Do you know, in the future who is going to occupy the driver’s seat in the automobile industry? Of course, it is 5G technology. 5G connected cars (Avs and CVs) can let the drivers about possible conflicts in advance before they occur. So, now let us see Can telcos take the driver’s seat with Smart 5g tester, 5G test equipment, 5g network tester tools and Smart RF drive test tools & equipment, RF tester software app & network LTE 4g tester
As we are all aware of increasing environmental pollution, growing road accidents, and wasting time in traffic jams, hence people are more concerned about new technology that will solve such problems – here come connected cars with 5G technology. 5G connected cars are not only beneficial to communicate with each other vehicles but also connect with roadside infrastructure using network services, thereby keeping traffic safe and prevent from road mishaps.
What are connected cars or connected vehicles or autonomous vehicles?
- It’s a type of vehicle connected and operated by 5G that can alert the driver of road casualties and traffic congestion at least three miles ahead.
- A vehicle with the ability to stream live entertainment content to the riders and at the same time let the driver know there’s an ambulance coming down the same road where you’re riding.
Connected vehicles or 5G autonomous cars are the new future growth of the auto industry. According to Pcquest.com, the connected vehicle marketplace is projected to expand at a CAGR of 14% and increase to US$ 122.51 billion by 2023 across the globe. Similarly, prediction says, by 2025 the connected car market in India is anticipated to grow up at a CAGR of 22.2% and reach US$ 32.5 billion.
What is 5G connectivity and how it benefits connected vehicles?
5G connectivity is the 5th generation of network technology – with this, we will see the Internet of Things (IoT) due to its two important features such as low latency and high speed. When 3G came, users for the first time were able to avail high-speed bandwidth to connect to the internet from their mobile phones; At the time of 4G, users had faster connectivity as they allowed themselves for streaming online video and sending larger files through email. So, now with 5G connectivity, vehicles will be connected, and the dream of operating autonomous vehicles is going to be true.
Thanks to the 5G! With 5G technology, when the connected car detects an obstacle and when communicates, the reaction time would be about 5 milliseconds. It is possible because of 5G’s low latency or the time (very less) it takes for a network to respond to commands. So, if you compare 5G to manual operation, for example, drivers in traditional vehicles take about 150 milliseconds to respond.
Helps in detecting obstacles on the road:
5G connected cars give predictive information to the drivers in a faster way so that drivers can take better decisions and avoid facing any trouble while driving. So, with 5G technology, now the car will get relevant information (about any road accident, or traffic congestion, and can detect pedestrians, cyclists, static obstacles, etc.) before the driver sees it.
Helps in easy communication with hardware:
Infrared cameras, sensors, and beacons are some of the hardware embedded into the 5G infrastructure for communicating with connected cars easily and quickly. To know how it works, let’s take an example – cameras connected to traffic lights detect pedestrians’ information and are sent to the 5G network-connected vehicles to alert the driver.
When the concept of connected cars is now in trend, the two eminent industries, such as automobile and telecom, are making partnerships with each other. When it comes to connected cars, customer satisfaction is the foremost factor that CSPs should take care of that. Improving QoE on the 4G/5G network will maximize customer satisfaction as 5G technology is playing a major role in connected cars. For this reason, network monitoring, and testing, is gaining the utmost importance among car manufacturing companies.
In the case of CVs or Avs network maintenance, RantCell software can be used that will help detect vehicle embedded modem issues while driving or even under stationary conditions. RantCell will compare data rate and latency to provide accurate information to the end users. In addition, RantCell also enables autonomous vehicle manufacturers to build their own mobile network data, because auto manufacturers need to build their own data just to avoid experiencing poor services from customers’ end at the time of their driving into that specific region.