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V2X Cybersecurity Market by Form (In-vehicle and External Cloud Services), Communication Type (V2I, V2V, V2G, and V2P), Security Framework (PKI and Embedded), Security type, Connectivity Type, Propulsion, Vehicle Type and Region - Forecast to 2030

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    Report

  • 269 Pages
  • February 2024
  • Region: Global
  • Markets and Markets
  • ID: 5130171
The global V2X cybersecurity market is projected to grow from USD 42 million in 2023 to USD 778 billion by 2030, at a CAGR of 51.3%. The growth of the V2X cybersecurity market is driven by the increasing demand for connected vehicles and the significant expansion of the automotive V2X market. Additionally, the surging sales of electric vehicles, supported by governmental initiatives promoting V2X technology, are expected to open up new opportunities for the V2X cybersecurity market.

V2V segment is expected to be the largest market during the forecast period, by communication

Vehicle-to-Vehicle (V2V) communication is a wireless interaction enabling vehicles to share information regarding their location, direction, and speed. This communication facilitates the exchange of omnidirectional messages, providing vehicles with a 360-degree awareness of nearby vehicles. V2V communication, currently utilizing Dedicated Short Range Communication (DSRC), operates within the 5.9 GHz spectrum with a range exceeding 300 meters. According to the US Department of Transportation, V2V technology has the potential to prevent around 615,000 motor vehicle crashes annually. V2V enhances safety warning capabilities, including forward collision warning (FCW), blind spot warning (BSW), lane changing warning (LCW), and do-not-pass warning (DNPW). Safety applications such as Intersection Movement Assist (IMA), Left Turn Assist (LTA), and Emergency Electronic Brake Light are achieved through V2V. The primary advantages of V2V communication include reduced traffic congestion, enhanced road safety, and streamlined vehicle flow. However, securing these communications poses challenges for cybersecurity solution providers. While V2V is instrumental in traffic optimization, unauthorized access or remote tampering by hackers can disrupt traffic conditions. Tampered information received by vehicles may compromise their safety features, particularly in vehicles with automatic driver assist features. To avert such scenarios, cybersecurity solution providers must prioritize the security of V2V communications.

Europe is expected to have significant growth during the forecast period

Europe emerges as a significant growth prospect for the V2X cybersecurity market, driven by stringent safety regulations and a rising demand for connected cars featuring V2X technologies. The market is anticipated to experience substantial growth in this region, supported by the automotive industry's inclination towards connected vehicles and recovery from the financial crisis. Germany is projected to be the fastest-growing market for connected cars and cybersecurity solutions, benefiting from the robust infrastructure and commitment of Original Equipment Manufacturers (OEMs) in the region. To bolster the competitiveness of the EU automotive sector and uphold global technological leadership, the European Commission promotes technological harmonization and allocates funds for Research and Development (R&D). The German automotive industry, renowned as a global innovation hub, contributes significantly to premium car production worldwide, with German OEMs manufacturing around 70% of premium cars globally. The region's extensive R&D landscape, technological prowess, and a wealth of automotive electronics-related study programs reinforce its dominance in connectivity, vehicle electronics, self-driving cars, and cybersecurity. The development of intelligent transportation systems further propels the V2X cybersecurity market in Europe. Prominent European vehicle manufacturers like Daimler AG and Volkswagen AG have integrated V2X technology into their vehicles. The European market benefits from the presence of key players in the V2X cybersecurity sector, including ESCRYPT GmbH, ID Quantique, and Altran, contributing to its growth throughout the forecast period.

Passenger car expected to be the largest segment in V2X cybersecurity market during the forecast period

Passenger cars, encompassing sedans, hatchbacks, station wagons, sports utility vehicles, multi-utility vehicles, and vans, constitute the largest vehicle segment in the global automotive industry and represent a highly promising market for automotive V2X. With a maximum authorized mass below 3.5 tons, this segment has witnessed rapid growth, particularly in developing countries like China and India. Leading automotive manufacturers are increasing their investments in these countries, leveraging available resources, cost-effective skilled labor, existing auto-ancillary businesses, and favorable government policies for production and trade. The susceptibility of V2X technologies in passenger cars to cyberattacks is notable, especially compared to commercial vehicles, owing to the prevalence of connected technology in passenger cars. In-vehicle communication systems, along with a broad array of external networks such as Wi-Fi and cellular connectivity, expose passenger cars to increased vulnerability to cyber threats. Connected passenger cars generate substantial data from diverse sources, engaging in interactions with other vehicles, exchanging data, and providing drivers with real-time updates. Additionally, these cars can communicate with road sensors, charging stations, and embedded road infrastructure (RSUs) for traffic updates and rerouting alerts. V2X-enabled passenger cars extend their communication to residences, offices, and smart devices, collecting a vast array of information. Consequently, the imperative for cybersecurity in passenger cars becomes paramount, particularly given the extensive transfer of V2V and V2I data. The escalating concerns over road accidents and traffic safety are anticipated to drive the adoption of advanced technologies such as Vehicle-to-Vehicle (V2V), Vehicle-to-Infrastructure (V2I), and Vehicle-to-Pedestrian (V2P). However, these communications remain vulnerable to cyberattacks as they involve the exchange of information with vehicles, pedestrians, and infrastructures, propelling the growth of the V2X cybersecurity market.

