img

Global Next Generation In Vehicle Networking Market Size By Type (Infotainment, Climate Control), By Application (Passenger Vehicles, Commercial Vehicles), By Protocol (Ethernet, Controller Area Network (CAN)), By Component (Microcontrollers, Transrecievers), By Geographic Scope And Forecast


Published on: 2024-08-07 | No of Pages : 320 | Industry : latest updates trending Report

Publisher : MIR | Format : PDF&Excel

Global Next Generation In Vehicle Networking Market Size By Type (Infotainment, Climate Control), By Application (Passenger Vehicles, Commercial Vehicles), By Protocol (Ethernet, Controller Area Network (CAN)), By Component (Microcontrollers, Transrecievers), By Geographic Scope And Forecast

Next Generation In Vehicle Networking Market Size And Forecast 

Next Generation In Vehicle Networking Market size was valued at USD 14,039.79 Million in 2022 and is projected to reach USD 35,474.15 Million by 2030, growing at a CAGR of 10.84% from 2023 to 2030.

Rapid urbanization and evolving mobility patterns are driving the need for personal transportation, leading to an uptick in production. The Global Next Generation In Vehicle Networking Market report provides a holistic evaluation of the market. The report offers a comprehensive analysis of key segments, trends, drivers, restraints, competitive landscape, and factors that are playing a substantial role in the market.

Global Next Generation In Vehicle Networking Market Definition

Next Generation in-vehicle networking is a method to efficiently transmit signals and data among a vehicle’s electronic components using a unified platform. This technology empowers vehicle users to address essential functions for passenger cars, including monitoring fuel consumption and other critical vehicle details. Next Generation in-vehicle networking technologies enable faster, safer, and more secure communication for vehicles. It enables vehicles to transmit and receive data at high speeds, allowing for seamless communication between different vehicle components, external devices, and infrastructure. In-vehicle networking systems use connectivity standards such as local interconnect network (LIN), controller area network (CAN), media-oriented system transport (MOST), FlexRay, and Ethernet.

For the next-generation in-vehicle networking infrastructure beyond CAN and FlexRay, the automotive industry has identified Ethernet as a very promising candidate. Ethernet has the bandwidth capability that is required for new driver assistance and infotainment systems, for example. The adoption of Ethernet as a primary communication protocol within vehicles is a significant aspect. It provides higher bandwidth, enabling the integration of multiple systems and applications. The growth in the production of passenger cars across the globe is one of the significant factors that is boosting the growth of the market. Rising trends of electrification, autonomous and connected vehicles across the globe are significantly propelling the growth of the market.

In addition to this, the rising shift towards Ethernet-based next-generation in-vehicle networking is anticipated to offer various growth opportunities over the forecast period. However, the threat of cyber security vulnerabilities is one of the key factors that could hinder the growth of the market over the forecast period. The next-generation in-vehicle networking market is segmented into Types, Protocols, Components, Applications, and Geography. On the basis of protocol, the market is segmented into Controller Area Network (CAN), Local Interconnect Network (LIN), Ethernet, Media-Oriented Systems Transport (MOST), and Others. The Ethernet segment accounted for the highest market share in the year 2022.

Traditional CAN (Controller Area Network) and LIN (Local Interconnect Network) protocols are being supplemented or replaced by Ethernet-based networks. Ethernet offers higher bandwidth, which is crucial for handling the increasing data flows in advanced vehicles. The component segment is bifurcated into Microcontrollers, Watchdog Timers, Transrecievers, and Others. The Microcontroller segment held the highest market share in the year 2022. Microcontrollers play a pivotal role in enabling communication, processing data, and executing commands in modern vehicles. Their use is widespread in advanced driver assistance systems (ADAS), engine control units (ECUs), infotainment systems, and various other critical components.

What's inside a
industry report?

Our reports include actionable data and forward-looking analysis that help you craft pitches, create business plans, build presentations and write proposals.

Global Next Generation In Vehicle Networking Market Overview

The global automotive industry is currently experiencing a surge in vehicle production. This is mainly bolstered by rising consumer purchasing power and spurring heightened demand for passenger cars across the globe. Rapid urbanization and evolving mobility patterns are driving the need for personal transportation, leading to an uptick in production. Following disruptions caused by the COVID-19 pandemic, the automotive industry is now in a phase of recovery, marked by efforts to ramp up production. This interactive chart shows the number of cars produced per world region for the 2020-2022 period.

