Market Overview:
The global in-vehicle networking market is expected to grow at a CAGR of 10.5% during the forecast period from 2018 to 2030. The growth of this market can be attributed to the increasing demand for advanced in-vehicle networking solutions, such as CAN, LIN, FlexRay, RF and Ethernet. These solutions offer various benefits such as improved safety and security, enhanced communication capabilities and reduced vehicle weight. The passenger car segment is expected to account for the majority of the global in-vehicle networking market during the forecast period. This can be attributed to the increasing demand for advanced features in passenger cars, such as infotainment systems and collision avoidance systems.
Product Definition:
In-vehicle networking refers to the use of dedicated short-range communication (DSRC) technology between vehicles and roadside infrastructure to exchange data related to traffic, safety, and other vehicle operations. The purpose of in-vehicle networking is twofold: 1) improving the flow of traffic by exchanging information between vehicles and roadway infrastructure; and 2) enhancing safety by warning drivers about potential hazards.
CAN:
Centralized Access Network (CAN) is an open, industry-standard protocol for enabling interoperability between vehicle electronic control units and telematics modules. It simplifies the process of adding features to a vehicle by streamlining the data transfer between devices connected in a car.
LIN:
LIN is a low-level programming interface that allows the incorporation of functions at the hardware level. It provides services such as input and output to and from the computerized control modules. LIN has been designed for use in cars, but it can be used in other devices as well.
Application Insights:
In 2017, the commercial vehicle segment held around 60.0% of the global revenue share and is expected to continue its dominance over the forecast period. The growing need for logistics companies to maintain their supply chain network and reduce operating costs by reducing dependence on physical infrastructure is projected to drive demand for in-vehicle networking solutions in commercial vehicles, thereby propelling growth across all regions.
The passenger car segment is anticipated register a significant CAGR of XX% from 2018 to 2030 owing to rising demand from emerging economies such as China, India and Brazil which are majorly driven by increasing sales of luxury cars equipped with advanced safety features such as lane departure warning systems (LDWS), driver monitoring systems (DMS) and blind spot detection systems (BSD). Moreover, government initiatives such as ¢â‚¬Å“Make In India¢â‚¬ are likely further boost industry expansion over the coming years.
Regional Analysis:
North America dominated the global market in 2017. The region is expected to retain its dominance over the forecast period as well, owing to early adoption of advanced technologies and increasing demand for on-road connectivity. Europe accounted for a significant share of revenue in 2017 and is expected to grow at a steady pace over the next eight years due to growing consumer awareness regarding vehicle safety systems, such as lane departure warning system (LDWS), automatic emergency braking (AEB), and adaptive cruise control (ACC). Moreover, presence of prominent players with extensive product portfolios will also help boost regional growth.
Asia Pacific is anticipated to witness considerable growth during the forecast period owing to rising disposable income among consumers along with rapid urbanization in emerging countries such as China and India. Furthermore, increased sales volume of premium cars equipped with advanced networking capabilities will drive regional demand further.
Growth Factors:
- Increasing demand for in-vehicle networking solutions from the automotive industry to improve the overall driving experience.
- Proliferation of connected cars and autonomous vehicles, which are expected to drive the need for in-vehicle networking solutions.
- Growing demand for safety and security features in automobiles, which is expected to fuel the growth of the in-vehicle networking market.
- Rising demand for infotainment systems and advanced driver assistance systems (ADAS) in automobiles, which is likely to boost the growth of the market during the forecast period.
Scope Of The Report
Report Attributes
Report Details
Report Title
In-Vehicle Networking Market Research Report
By Type
CAN, LIN, FlexRay, RF, Ethernet
By Application
Passenger Car, Commercial Vehicle
By Companies
NXP SEMICONDUCTORS, INFINEON TECHNOLOGIES, TEXAS INSTRUMENTS INCORPORATED, ROBERT BOSCH, XILINX, STMICROELECTRONICS, ATMEL, MICROCHIP TECHNOLOGY, MELEXIS, ELMOS SEMICONDUSTOR
Regions Covered
North America, Europe, APAC, Latin America, MEA
Base Year
2021
Historical Year
2019 to 2020 (Data from 2010 can be provided as per availability)
Forecast Year
2030
Number of Pages
232
Number of Tables & Figures
163
Customization Available
Yes, the report can be customized as per your need.