In-depth interviews were conducted with CEOs, marketing directors, other innovation and technology directors, and executives from various key organizations operating in this market.
  • By Company Type: OEMs - 21%, Tier I - 31%, and Tier II - 48%
  • By Designation: CXOs - 40%, Directors - 35%, and Others - 25%
  • By Region: North America - 30%, Europe - 50%, Asia-Pacific - 15%, and RoW - 5%
The V2X cybersecurity market is dominated by major players including ESCRYPT GmbH (Germany), Qualcomm Incorporated (US), Autotalks (Israel), AUTOCRYPT Co., Ltd. (Korea), and Continental AG (Germany). These companies have strong product portfolio as well as strong distribution networks at the global level.

Research Coverage

The report covers the V2X cybersecurity market, in terms of Connectivity (DSRC, and Cellular), Communication (V2V, V2I, V2P, and V2G), Vehicle Type (Passenger Cars, and Commercial Vehicles), Security Framework (PKI, and Embedded), Form (In-Vehicle, and External Cloud Services), Propulsion (Internal Combustion Engines, and Electric Vehicles), Security Type (Endpoint Security, Software Security, and Cloud Security), and Region (Asia-Pacific, Europe, North America, and Row). It covers the competitive landscape and company profiles of the major players in the V2X cybersecurity market ecosystem.

The study also includes an in-depth competitive analysis of the key players in the market, along with their company profiles, key observations related to product and business offerings, recent developments, and key market strategies.

Key Benefits of Buying the Report

  • The report will help market leaders/new entrants with information on the closest approximations of revenue numbers for the overall V2X cybersecurity market and its subsegments.
  • This report will help stakeholders understand the competitive landscape and gain more insights to position their businesses better and plan suitable go-to-market strategies.
  • The report also helps stakeholders understand the market pulse and provides information on key market drivers, restraints, challenges, and opportunities.
  • The report also helps stakeholders understand the current and future pricing trends of different V2X cybersecurity systems based on their capacity.

The report provides insight on the following pointers:

  • Analysis of key drivers (Large amount of data generated by vehicles and increasing cyberattacks, Significantly growing global automotive V2X market, Increasing demand for fully autonomous driving and safe vehicles, Reinforcement of mandates by regulatory bodies for vehicle data protection), restraints (Complex ecosystem with multiple stakeholders, Lack of infrastructure for proper functioning of V2X, Underdeveloped regulatory frameworks in V2X cybersecurity), challenges (Need for keeping up with continuous evolutions in V2X ecosystem, Legacy systems and cybersecurity mismatch), and opportunities (Increasing trend of connected and autonomous vehicle technologies prone to cyberattacks, Rising demand for electric vehicles, Specialized coverage for v2x cybersecurity challenges).
  • Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product & service launches in the automotive V2X market.
  • Market Development: Comprehensive information about lucrative markets - the report analyses the V2X cybersecurity market across varied regions.
  • Market Diversification: Exhaustive information about new products & services, untapped geographies, recent developments, and investments in the V2X cybersecurity market.
  • Competitive Assessment: In-depth assessment of market ranking, growth strategies, and service offerings of leading players like ESCRYPT GmbH (Germany), Qualcomm Incorporated (US), Autotalks (Israel), AUTOCRYPT Co., Ltd. (Korea), and Continental AG (Germany) among others in V2X cybersecurity market.

