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Next Generation In-vehicle Networking (IVN) Market Set to Experience Significant Growth by 2031

Posted: 20th May 2024 15:35
Next Generation In-vehicle Networking helps enable communication between various electronic control units in modern vehicles. It facilitates technologies like advanced driver assistance, infotainment systems and autonomous driving features.

Market Dynamics:

The Next Generation In-vehicle Networking (IVN) Market is projected to witness significant growth over the forecast period, driven by the increasing adoption of advanced driver assistance systems (ADAS) such as adaptive cruise control and automatic emergency braking. As these systems rely on high-speed data networking for processing sensor data and controlling vehicles, their growing demand is boosting the need for more robust in-vehicle networks with higher throughput. The advent of self-driving vehicles will further accelerate market growth by creating demand for high-bandwidth and low-latency networks that can support applications like autonomous steering, navigation and real-time decision making. Another driver is the rising popularity of connected car technologies which require fast and reliable connectivity for services like remote diagnostics, infotainment access and over-the-air updates. This is propelling OEMs to upgrade existing networks or install new standardized network platforms.

Growing adoption of advanced driver-assistance systems and autonomous vehicles

The Next Generation in-vehicle networking market is witnessing significant growth due to the growing adoption of advanced driver assistance systems and autonomous vehicles. Manufacturers are focusing on developing autonomous driving technologies that require high-speed in-vehicle communication networks for real-time processing and transportation of huge volumes of data between different electronic control units in vehicles. Next Generation IVN enables applications such as adaptive cruise control, lane keep assist, autonomous emergency braking, adaptive lighting, blind spot detection, surround view cameras, and remote automated parking which are being integrated in modern vehicles. Moreover, with the development of fully autonomous vehicles, the demand for reliable high-speed in-vehicle communication networks will further surge in the coming years to ensure smooth transmission of data between various sensors, radars, cameras and other control modules installed in autonomous vehicles.

Increasing popularity of connected cars and integration of sophisticated infotainment systems

With the rising popularity of connected car technologies, automakers are equipping vehicles with advanced infotainment systems that require robust and high-speed networking solutions for accessing internet connectivity on the move. Modern vehicles now have multiple electronic devices and sensors generating huge amounts of data which needs to be processed and shared seamlessly across different ECUs and systems within vehicles. This is driving the adoption of Next Generation IVN technologies that support data transmission speeds of over 100MBps and deliver low latency communication between control units. Furthermore, the growing preference for integrating features like advanced telematics, vehicle diagnostics, over-the-air updates and cloud connectivity is augmenting the Next Generation In-vehicle Networking market growth.

Cybersecurity threats posing compliance and performance challenges

While Next Generation IVN offers several advantages in terms of enabling advanced driver assistance and autonomous driving technologies, cybersecurity still remains one of the major challenges hampering the large-scale adoption of these communication networks. As modern vehicles are increasingly becoming connected and integrated with external networks, they are prone to cyber-attacks that can potentially compromise vehicle safety, performance and driver privacy. Ensuring robust security against hacking and misconduct has become an important compliance and performance factor for automotive manufacturers and networking solution providers. Substantial investments are required to develop secure infrastructure and protocols that can protect in-vehicle networks, electronic control units and transmitted data from unauthorized access, malware attacks, and vulnerabilities in system design. High development costs associated with building end-to-end security may restrain the Next Generation IVN market growth, especially in the initial years.

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