Global In-Vehicle Networking Market Report Segments:
The global In-Vehicle Networking market is segmented on the basis of:
Types
CAN, LIN, FlexRay, RF, Ethernet
The product segment provides information about the market share of each product and the respective CAGR during the forecast period. It lays out information about the product pricing parameters, trends, and profits that provides in-depth insights of the market. Furthermore, it discusses latest product developments & innovation in the market.
Applications
Passenger Car, Commercial Vehicle
The application segment fragments various applications of the product and provides information on the market share and growth rate of each application segment. It discusses the potential future applications of the products and driving and restraining factors of each application segment.
Some of the companies that are profiled in this report are:
- NXP SEMICONDUCTORS
- INFINEON TECHNOLOGIES
- TEXAS INSTRUMENTS INCORPORATED
- ROBERT BOSCH
- XILINX
- STMICROELECTRONICS
- ATMEL
- MICROCHIP TECHNOLOGY
- MELEXIS
- ELMOS SEMICONDUSTOR
Highlights of The In-Vehicle Networking Market Report:
- The market structure and projections for the coming years.
- Drivers, restraints, opportunities, and current trends of market.
- Historical data and forecast.
- Estimations for the forecast period 2030.
- Developments and trends in the market.
- By Type:
- CAN
- LIN
- FlexRay
- RF
- Ethernet
- By Application:
- Passenger Car
- Commercial Vehicle
- Market scenario by region, sub-region, and country.
- Market share of the market players, company profiles, product specifications, SWOT analysis, and competitive landscape.
- Analysis regarding upstream raw materials, downstream demand, and current market dynamics.
- Government Policies, Macro & Micro economic factors are also included in the report.
We have studied the In-Vehicle Networking Market in 360 degrees via. both primary & secondary research methodologies. This helped us in building an understanding of the current market dynamics, supply-demand gap, pricing trends, product preferences, consumer patterns & so on. The findings were further validated through primary research with industry experts & opinion leaders across countries. The data is further compiled & validated through various market estimation & data validation methodologies. Further, we also have our in-house data forecasting model to predict market growth up to 2030.
Regional Analysis
- North America
- Europe
- Asia Pacific
- Middle East & Africa
- Latin America
Note: A country of choice can be added in the report at no extra cost. If more than one country needs to be added, the research quote will vary accordingly.
The geographical analysis part of the report provides information about the product sales in terms of volume and revenue in regions. It lays out potential opportunities for the new entrants, emerging players, and major players in the region. The regional analysis is done after considering the socio-economic factors and government regulations of the countries in the regions.
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8 Reasons to Buy This Report
- Includes a Chapter on the Impact of COVID-19 Pandemic On the Market
- Report Prepared After Conducting Interviews with Industry Experts & Top Designates of the Companies in the Market
- Implemented Robust Methodology to Prepare the Report
- Includes Graphs, Statistics, Flowcharts, and Infographics to Save Time
- Industry Growth Insights Provides 24/5 Assistance Regarding the Doubts in the Report
- Provides Information About the Top-winning Strategies Implemented by Industry Players.
- In-depth Insights On the Market Drivers, Restraints, Opportunities, and Threats
- Customization of the Report Available
Frequently Asked Questions?
In-vehicle networking is a technology that allows vehicles to communicate with each other and with the infrastructure around them. This can be used for a variety of purposes, including sharing information about the vehicle's location, status, and surroundings; communicating with other vehicles or devices in the vicinity; and controlling various functions of the vehicle. In-vehicle networking can also be used to provide drivers with real-time updates about traffic conditions or weather conditions in their vicinity.
Some of the major players in the in-vehicle networking market are NXP SEMICONDUCTORS, INFINEON TECHNOLOGIES, TEXAS INSTRUMENTS INCORPORATED, ROBERT BOSCH, XILINX, STMICROELECTRONICS, ATMEL, MICROCHIP TECHNOLOGY, MELEXIS, ELMOS SEMICONDUSTOR.
The in-vehicle networking market is expected to grow at a compound annual growth rate of 10.5%.