Table of Contents

1 Introduction
1.1 Study Objectives
1.2 Market Definition
Table 1 Market Definition, by Communication
Table 2 Market Definition, by Vehicle Type
Table 3 Market Definition, by Connectivity
Table 4 Market Definition, by Propulsion
Table 5 Market Definition, by Security Framework
Table 6 Market Definition, by Security Form
Table 7 Market Definition, by Security Type
1.2.1 Inclusions and Exclusions
Table 8 Inclusions and Exclusions
1.3 Study Scope
1.3.1 Markets Covered
Figure 1 V2X Cybersecurity Market Segmentation
1.3.2 Regions Covered
1.3.3 Years Considered
1.4 Currency Considered
Table 9 Currency Exchange Rates
1.5 Stakeholders
1.6 Summary of Changes
2 Research Methodology
2.1 Research Data
Figure 2 Research Design
Figure 3 Research Design Model
2.1.1 Secondary Data
2.1.1.1 Secondary Sources
2.1.1.2 Key Data from Secondary Sources
2.1.2 Primary Data
2.1.2.1 Primary Interviews from Demand and Supply Sides
2.1.2.2 Key Insights from Industry Experts
2.1.2.3 Breakdown of Primary Interviews
2.1.2.4 Primary Participants
2.2 Market Size Estimation
Figure 4 Research Methodology: Hypothesis Building
2.2.1 Bottom-Up Approach
Figure 5 Bottom-Up Approach
2.2.2 Top-Down Approach
Figure 6 Top-Down Approach
Figure 7 Market Size Estimation Notes
2.2.3 Recession Impact Analysis
Figure 8 Research Design and Methodology (Demand-Side)
2.3 Data Triangulation
Figure 9 Data Triangulation
2.4 Factor Analysis
2.4.1 Demand- and Supply-Side Factor Analysis
Figure 10 Factors Impacting V2X Cybersecurity Market
2.5 Research Assumptions
2.6 Research Limitations
3 Executive Summary
Table 10 C-V2X-Equipped Vehicles
Figure 11 V2X Cybersecurity Market Overview
Figure 12 V2X Cybersecurity Market, by Region, 2023-2030
Figure 13 Key Players in V2X Cybersecurity Market
Figure 14 V2X Cybersecurity Market, by Security Type, 2023-2030
4 Premium Insights
4.1 Attractive Opportunities for Players in V2X Cybersecurity Market
Figure 15 Increasing Inclination Toward Autonomous Mobility and Connected Car Technology
4.2 V2X Cybersecurity Market, by Region
Figure 16 Asia-Pacific to be Largest Market for V2X Cybersecurity During Forecast Period
4.3 V2X Cybersecurity Market, by Communication
Figure 17 V2V Segment to Hold Maximum Market Share in 2030
4.4 V2X Cybersecurity Market, by Connectivity
Figure 18 C-V2X to be Fastest-Growing Segment During Forecast Period
4.5 V2X Cybersecurity Market, by Propulsion
Figure 19 Electric to be Largest Segment During Forecast Period
4.6 V2X Cybersecurity Market, by Security Framework
Figure 20 Embedded Segment to Secure Leading Market Position During Forecast Period
4.7 V2X Cybersecurity Market, by Security Type
Figure 21 Software Security to Surpass Other Segments During Forecast Period
4.8 V2X Cybersecurity Market, by Vehicle Type
Figure 22 Passenger Cars to Acquire Largest Market Share in 2030
4.9 V2X Cybersecurity Market, by Form
Figure 23 In-Vehicle Segment to Dominate Market During Forecast Period
5 Market Overview
5.1 Introduction
Figure 24 Privacy Concerns in V2X Communication
Figure 25 Attack Vectors Against V2X Environment
5.2 Market Dynamics
Figure 26 V2X Cybersecurity Market Dynamics
5.2.1 Drivers
5.2.1.1 Rising Cyberattacks in Automotive Sector
Figure 27 Data from Autonomous Vehicles
5.2.1.2 Booming Global Automotive V2X Market
Figure 28 Key Elements of V2X
Figure 29 Classification of V2X Cybersecurity Threats
5.2.1.3 Advancements in Autonomous Vehicle Technologies
Figure 30 Vehicular Network Architecture
Table 11 Safety Facts Concerning V2X Communication
Figure 31 Road Traffic Injuries
5.2.1.4 Reinforcement of Mandates by Regulatory Bodies for Vehicle Data Protection
Figure 32 Cyber Vulnerabilities in Vehicular Ecosystem
Table 12 Base Standards for Security and Privacy in Etsi's Intelligent Transport Systems
5.2.2 Restraints
5.2.2.1 Complex Integration of V2X System Components
