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Insights on the In-Vehicle Networking Global Market to 2027 - Growing Demand for Hybrid and Electric Vehicles Presents Opportunities

·7-min read
Company Logo
Company Logo

Global In-Vehicle Networking Market

Global In-Vehicle Networking Market
Global In-Vehicle Networking Market

Dublin, June 07, 2022 (GLOBE NEWSWIRE) -- The "Global In-Vehicle Networking Market (2022-2027) by Connectivity Standard, Vehicle Type, Application, Geography, Competitive Analysis and the Impact of Covid-19 with Ansoff Analysis" report has been added to ResearchAndMarkets.com's offering.

The Global In-Vehicle Networking Market is estimated to be USD 1.26 Bn in 2022 and is projected to reach USD 2.05 Bn by 2027, growing at a CAGR of 10.21%.

Market dynamics are forces that impact the prices and behaviors of the Global In-Vehicle Networking Market stakeholders. These forces create pricing signals which result from the changes in the supply and demand curves for a given product or service. Forces of Market Dynamics may be related to macro-economic and micro-economic factors. There are dynamic market forces other than price, demand, and supply. Human emotions can also drive decisions, influence the market, and create price signals.

As the market dynamics impact the supply and demand curves, decision-makers aim to determine the best way to use various financial tools to stem various strategies for speeding the growth and reducing the risks.

Company Profiles

The report provides a detailed analysis of the competitors in the market. It covers the financial performance analysis for the publicly listed companies in the market. The report also offers detailed information on the companies' recent development and competitive scenario. Some of the companies covered in this report are Atmel Corp, Elmos Semicondustor AG, Infineon Technologies AG, Melexis NV, Microchip Technology Inc, NXP Semiconductors NV, On Semiconductor Corp, Robert Bosch GmbH, Sierra Wireless Inc, STMicroelectronics NV, Texas Instruments Inc, Xilinx Inc, Cisco Systems Inc, Continental AG, etc.

Countries Studied

  • America (Argentina, Brazil, Canada, Chile, Colombia, Mexico, Peru, United States, Rest of Americas)

  • Europe (Austria, Belgium, Denmark, Finland, France, Germany, Italy, Netherlands, Norway, Poland, Russia, Spain, Sweden, Switzerland, United Kingdom, Rest of Europe)

  • Middle-East and Africa (Egypt, Israel, Qatar, Saudi Arabia, South Africa, United Arab Emirates, Rest of MEA)

  • Asia-Pacific (Australia, Bangladesh, China, India, Indonesia, Japan, Malaysia, Philippines, Singapore, South Korea, Sri Lanka, Thailand, Taiwan, Rest of Asia-Pacific)

Competitive Quadrant

The report includes Competitive Quadrant, a proprietary tool to analyze and evaluate the position of companies based on their Industry Position score and Market Performance score. The tool uses various factors for categorizing the players into four categories. Some of these factors considered for analysis are financial performance over the last 3 years, growth strategies, innovation score, new product launches, investments, growth in market share, etc.

Ansoff Analysis

The report presents a detailed Ansoff matrix analysis for the Global In-Vehicle Networking Market. Ansoff Matrix, also known as Product/Market Expansion Grid, is a strategic tool used to design strategies for the growth of the company. The matrix can be used to evaluate approaches in four strategies viz. Market Development, Market Penetration, Product Development and Diversification. The matrix is also used for risk analysis to understand the risk involved with each approach.

The analyst analyses the Global In-Vehicle Networking Market using the Ansoff Matrix to provide the best approaches a company can take to improve its market position.

Based on the SWOT analysis conducted on the industry and industry players, The analyst has devised suitable strategies for market growth.

Why buy this report?

  • The report offers a comprehensive evaluation of the Global In-Vehicle Networking Market. The report includes in-depth qualitative analysis, verifiable data from authentic sources, and projections about market size. The projections are calculated using proven research methodologies.

  • The report has been compiled through extensive primary and secondary research. The primary research is done through interviews, surveys, and observation of renowned personnel in the industry.

  • The report includes an in-depth market analysis using Porter's 5 forces model and the Ansoff Matrix. In addition, the impact of Covid-19 on the market is also featured in the report.

  • The report also includes the regulatory scenario in the industry, which will help you make a well-informed decision. The report discusses major regulatory bodies and major rules and regulations imposed on this sector across various geographies.