1. Executive Summary
2. Assumptions and Acronyms Used
3. Research Methodology
4. In-Vehicle Networking Market Overview
4.1. Introduction
4.1.1. Market Taxonomy
4.1.2. Market Definition
4.2. Macro-Economic Factors
4.2.1. Industry Outlook
4.3. In-Vehicle Networking Market Dynamics
4.3.1. Market Drivers
4.3.2. Market Restraints
4.3.3. Opportunity
4.3.4. Market Trends
4.4. In-Vehicle Networking Market - Supply Chain
4.5. Global In-Vehicle Networking Market Forecast
4.5.1. In-Vehicle Networking Market Size (US$ Mn) and Y-o-Y Growth
4.5.2. In-Vehicle Networking Market Size (000 Units) and Y-o-Y Growth
4.5.3. In-Vehicle Networking Market Absolute $ Opportunity
5. Global In-Vehicle Networking Market Analysis and Forecast by Type
5.1. Market Trends
5.2. Introduction
5.2.1. Basis Point Share (BPS) Analysis by Type
5.2.2. Y-o-Y Growth Projections by Type
5.3. In-Vehicle Networking Market Size and Volume Forecast by Type
5.3.1. CAN
5.3.2. LIN
5.3.3. FlexRay
5.3.4. RF
5.3.5. Ethernet
5.4. Absolute $ Opportunity Assessment by Type
5.5. Market Attractiveness/Growth Potential Analysis by Type
6. Global In-Vehicle Networking Market Analysis and Forecast by Application
6.1. Market Trends
6.2. Introduction
6.2.1. Basis Point Share (BPS) Analysis by Application
6.2.2. Y-o-Y Growth Projections by Application
6.3. In-Vehicle Networking Market Size and Volume Forecast by Application
6.3.1. Passenger Car
6.3.2. Commercial Vehicle
6.4. Absolute $ Opportunity Assessment by Application
6.5. Market Attractiveness/Growth Potential Analysis by Application
7. Global In-Vehicle Networking Market Analysis and Forecast by Sales Channel
7.1. Market Trends
7.2. Introduction
7.2.1. Basis Point Share (BPS) Analysis by Sales Channel
7.2.2. Y-o-Y Growth Projections by Sales Channel
7.3. In-Vehicle Networking Market Size and Volume Forecast by Sales Channel
7.3.1. Manufacturer/Distributor/Service Provider
7.3.2. Aftermarket
7.4. Absolute $ Opportunity Assessment by Sales Channel
7.5. Market Attractiveness/Growth Potential Analysis by Sales Channel
8. Global In-Vehicle Networking Market Analysis and Forecast by Region
8.1. Market Trends
8.2. Introduction
8.2.1. Basis Point Share (BPS) Analysis by Region
8.2.2. Y-o-Y Growth Projections by Region
8.3. In-Vehicle Networking Market Size and Volume Forecast by Region
8.3.1. North America
8.3.2. Latin America
8.3.3. Europe
8.3.4. Asia Pacific
8.3.5. Middle East and Africa (MEA)
8.4. Absolute $ Opportunity Assessment by Region
8.5. Market Attractiveness/Growth Potential Analysis by Region
8.6. Global In-Vehicle Networking Demand Share Forecast, 2019-2026
9. North America In-Vehicle Networking Market Analysis and Forecast
9.1. Introduction
9.1.1. Basis Point Share (BPS) Analysis by Country
9.1.2. Y-o-Y Growth Projections by Country
9.2. North America In-Vehicle Networking Market Size and Volume Forecast by Country
9.2.1. U.S.
9.2.2. Canada
9.3. Absolute $ Opportunity Assessment by Country
9.4. North America In-Vehicle Networking Market Size and Volume Forecast by Application
9.4.1. Passenger Car
9.4.2. Commercial Vehicle
9.5. Basis Point Share (BPS) Analysis by Application
9.6. Y-o-Y Growth Projections by Application
9.7. North America In-Vehicle Networking Market Size and Volume Forecast by Type
9.7.1. CAN
9.7.2. LIN
9.7.3. FlexRay
9.7.4. RF
9.7.5. Ethernet
9.8. Basis Point Share (BPS) Analysis by Type
9.9. Y-o-Y Growth Projections by Type
9.10. Market Attractiveness/Growth Potential Analysis
9.10.1. By Country
9.10.2. By Product Type
9.10.3. By Application
9.10.4. By Sales Channel
9.11. North America In-Vehicle Networking Demand Share Forecast, 2019-2026