Figure 33 Impact of Cyberattacks on Various Stakeholders
5.2.2.2 Lack of Dedicated Infrastructure for V2X Communication in Emerging Economies
Figure 34 Population Coverage, by Mobile Network and Area, 2023
5.2.2.3 Underdeveloped Regulatory Frameworks for V2X Cybersecurity
5.2.3 Opportunities
5.2.3.1 Growing Trend of Connected and Autonomous Vehicle Technologies
Figure 35 Evolution of V2X Use Cases Toward Connected Cooperative Driving
Figure 36 Cyberattack Vectors Communication Framework
5.2.3.2 Rapid Adoption of Electric Vehicles
Table 13 Projects Undertaken by Various Companies for V2G and Vpp
5.2.3.3 Availability of Specialized Cyber Insurance Policies
5.2.4 Challenges
5.2.4.1 Rapidly Evolving V2X Ecosystem
Table 14 Vehicular Communication Technologies
5.2.4.2 Prevalence of Legacy Systems in Existing Vehicles
Figure 37 Structure of V2X as Cyber-Physical-Social System
5.2.5 Impact of Market Dynamics
Table 15 Impact of Market Dynamics
5.3 Supply Chain Analysis
Figure 38 Supply Chain Analysis
5.4 Key Stakeholders and Buying Criteria
5.4.1 Key Stakeholders in Buying Process
Figure 39 Influence of Stakeholders on Buying Process of V2X Cybersecurity
Table 16 Influence of Stakeholders on Buying Process of V2X Cybersecurity (%)
5.4.2 Buying Criteria
Figure 40 Key Buying Criteria for V2X Cybersecurity
Table 17 Key Buying Criteria for V2X Cybersecurity
5.5 V2X Cybersecurity Threats and Solutions
Table 18 Automotive Cybersecurity Threats and Solutions
5.5.1 Standards
Table 19 C-Its Standards
5.5.2 Services
Table 20 C-Its Services
5.5.3 Recent Developments
Table 21 Recent Developments, 2017-2023
5.5.4 European Telecommunications Standards Institute (Etsi)
Table 22 Etsi Standards
Figure 41 Sub-Bands of Original European Variant Its-G5
5.6 Technology Analysis
5.6.1 Introduction
5.6.2 Intelligent Transport System
Table 23 Traffic Simulators for V2X Communication
5.6.3 Cooperative Intelligent Transport System
Figure 42 Key Elements of C-Its
5.6.4 Cellular Vehicle-To-Everything
Figure 43 C-V2X Network Architecture
Figure 44 C-V2X Timeline with Features
Table 24 Cumulative Gain while Using 5G Nr (New Radio) C-V2X
5.6.5 Lte-V2X
Table 25 Comparison of Ieee802.11P and Lte-V2X
Figure 45 Vehicle Communication Modes
5.6.6 5G-V2X
Figure 46 Evolution of C-V2X Toward 5G Nr V2X
Figure 47 High-Speed Data and Performance Level
Table 26 Advancements in 5G Nr Over 4G Lte
Table 27 5G-V2X Use Case Performances
5.6.7 Blockchain Technology
Figure 48 Implementation of Blockchain Technology into Networking Stack
Figure 49 Services Provided by Blockchain to V2X Applications
5.6.8 Edge Computing
Figure 50 Implementation of Edge Computing into V2V Communication
5.6.9 6G-V2X
Figure 51 Critical Aspects of 6G-V2X
Figure 52 Benefits and Threats Introduced by AI/ML in V2X Security
Table 28 Comparison Between 6G and Other Cellular Technologies
5.6.10 Vehicle Security Operation Center
Figure 53 Vsoc Service
5.7 Ecosystem Mapping
Figure 54 Ecosystem Mapping
5.7.1 OEMs
5.7.2 Tier 1 Integrators
5.7.3 Technology Providers
5.7.4 Software Providers
5.7.5 Security Solution Providers
Table 29 Role of Companies in Ecosystem
5.8 Investment Scenario
Figure 55 Investment Scenario, 2020-2023
5.9 Developments in Automotive V2X Market, by OEM
5.9.1 Mercedes-Benz
5.9.2 BMW
5.9.3 Ford Motor Company
5.9.4 Byd
5.9.5 General Motors
5.9.6 Honda Motor Company
5.9.7 Geely
5.9.8 Hyundai
5.9.9 Mitsubishi Motors Corporation
5.9.10 Nio
5.9.11 Nissan Motor Co. Ltd.
5.9.12 Saic Motor
5.9.13 Volvo Cars
5.9.14 Toyota Motor Corporation
5.10 Key Characteristics of V2X Attacks
5.11 Security Assessment and Virtualization Platforms for V2X Communication
5.12 Trends and Disruptions Impacting Customers’ Businesses
Figure 56 Trends and Disruptions Impacting Customers’ Businesses
5.13 Patent Analysis
5.13.1 Introduction
Figure 57 Publication Trends, 2014-2023
5.13.2 Top Patent Applicants, 2014-2023
Figure 58 Top Patent Applicants, 2014-2023