For instance, according to the European Automobile Manufacturers Association, in 2022, China will produce 34% of the 69 million cars that are manufactured worldwide each year, followed by Europe (19%), and North America (15%). The rising production of passenger cars is a significant driver of the demand of next-generation vehicle networking. Modern consumers increasingly expect their vehicles to be connected, mirroring the seamless connectivity they experience in other aspects of their lives. This demand is pushing manufacturers to incorporate advanced networking solutions.

Next-generation vehicle networking enables advanced infotainment systems, in-car entertainment, navigation, and real-time updates. These features are highly sought after and can significantly enhance the driving experience. ADAS technologies rely on robust networking to function effectively. This includes features like adaptive cruise control, lane-keeping assist, and automated parking, which require high-speed data exchange for accurate real-time decision-making. Therefore, the growing production of passenger cars is propelling the demand for next-generation in-vehicle networking, as consumers increasingly seek safety features, advanced connectivity, and the integration of vehicles into the broader digital ecosystem.

Global Next Generation In Vehicle Networking MarketSegmentation Analysis

The Next Generation In Vehicle Networking Market is segmented on the basis of Type, Application, Protocol, Component, and Geography.

Next Generation In Vehicle Networking Market, By Type

  • Infotainment
  • Climate Control
  • Navigation
  • Driver Assistance Systems (DAS)
  • Others

To Get a Summarized Market Report By Type-

Based on Type, the market is divided into Infotainment, Climate Control, Navigation, Driver Assistance Systems (DAS), and Others. Infotainment accounted for the largest market share in 2022. With the growing demand for luxurious, safe, and smart vehicles, automotive manufacturers are increasingly developing automobiles with integrated infotainment systems. These are the systems that provide a combination of entertainment and information for an enhanced in-vehicle experience. The demand for infotainment systems in the next-generation in-vehicle networking market has been steadily growing as automakers and consumers seek to enhance the overall driving experience. Infotainment systems have evolved significantly in recent years, becoming an integral part of modern vehicles.

Consumers today have come to expect the same level of connectivity and convenience in their vehicles as they have in their homes and offices. Infotainment systems are central to meeting these expectations. Infotainment systems offer connectivity features like Bluetooth, Wi-Fi, and smartphone integration (e.g., Apple CarPlay and Android Auto) that allow drivers and passengers to access their apps, music, and navigation seamlessly. Advanced infotainment systems offer real-time navigation and mapping services with features like live traffic updates, predictive routing, and points of interest (POI) information. These features help drivers navigate more efficiently and find destinations with ease, improving overall safety and convenience. The integration of voice recognition technology and artificial intelligence (AI) has made infotainment systems more intuitive and user-friendly, thereby increasing their use in next-generation in-vehicle networking.

In-vehicle networking is evolving at a rapid pace as a result of developments in autonomous driving and connectivity that drive the automotive industry forward. Thus, more features need to be supported to enhance efficiency, safety, and the driving experience. The inclusion of ever greater numbers of on-board sensors, combined with the uptake of a plethora of new data-intensive multimedia technologies, has set major challenges for the networking hardware incorporated into cars. As a result, requirements on data bandwidth and the number of cables; as well as factors such as complexity, flexibility, and cost-effectiveness become more challenging. Automotive Ethernet is emerging as a preferred choice for future in-vehicle networking.

Automotive Ethernet is expected to become one of the critical protocols for in-vehicle networks. With the introduction of various speed grades, more and more applications are becoming available to enhance user experiences through infotainment and autonomous driving. It offers high immunity, reduced cabling, and high-speed data rates. High immunity and reduced cabling are the two big innovations that helped bring Ethernet inside the vehicle. Many companies are introducing various types of components related to the Ethernet in the market.

Next Generation In Vehicle Networking Market, By Application

  • Passenger Vehicles
  • Commercial Vehicles

Based on Application, the market is divided into Passenger Vehicles and Commercial Vehicles. In today’s automotive landscape, consumers are increasingly seeking cutting-edge features to enrich their driving experience. This includes advanced infotainment systems that seamlessly integrate connectivity, streaming, navigation, and smartphone functionality. Next Generation In-vehicle Networking (IVN) plays a critical role in realizing these desires by providing the technological backbone necessary for these features. With Next Generation IVN, passengers can enjoy a more engaging and connected ride, leading to an overall enhanced driving experience. Moreover, passengers now expect in-car Wi-Fi, integration with smart home devices, and access to a diverse range of applications while on the move. Next Generation IVN meets these demands by delivering robust connectivity, aligning with the expectations of today’s tech-savvy consumers.