10. Latin America In-Vehicle Networking Market Analysis and Forecast
10.1. Introduction
10.1.1. Basis Point Share (BPS) Analysis by Country
10.1.2. Y-o-Y Growth Projections by Country
10.1.3. Latin America Average Pricing Analysis
10.2. Latin America In-Vehicle Networking Market Size and Volume Forecast by Country
10.2.1. Brazil
10.2.2. Mexico
10.2.3. Rest of Latin America
10.3. Absolute $ Opportunity Assessment by Country
10.4. Latin America In-Vehicle Networking Market Size and Volume Forecast by Application
10.4.1. Passenger Car
10.4.2. Commercial Vehicle
10.5. Basis Point Share (BPS) Analysis by Application
10.6. Y-o-Y Growth Projections by Application
10.7. Latin America In-Vehicle Networking Market Size and Volume Forecast by Type
10.7.1. CAN
10.7.2. LIN
10.7.3. FlexRay
10.7.4. RF
10.7.5. Ethernet
10.8. Basis Point Share (BPS) Analysis by Type
10.9. Y-o-Y Growth Projections by Type
10.10. Market Attractiveness/Growth Potential Analysis
10.10.1. By Country
10.10.2. By Product Type
10.10.3. By Application
10.10.4. By Sales Channel
10.11. Latin America In-Vehicle Networking Demand Share Forecast, 2019-2026
11. Europe In-Vehicle Networking Market Analysis and Forecast
11.1. Introduction
11.1.1. Basis Point Share (BPS) Analysis by Country
11.1.2. Y-o-Y Growth Projections by Country
11.1.3. Europe Average Pricing Analysis
11.2. Europe In-Vehicle Networking Market Size and Volume Forecast by Country
11.2.1. Germany
11.2.2. France
11.2.3. Italy
11.2.4. U.K.
11.2.5. Spain
11.2.6. Russia
11.2.7. Rest of Europe
11.3. Absolute $ Opportunity Assessment by Country
11.4. Europe In-Vehicle Networking Market Size and Volume Forecast by Application
11.4.1. Passenger Car
11.4.2. Commercial Vehicle
11.5. Basis Point Share (BPS) Analysis by Application
11.6. Y-o-Y Growth Projections by Application
11.7. Europe In-Vehicle Networking Market Size and Volume Forecast by Type
11.7.1. CAN
11.7.2. LIN
11.7.3. FlexRay
11.7.4. RF
11.7.5. Ethernet
11.8. Basis Point Share (BPS) Analysis by Type
11.9. Y-o-Y Growth Projections by Type
11.10. Market Attractiveness/Growth Potential Analysis
11.10.1. By Country
11.10.2. By Product Type
11.10.3. By Application
11.10.4. By Sales Channel
11.11. Europe In-Vehicle Networking Demand Share, 2019-2026
12. Asia Pacific In-Vehicle Networking Market Analysis and Forecast
12.1. Introduction
12.1.1. Basis Point Share (BPS) Analysis by Country
12.1.2. Y-o-Y Growth Projections by Country
12.1.3. Asia Pacific Average Pricing Analysis
12.2. Asia Pacific In-Vehicle Networking Market Size and Volume Forecast by Country
12.2.1. China
12.2.2. Japan
12.2.3. South Korea
12.2.4. India
12.2.5. Australia
12.2.6. Rest of Asia Pacific (APAC)
12.3. Absolute $ Opportunity Assessment by Country
12.4. Asia Pacific In-Vehicle Networking Market Size and Volume Forecast by Application
12.4.1. Passenger Car
12.4.2. Commercial Vehicle
12.5. Basis Point Share (BPS) Analysis by Application
12.6. Y-o-Y Growth Projections by Application
12.7. Asia Pacific In-Vehicle Networking Market Size and Volume Forecast by Type
12.7.1. CAN
12.7.2. LIN
12.7.3. FlexRay
12.7.4. RF
12.7.5. Ethernet
12.8. Basis Point Share (BPS) Analysis by Type
12.9. Y-o-Y Growth Projections by Type
12.10. Market Attractiveness/Growth Potential Analysis
12.10.1. By Country
12.10.2. By Product Type
12.10.3. By Application
12.10.4. By Sales Channel
12.11. Asia Pacific In-Vehicle Networking Demand Share, 2019-2026
13. Middle East & Africa In-Vehicle Networking Market Analysis and Forecast
13.1. Introduction
13.1.1. Basis Point Share (BPS) Analysis by Country
13.1.2. Y-o-Y Growth Projections by Country