Table 30 Patent Analysis
5.14 Case Studies
5.14.1 V2X Cybersecurity in China's C-Its Initiative
5.14.2 Savari's Success with Infineon's Ese Integration
5.14.3 V2X Communication in Thailand's Smart Transport
5.14.4 Pilot Project on San Diego Roadways
5.14.5 Marvell's 802.11Ax Solution for Security of Connected Vehicles
5.14.6 Rectification of Software Bugs in Fiat Chrysler's Vehicle Recall
5.14.7 Demonstration on Potential Cyber Threats by Guardknox
5.14.8 Detection of Cyber Threats with Arcran's Isecv Solution
5.15 Regulatory Landscape
Table 31 V2X Communication Regulations
Table 32 US and EU Specification Standards
Table 33 North America: Regulatory Bodies, Government Agencies, and Other Organizations
Table 34 Europe: Regulatory Bodies, Government Agencies, and Other Organizations
Table 35 Asia-Pacific: Regulatory Bodies, Government Agencies, and Other Organizations
5.16 Key Conference and Events, 2024-2025
Table 36 Key Conferences and Events, 2024-2025
6 Automotive V2X Market, by Connectivity
6.1 Introduction
Table 37 Dsrc vs. C-V2X
Table 38 Difference Between Dsrc and C-V2X
Figure 59 Automotive V2X Market, by Connectivity, 2023 vs. 2030 (Thousand Units)
Table 39 Automotive V2X Market, by Connectivity, 2019-2022 (Thousand Units)
Table 40 Automotive V2X Market, by Connectivity, 2023-2030 (Thousand Units)
6.1.1 Operational Data
Table 41 Companies Offering V2X Solutions, by Connectivity
Table 42 Use Cases and Quality of Service Requirements of V2X Applications
6.2 Dedicated Short-Range Communication (Dsrc)
6.2.1 Vulnerability to Cyberattacks to Drive Market
Table 43 Dsrc V2X Market, by Region, 2019-2022 (Thousand Units)
Table 44 Dsrc V2X Market, by Region, 2023-2030 (Thousand Units)
6.3 Cellular Vehicle-To-Everything (C-V2X)
6.3.1 Superior Efficiency and Safety to Drive Market
Figure 60 C-V2X Architecture
Figure 61 C-V2X Market Segmentation
Figure 62 C-V2X Solutions for Challenges Associated with Connected Vehicles
Table 45 Performance of Dsrc vs. C-V2X
Table 46 V2X Standards for Various Communication Ranges
Table 47 C-V2X Market, by Region, 2019-2022 (Thousand Units)
Table 48 C-V2X Market, by Region, 2023-2030 (Thousand Units)
6.4 Key Primary Insights
7 V2X Cybersecurity Market, by Communication
7.1 Introduction
Figure 63 V2V Cybersecurity Market, by Communication, 2023 vs. 2030 (USD Million)
Table 49 V2X Cybersecurity Market, by Communication, 2019-2022 (USD Million)
Table 50 V2X Cybersecurity Market, by Communication, 2023-2030 (USD Million)
7.1.1 Operational Data
Table 51 V2X Offerings, by Communication
Table 52 V2X Technologies, by Communication
7.2 Vehicle-To-Vehicle (V2V)
7.2.1 Improvements in Safety Warning Capabilities to Drive Market
Table 53 V2V Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 54 V2V Cybersecurity Market, by Region, 2023-2030 (USD Million)
7.3 Vehicle-To-Infrastructure (V2I)
7.3.1 Focus on Smart Infrastructure to Drive Market
Table 55 V2I Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 56 V2I Cybersecurity Market, by Region, 2023-2030 (USD Million)
7.4 Vehicle-To-Pedestrian (V2P)
7.4.1 Rise in Pedestrian Safety Concerns to Drive Market
Table 57 V2P Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 58 V2P Cybersecurity Market, by Region, 2023-2030 (USD Million)
7.5 Vehicle-To-Grid (V2G)
7.5.1 Operational Benefits of Two-Way Energy Exchange to Drive Market
Table 59 V2G Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 60 V2G Cybersecurity Market, by Region, 2023-2030 (USD Million)
7.6 Key Primary Insights
8 V2X Cybersecurity Market, by Vehicle Type
8.1 Introduction
Figure 64 Security Challenges in Road Transportation Networks
Figure 65 V2X Cybersecurity Market, by Vehicle Type, 2023 vs. 2030 (USD Million)
Table 61 V2X Cybersecurity Market, by Vehicle Type, 2019-2022 (USD Million)
Table 62 V2X Cybersecurity Market, by Vehicle Type, 2023-2030 (USD Million)
