Vehicle-to-Everything Technologies for Connected Cars

  • ID: 4391696
  • Report
  • Region: Global
  • 73 Pages
  • Frost & Sullivan
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DSRC Technology Will Drive Opportunities for Connected Cars

Advancements in wireless communication technologies, sensor fusion, imaging technologies, Big Data, and analytics have created opportunities for automotive manufacturers to discover a wide range of solutions for multiple applications. Miniaturization of electronic components, advancements in navigation, and adoption of smart devices is expected to fuel advancements in the vehicle-to-everything (V2X) communications industry.

Vehicle-to-everything (V2X) communication is be expected to be pivotal in the development of Internet of Things (IoT). Connected cars in the long term can be expected to interact not only among themselves, but also with the environment around, thereby leading to various forms of vehicular communication. Though government initiatives, evolving ADAS (advanced driver assistance systems) applications, and technology advancements may drive opportunities, high initial investment and lack of suitable infrastructure are some of the key factors that hinder widespread adoption.

This research service focuses on capturing applications of vehicle-to-vehicle (V2V) and V2X. It also accesses communication technologies, which would be suitable for V2X communication based on cost analysis.

Key questions addressed in the research service:

  • What are the various applications of V2V and vehicle-to-infrastructure (V2I)?
  • What are the different types of communication technologies that can be adopted in V2X?
  • What are the factors influencing adoption of V2X communication?
  • What is the suitable communication technology for V2X communication?
  • What is the application pipeline for V2X communication?
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1. Executive Summary
1.1 Research Scope
1.2 Research Methodology
1.3 Research Methodology Explained
1.4 Key Findings - Significance of Connected Cars
1.5 Key Findings - Key Connected Car Technologies - V2V and V2I Applications can Significantly Reduce Collisions
1.6 Key Findings - DSRC and Cellular Technologies are Key Communication Technologies for V2X
1.7 Key Findings - Future Opportunities

2. Significance and Key Technologies
2.1 Potentially Disruptive Mega Trends - Significance of Connectivity and Future of Mobility from CEO’s Perspective
2.2 V2X in Connected Cars will Reduce Automotive Collision
2.3 Connected Car - Device on Wheels
2.4 The Three Big Impact of Connected Cars
2.5 V2V and V2I Together will Lead to Zero Accidents
2.6 Key Technologies Enabling Connected Cars

3. Key V2V and V2I Applications
3.1 Key Vehicle-to-Vehicle enabled Applications
3.2 Key Vehicle-to-Infrastructure enabled Applications

4. Impact Assessment of Factors Influencing Development and Adoption - Drivers and Challenges
4.1 Regulations, Industry Consolidation, Technology Advancements, and Increasing Needs Drives Development and Adoption
4.2 Government and Regulatory Agencies are Driving Implementation of Connected Cars
4.3 Industry Consortiums are Driving Developments
4.4 High Level of Competition is Accelerating Innovations
4.5 Need of ADAS Bolstering V2X Development Initiatives
4.6 Data Security, Lack of Infrastructure, Acquisition Cost, and Ambiguity over Communication Technologies are Key Challenges
4.7 Threat to Data Security is the Biggest Concern in the V2X Industry
4.8 Implementation Cost can hinder Wide scale Adoption

5. Key Technologies Enabling Vehicle-to-everything Communication
5.1 VANET Communication Technologies
5.2 Significance of DSRC
5.3 Significance of C-V2X
5.4 Technology Competence Assessment of DSRC and Cellular Technologies

6. Cost Analysis of Suitable Vehicle-to-everything Communication Technologies
6.1 Assessment of Cost for Deploying V2V Technologies
6.2 Overall Cost of Deploying Connected Cars is Low for DSRC
6.3 Cost Assumptions and Estimation Explanation of Cellular, DSRC, and Hybrid Communication Technologies
6.4 Communication Data Costs is Observed to be Lowest for DSRC
6.5 Analyst Point of View - Communication Costs

7. Industry Initiatives
7.1 Key Global Industry Initiatives by Automotive OEMs
7.2 Automotive OEMs to offer V2X for improving safety
7.3 Recent Industry Partnerships and Collaborations

8. Region-wise Impact Assessment
8.1 Government initiatives encourage V2X adoption in the region
8.2 Consortiums and partnerships spur technology advancement
8.3 Telecommunication providers show keen interest to enter V2X communication market

9. Applications Roadmap
9.1 Connected Car Applications Roadmap
9.2 Future trends are geared toward Autonomous drivability

10. Strategic Moves of Stakeholders
10.1 Key Stakeholders Associated with V2X Communication
10.2 Strategies to be Adopted by V2X Stakeholders

11. Growth Opportunities
11.1 Convergence Scenario: Autonomous Drive Correction
11.2 Growth Opportunities for Stakeholders
11.3 V2X leads to new business models and strategic partnerships
11.4 Key Strategic Questions from CEO’s Perspective

12. Industry Contacts

13. Legal Disclaimer

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