13.1.3. Asia Pacific Average Pricing Analysis
13.2. Middle East & Africa In-Vehicle Networking Market Size and Volume Forecast by Country
13.2.1. Saudi Arabia
13.2.2. South Africa
13.2.3. UAE
13.2.4. Rest of Middle East & Africa (MEA)
13.3. Absolute $ Opportunity Assessment by Country
13.4. Middle East & Africa In-Vehicle Networking Market Size and Volume Forecast by Application
13.4.1. Passenger Car
13.4.2. Commercial Vehicle
13.5. Basis Point Share (BPS) Analysis by Application
13.6. Y-o-Y Growth Projections by Application
13.7. Middle East & Africa In-Vehicle Networking Market Size and Volume Forecast by Type
13.7.1. CAN
13.7.2. LIN
13.7.3. FlexRay
13.7.4. RF
13.7.5. Ethernet
13.8. Basis Point Share (BPS) Analysis by Type
13.9. Y-o-Y Growth Projections by Type
13.10. Market Attractiveness/Growth Potential Analysis
13.10.1. By Country
13.10.2. By Product Type
13.10.3. By Application
13.10.4. By Sales Channel
13.11. Middle East & Africa In-Vehicle Networking Demand Share, 2019-2026
14. Competition Landscape
14.1. Global In-Vehicle Networking Market: Market Share Analysis
14.2. In-Vehicle Networking Distributors and Customers
14.3. In-Vehicle Networking Market: Competitive Dashboard
14.4. Company Profiles (Details Overview, Financials, Developments, Strategy)
14.4.1. NXP SEMICONDUCTORS
14.4.1.1. Overview
14.4.1.2. Financials
14.4.1.3. Developments
14.4.1.4. Strategic Outlook
14.4.2. INFINEON TECHNOLOGIES
14.4.2.1. Overview
14.4.2.2. Financials
14.4.2.3. Developments
14.4.2.4. Strategic Outlook
14.4.3. TEXAS INSTRUMENTS INCORPORATED
14.4.3.1. Overview
14.4.3.2. Financials
14.4.3.3. Developments
14.4.3.4. Strategic Outlook
14.4.4. ROBERT BOSCH
14.4.4.1. Overview
14.4.4.2. Financials
14.4.4.3. Developments
14.4.4.4. Strategic Outlook
14.4.5. XILINX
14.4.5.1. Overview
14.4.5.2. Financials
14.4.5.3. Developments
14.4.5.4. Strategic Outlook
14.4.6. STMICROELECTRONICS
14.4.6.1. Overview
14.4.6.2. Financials
14.4.6.3. Developments
14.4.6.4. Strategic Outlook
14.4.7. ATMEL
14.4.7.1. Overview
14.4.7.2. Financials
14.4.7.3. Developments
14.4.7.4. Strategic Outlook
14.4.8. MICROCHIP TECHNOLOGY
14.4.8.1. Overview
14.4.8.2. Financials
14.4.8.3. Developments
14.4.8.4. Strategic Outlook
14.4.9. MELEXIS
14.4.9.1. Overview
14.4.9.2. Financials
14.4.9.3. Developments
14.4.9.4. Strategic Outlook
14.4.10. ELMOS SEMICONDUSTOR
14.4.10.1. Overview
14.4.10.2. Financials
14.4.10.3. Developments
14.4.10.4. Strategic Outlook
14.4.11. COMPANY 11
14.4.11.1. Overview
14.4.11.2. Financials
14.4.11.3. Developments
14.4.11.4. Strategic Outlook
14.4.12. COMPANY 12
14.4.12.1. Overview
14.4.12.2. Financials
14.4.12.3. Developments
14.4.12.4. Strategic Outlook
14.4.13. COMPANY 13
14.4.13.1. Overview
14.4.13.2. Financials
14.4.13.3. Developments
14.4.13.4. Strategic Outlook
14.4.14. COMPANY 14
14.4.14.1. Overview
14.4.14.2. Financials
14.4.14.3. Developments
14.4.14.4. Strategic Outlook
14.4.15. COMPANY 15
14.4.15.1. Overview
14.4.15.2. Financials
14.4.15.3. Developments
14.4.15.4. Strategic Outlook
14.4.16. COMPANY 16
14.4.16.1. Overview
14.4.16.2. Financials
14.4.16.3. Developments
14.4.16.4. Strategic Outlook
14.4.17. COMPANY 17
14.4.17.1. Overview
14.4.17.2. Financials
14.4.17.3. Developments
14.4.17.4. Strategic Outlook
14.4.18. COMPANY 18
14.4.18.1. Overview
14.4.18.2. Financials
14.4.18.3. Developments
14.4.18.4. Strategic Outlook
14.4.19. COMPANY 19
14.4.19.1. Overview
14.4.19.2. Financials
14.4.19.3. Developments
14.4.19.4. Strategic Outlook
14.4.20. COMPANY 20
14.4.20.1. Overview
14.4.20.2. Financials
14.4.20.3. Developments
14.4.20.4. Strategic Outlook