8.1.1 Operational Data
Table 63 V2X-Equipped Passenger Car Offerings
8.2 Passenger Cars
8.2.1 Growing Customer Demand for Connected Cars to Drive Market
Table 64 Passenger Cars: V2X Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 65 Passenger Cars: V2X Cybersecurity Market, by Region, 2023-2030 (USD Million)
8.3 Commercial Vehicles
8.3.1 V2X Deployment in Commercial Fleet Vehicles to Drive Market
Figure 66 Vehicle Platooning Attacks
Table 66 Commercial Vehicles: V2X Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 67 Commercial Vehicles: V2X Cybersecurity Market, by Region, 2023-2030 (USD Million)
8.4 Key Primary Insights
9 V2X Cybersecurity Market, by Security Framework
9.1 Introduction
Figure 67 V2X Cybersecurity Market, by Security Framework, 2023 vs. 2030 (USD Million)
Table 68 V2X Cybersecurity Market, by Security Framework, 2019-2022 (USD Million)
Table 69 V2X Cybersecurity Market, by Security Framework, 2023-2030 (USD Million)
9.1.1 Operational Data
Table 70 V2X Offerings for Embedded Security
9.2 Public Key Infrastructure (Pki)
9.2.1 Emphasis on Connected Vehicle Technology to Drive Market
Figure 68 Pki Framework for V2X
Figure 69 Pki-based V2X Security Solutions
Table 71 Pki: V2X Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 72 Pki: V2X Cybersecurity Market, by Region, 2023-2030 (USD Million)
9.3 Embedded
9.3.1 Safety Assurance in Connected Environments to Drive Market
Table 73 Embedded: V2X Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 74 Embedded: V2X Cybersecurity Market, by Region, 2023-2030 (USD Million)
9.4 Key Primary Insights
10 V2X Cybersecurity Market, by Form
10.1 Introduction
Figure 70 V2X Cybersecurity Market, by Form, 2023 vs. 2030 (USD Million)
Table 75 V2X Cybersecurity Market, by Form, 2019-2022 (USD Million)
Table 76 V2X Cybersecurity Market, by Form, 2023-2030 (USD Million)
10.1.1 Operational Data
Table 77 Companies Offering V2X Solutions, by Form
10.2 In-Vehicle
10.2.1 Rapid Development of V2X-Enabled Vehicles to Drive Market
Table 78 In-Vehicle: V2X Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 79 In-Vehicle: V2X Cybersecurity Market, by Region, 2023-2030 (USD Million)
10.3 External Cloud Service
10.3.1 Integration of 5G Network in Connected Vehicles to Drive Market
Figure 71 Cloud-based Solutions
Table 80 External Cloud Service: V2X Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 81 External Cloud Service: V2X Cybersecurity Market, by Region, 2023-2030 (USD Million)
10.4 Key Primary Insights
11 V2X Cybersecurity Market, by Propulsion
11.1 Introduction
Figure 72 V2X Cybersecurity Market, by Propulsion, 2023 vs. 2030 (USD Million)
Table 82 V2X Cybersecurity Market, by Propulsion, 2019-2022 (USD Million)
Table 83 V2X Cybersecurity Market, by Propulsion, 2023-2030 (USD Million)
11.1.1 Operational Data
Table 84 V2X Offerings, by Propulsion
11.2 Internal Combustion Engine (Ice)
11.2.1 Need for Cybersecurity in Advanced Automotive Technologies to Drive Market
Table 85 Ice: V2X Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 86 Ice: V2X Cybersecurity Market, by Region, 2023-2030 (USD Million)
11.3 Electric
11.3.1 Ease of V2X Adoption in EV Architecture to Drive Market
Table 87 Electric: V2X Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 88 Electric: V2X Cybersecurity Market, by Region, 2023-2030 (USD Million)
11.4 Key Primary Insights
12 V2X Cybersecurity Market, by Security Type
12.1 Introduction
Figure 73 V2X Cybersecurity Market, by Security Type, 2023 vs. 2030 (USD Million)
Table 89 V2X Cybersecurity Market, by Security Type, 2019-2022 (USD Million)
Table 90 V2X Cybersecurity Market, by Security Type, 2023-2030 (USD Million)
12.1.1 Operational Data
Table 91 Attack Vectors and Security Type Requirement
12.2 Endpoint Security
12.2.1 Growing V2V Deployment by OEMs for Enhanced Safety to Drive Market
Table 92 Endpoint Security Market, by Region, 2019-2022 (USD Million)