The integration of Advanced Driver Assistance Systems (ADAS) is rapidly becoming the norm in modern vehicles, contributing significantly to safety on the roads. Technologies such as adaptive cruise control, parking assistance, blind-spot detection, and automated emergency braking are integral to this trend. Next Generation IVN plays a crucial role in seamlessly integrating and facilitating communication between these ADAS technologies. By doing so, it enhances vehicle safety by enabling these systems to work in harmony, reacting swiftly to potential hazards and mitigating risks. The seamless integration of ADAS is a testament to the capabilities of Next Generation IVN, underlining its pivotal role in advancing safety standards in the automotive sector.

The automotive industry is undergoing a significant shift towards electric and hybrid vehicles, driven by a global focus on sustainability and reduced emissions. This transition necessitates sophisticated Next Generation IVN systems to efficiently manage various aspects crucial to electric and hybrid vehicles. These include power distribution, battery charging mechanisms, energy efficiency optimization, and real-time monitoring of the vehicle’s performance. Next Generation IVN solutions emerge as vital components in optimizing the overall performance and efficiency of electric and hybrid vehicles, addressing the unique challenges and requirements posed by this shift in automotive technology.

In the pursuit of energy efficiency and sustainable practices, Next Generation IVN solutions step in to optimize energy management within the vehicle. This encompasses a range of functions, including precise power distribution, intelligent control of lighting systems, efficient management of heating and cooling systems, and regulating power usage across various vehicle components. By intelligently managing energy resources, Next Generation IVN solutions contribute to a greener and more sustainable automotive ecosystem. This not only aligns with global environmental goals but also ensures that vehicles operate with optimal efficiency, a crucial aspect of modern vehicle design. The efficient energy management achieved through Next Generation IVN adds value to the vehicle while promoting responsible energy consumption.

Next Generation In Vehicle Networking Market, By Component

  • Microcontrollers
  • Transrecievers
  • Watchdog Timers
  • Others

Based on Component, the market is divided into Microcontrollers, Transrecievers, Watchdog Timers, and Others. Microcontrollers is expected to hold the largest market share of the Next Generation In Vehicle Networking in the forecast period. Microcontrollers play a critical role in the Next Generation In-vehicle Networking (IVN) Market. These compact integrated circuits with a processor core, memory, and programmable input/output peripherals are fundamental to managing and controlling various functions within a vehicle’s network. They facilitate communication, data processing, and the overall functionality of the IVN. Microcontrollers process and interpret data from various sensors, devices, and systems within the vehicle.

They make real-time decisions based on this data, controlling functions such as engine management, safety systems, entertainment systems, and more. Microcontrollers are central to the communication protocols within the IVN. They ensure seamless data exchange between different components and systems within the vehicle, enabling efficient and reliable communication critical for advanced features like ADAS, infotainment, and connectivity. Microcontrollers help manage power consumption efficiently within the vehicle’s network. They regulate power usage based on the requirements of different components and systems, contributing to overall energy optimization and enhanced sustainability. Security is paramount in modern vehicles. Microcontrollers play a significant role in ensuring the security of the IVN by implementing encryption, authentication, and other security measures to protect sensitive data and systems from cyber threats and unauthorized access.

Microcontrollers also offer flexibility for customization, allowing automakers to tailor IVN functionality based on the specific requirements of the vehicle model. This adaptability enables automakers to differentiate their products and cater to evolving consumer demands. As vehicles become more sophisticated, there is a growing demand for advanced features like ADAS, connected infotainment, autonomous driving capabilities, and more. Microcontrollers are essential for enabling these features, driving the demand for microcontrollers in the IVN market. The need for seamless connectivity within vehicles is on the rise. Microcontrollers support the integration of various communication technologies, facilitating enhanced connectivity and data exchange among vehicle components and with external devices.

Next Generation In Vehicle Networking Market, By Protocol

  • Ethernet
  • Controller Area Network (CAN)
  • Local Interconnect Network (LIN)
  • Media-Oriented Systems Transport (MOST)
  • Others

Table of Content

To get a detailed Table of content/ Table of Figures/ Methodology Please contact our sales person at ( chris@marketinsightsresearch.com )
To get a detailed Table of content/ Table of Figures/ Methodology Please contact our sales person at ( chris@marketinsightsresearch.com )