exceed 1 billion by the end of this year.

The global market for automotive technology using 5G is equally ready steady growthkind of drivers and pedestrians need immediate notification of traffic accidents and other traffic hazards, road construction and extreme weather conditions in today’s world.

The 5G Automotive Association and its eight global members, including Verizon, Intel and HARMAN, recently partnered with local community groups in Virginia. test this concept In live trial in Blacksburg. Using 5G signals and ubiquitous edge computing, high-speed computers will communicate with vehicle sensors and smartphones to transmit data directly through user-authorized applications. For example, if there is a potentially dangerous situation nearby, all connected devices will receive a warning message.

These advances are key to reducing traffic-related incidents, which are growing at a record pace. About 6 million car accidents occur in the United States each year, and traffic accidents remain the leading cause of death in our country. Instead of simply detecting their surroundings, 5G-enabled cars, trucks and other vehicles can communicate with them on the spot to help reduce collisions and make our streets safer.

Given that we spend more time in our cars as we move to electric vehicles and autonomous driving, connected cars will increasingly receive remote software and firmware updates to help update their internal technology. The continued expansion of 5G will allow vehicles and larger amounts of data to be transmitted at faster speeds over time.

Likewise, passengers can stream, chat, upload content faster, and create a more immersive experience without sacrificing quality. Who knows? As more workers return to the office and commute times increase, you can join your next video conference from the passenger seat.

What innovations have you witnessed in the automotive industry in the last two years? Let us know what you think Facebook, Twitterand LinkedIn.



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