Table 93 Endpoint Security Market, by Region, 2023-2030 (USD Million)
12.3 Software Security
12.3.1 Rising Penetration of V2V and V2I Technologies to Drive Market
Table 94 Software Security Market, by Region, 2019-2022 (USD Million)
Table 95 Software Security Market, by Region, 2023-2030 (USD Million)
12.4 Cloud Security
12.4.1 Over-Reliance on Cloud-based Services to Drive Market
Table 96 Attack Feasibility Rating Based on Interface
Table 97 Cloud Security Market, by Region, 2019-2022 (USD Million)
Table 98 Cloud Security Market, by Region, 2023-2030 (USD Million)
12.5 Key Industry Insights
13 V2X Cybersecurity Market, by Region
13.1 Introduction
Table 99 V2X Short-Range Environment
Figure 74 V2X Cybersecurity Market, by Region, 2023 vs. 2030 (USD Million)
Table 100 V2X Cybersecurity Market, by Region, 2019-2022 (USD Million)
Table 101 V2X Cybersecurity Market, by Region, 2023-2030 (USD Million)
13.2 Asia-Pacific
Figure 75 Asia-Pacific: V2X Cybersecurity Market Snapshot
Table 102 Asia-Pacific: V2X Cybersecurity Market, by Country, 2019-2022 (USD Million)
Table 103 Asia-Pacific: V2X Cybersecurity Market, by Country, 2023-2030 (USD Million)
13.2.1 Recession Impact Analysis
13.2.2 China
13.2.2.1 Government Support and OEMs Shifting to C-V2X to Drive Market
Figure 76 China: C-V2X Timelines and Milestones, 2019-2025
13.2.3 Japan
13.2.3.1 Rising Adoption of V2X Technologies to Drive Market
13.2.4 South Korea
13.2.4.1 Technological Advancements to Drive Market
13.2.5 India
13.2.5.1 Plans to Equip V2X Technology in New-Generation Vehicles to Drive Market
13.3 Europe
Figure 77 Europe: V2X Cybersecurity Market, 2023 vs. 2030 (USD Million)
Table 104 Europe: V2X Cybersecurity Market, by Country, 2019-2022 (USD Million)
Table 105 Europe: V2X Cybersecurity Market, by Country, 2023-2030 (USD Million)
13.3.1 Recession Impact Analysis
13.3.2 Germany
13.3.2.1 Increase in C-V2X Trials and Tests to Drive Market
13.3.3 France
13.3.3.1 Government-Funded Projects for V2X Development to Drive Market
13.3.4 UK
13.3.4.1 Government Initiatives for Implementing V2X to Drive Market
13.3.5 Italy
13.3.5.1 Testing of V2X Technology for Platooning to Drive Market
13.3.6 Spain
13.3.6.1 Focus on 5G Infrastructure Development to Drive Market
13.4 North America
Figure 78 North America: V2X Cybersecurity Market Snapshot
Table 106 North America: V2X Cybersecurity Market, by Country, 2019-2022 (USD Million)
Table 107 North America: V2X Cybersecurity Market, by Country, 2023-2030 (USD Million)
13.4.1 Recession Impact Analysis
13.4.2 US
13.4.2.1 Increasing V2X Adoption by Leading OEMs to Drive Market
13.4.3 Canada
13.4.3.1 Presence of Innovative V2X Start-Ups to Drive Market
13.4.4 Mexico
13.4.4.1 Flourishing Automotive Sector to Drive Market
13.5 Rest of the World
Figure 79 Rest of the World: V2X Cybersecurity Market, 2023 vs. 2030 (USD Million)
Table 108 Rest of the World: V2X Cybersecurity Market, by Country, 2019-2022 (USD Million)
Table 109 Rest of the World: V2X Cybersecurity Market, by Country, 2023-2030 (USD Million)
13.5.1 Recession Impact Analysis
13.5.2 Brazil
13.5.2.1 Government Initiatives for Vehicle Safety to Drive Market
13.5.3 Argentina
13.5.3.1 Presence of Start-Ups Offering V2X Technology to Drive Market
14 Competitive Landscape
14.1 Overview
14.2 Strategies Adopted by Key Players, 2020-2023
Table 110 Strategies Adopted by Key Players, 2020-2023
14.3 Ranking Analysis, 2023
Figure 80 Market Ranking of Key Players, 2023
14.4 Revenue Analysis, 2018-2022
Figure 81 Revenue Analysis of Key Players, 2018-2022
14.5 Company Valuation and Financial Metrics
Figure 82 Company Valuation of Top Five Players
Figure 83 Financial Metrics of Top Five Players
14.6 Brand/Product Comparison
Table 111 Brand Comparison for V2X Cybersecurity
14.7 Company Evaluation Matrix, 2023
14.7.1 Stars
14.7.2 Emerging Leaders
14.7.3 Pervasive Players
14.7.4 Participants