  • The report also contains the competitive analysis using Positioning Quadrants, the analyst's Proprietary competitive positioning tool.

Key Topics Covered:

1 Report Description

2 Research Methodology

3 Executive Summary

4 Market Dynamics
4.1 Drivers
4.1.1 Rising Vehicle Production across the Globe
4.1.2 Increase in the Use of Electronics in Vehicles
4.1.3 Growing Demand for Advanced Safety, Convenience, and Comfort Systems
4.1.4 Increasing Focus on Reducing Co2 Emission in Vehicles
4.2 Restraints
4.2.1 Intense Pricing Pressure From Low-End Cars and Emerging Markets
4.3 Opportunities
4.3.1 Growing Demand for Hybrid and Electric Vehicles
4.4 Challenges
4.4.1 Miniaturization of Networking Components

5 Market Analysis
5.1 Regulatory Scenario
5.2 Porter's Five Forces Analysis
5.3 Impact of COVID-19
5.4 Ansoff Matrix Analysis

6 Global In-Vehicle Networking Market, By Connectivity Standard
6.1 Introduction
6.2 Controller Area Network (CAN)
6.3 Local Interconnect Network (LIN)
6.4 Flexray
6.5 Radio-Frequency (RF)
6.6 Ethernet
6.7 Media Oriented Systems Transport (MOST)

7 Global In-Vehicle Networking Market, By Vehicle Type
7.1 Introduction
7.2 Passenger Cars
7.3 Light Commercial Vehicles (LCVS)
7.4 Heavy Commercial Vehicles (HCVS)
7.5 Automated Guided Vehicles (AGV)

8 Global In-Vehicle Networking Market, By Application
8.1 Introduction
8.2 Powertrain
8.3 Safety
8.4 Body Electronics
8.5 Chassis
8.6 Infotainment

9 Americas' Global In-Vehicle Networking Market
9.1 Introduction
9.2 Argentina
9.3 Brazil
9.4 Canada
9.5 Chile
9.6 Colombia
9.7 Mexico
9.8 Peru
9.9 United States
9.10 Rest of Americas

10 Europe's Global In-Vehicle Networking Market
10.1 Introduction
10.2 Austria
10.3 Belgium
10.4 Denmark
10.5 Finland
10.6 France
10.7 Germany
10.8 Italy
10.9 Netherlands
10.10 Norway
10.11 Poland
10.12 Russia
10.13 Spain
10.14 Sweden
10.15 Switzerland
10.16 United Kingdom
10.17 Rest of Europe

11 Middle East and Africa's Global In-Vehicle Networking Market
11.1 Introduction
11.2 Egypt
11.3 Israel
11.4 Qatar
11.5 Saudi Arabia
11.6 South Africa
11.7 United Arab Emirates
11.8 Rest of MEA

12 APAC's Global In-Vehicle Networking Market
12.1 Introduction
12.2 Australia
12.3 Bangladesh
12.4 China
12.5 India
12.6 Indonesia
12.7 Japan
12.8 Malaysia
12.9 Philippines
12.10 Singapore
12.11 South Korea
12.12 Sri Lanka
12.13 Thailand
12.14 Taiwan
12.15 Rest of Asia-Pacific

13 Competitive Landscape
13.1 Competitive Quadrant
13.2 Market Share Analysis
13.3 Strategic Initiatives
13.3.1 M&A and Investments
13.3.2 Partnerships and Collaborations
13.3.3 Product Developments and Improvements

14 Company Profiles
14.1 Atmel Corp
14.2 Elmos Semicondustor AG
14.3 Infineon Technologies AG
14.4 Melexis NV
14.5 Microchip Technology Inc
14.6 NXP Semiconductors NV
14.7 On Semiconductor Corp
14.8 Robert Bosch GmbH
14.9 Sierra Wireless Inc
14.10 STMicroelectronics NV
14.11 Texas Instruments Inc
14.12 Xilinx Inc
14.13 Cisco Systems Inc
14.14 Continental AG
14.15 ElectRay Technologies Pvt Ltd
14.16 Embitel Technologies India Pvt Ltd
14.17 Renesas Electronics Corp

15 Appendix

For more information about this report visit https://www.researchandmarkets.com/r/b1j3cy

Attachment

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