Figure 84 Company Evaluation Matrix, 2023
14.7.5 Company Footprint
Table 112 Company Footprint, 2023
Table 113 Security Framework Footprint, 2023
Table 114 Region Footprint, 2023
14.8 Start-Up/SME Evaluation Matrix, 2023
14.8.1 Progressive Companies
14.8.2 Responsive Companies
14.8.3 Dynamic Companies
14.8.4 Starting Blocks
Figure 85 Start-Up/SME Evaluation Matrix, 2023
14.8.5 Competitive Benchmarking
Table 115 Key Start-Ups/SMEs
Table 116 Competitive Benchmarking of Key Start-Up/SMEs
14.9 Competitive Scenario
14.9.1 Product Launches/Developments
Table 117 V2X Cybersecurity Market: Product Launches/Developments, 2020-2023
14.9.2 Deals
Table 118 V2X Cybersecurity Market: Deals, 2020-2023
14.9.3 Expansions
Table 119 V2X Cybersecurity Market: Expansions, 2020-2023
15 Company Profiles
15.1 Key Players
(Business Overview, Products/Services/Solutions Offered, Analyst's View, Key Strengths and Right to Win, Strategic Choices Made, Weaknesses and Competitive Threats, Recent Developments)*
15.1.1 Escrypt GmbH
Table 120 Escrypt GmbH: Company Overview
Figure 86 Escrypt GmbH: Credential Management System
Figure 87 Escrypt GmbH: Harmonized V2X Pki
Figure 88 Escrypt GmbH: Misbehavior Detection
Table 121 Escrypt GmbH: Products Offered
Table 122 Escrypt GmbH: Product Launches/Developments
Table 123 Escrypt GmbH: Deals
15.1.2 Qualcomm Incorporateds
Table 124 Qualcomm Incorporated: Company Overview
Figure 89 Qualcomm Incorporated: Company Snapshot
Table 125 Qualcomm Incorporated: Products Offered
Table 126 Qualcomm Incorporated: Product Launches/Developments
Table 127 Qualcomm Incorporated: Deals
15.1.3 Autotalks
Table 128 Autotalks: Company Overview
Figure 90 Autotalks: V2X Communication Security
Table 129 Autotalks: Products Offered
Table 130 Autotalks: Product Launches/Developments
Table 131 Autotalks: Deals
15.1.4 Autocrypt Co. Ltd.
Table 132 Autocrypt Co. Ltd.: Company Overview
Figure 91 Autocrypt Co. Ltd.: V2X Verification Process
Figure 92 Autocrypt Co. Ltd.: V2X Security
Figure 93 Autocrypt Co. Ltd.: Misbehavior Detection and Reporting
Figure 94 Autocrypt Co. Ltd.: Secure Plug and Charge
Table 133 Autocrypt Co. Ltd.: Products Offered
Table 134 Autocrypt Co. Ltd.: Product Launches/Developments
Table 135 Autocrypt Co. Ltd.: Deals
Table 136 Autocrypt Co. Ltd.: Expansions
15.1.5 Continental AG
Table 137 Continental AG: Company Overview
Figure 95 Continental AG: Company Snapshot
Table 138 Continental AG: Products Offered
Table 139 Continental AG: Key Customers
Table 140 Continental AG: Deals
15.1.6 Green Hills Software
Table 141 Green Hills Software: Company Overview
Table 142 Green Hills Software: Products Offered
Table 143 Green Hills Software: Third-Party Partners
Table 144 Green Hills Software: Deals
15.1.7 Karamba Security
Table 145 Karamba Security: Company Overview
Table 146 Karamba Security: Products Offered
Table 147 Karamba Security: Deals
15.1.8 Id Quantique
Table 148 Id Quantique: Company Overview
Figure 96 Id Quantique: Quantum Hardware Security Module
Table 149 Id Quantique: Products Offered
Table 150 Id Quantique: Deals
Table 151 Id Quantique: Expansions
15.1.9 Nxp Semiconductors N.V.
Table 152 Nxp Semiconductors N.V.: Company Overview
Figure 97 Nxp Semiconductors N.V.: Company Snapshot
Table 153 Nxp Semiconductors N.V.: Products Offered
Table 154 Nxp Semiconductors N.V.: Product Launches/Developments
Table 155 Nxp Semiconductors N.V.: Deals
15.1.10 Infineon Technologies AG
Table 156 Infineon Technologies AG: Company Overview
Figure 98 Infineon Technologies AG: Company Snapshot
Figure 99 Infineon Technologies AG: Customers in Connected Secure Systems
Figure 100 Infineon Technologies AG: V2X Device Interactions
Table 157 Infineon Technologies AG: Products Offered
Table 158 Infineon Technologies AG: Product Launches/Developments
Table 159 Infineon Technologies AG: Deals
15.1.11 Harman International
Table 160 Harman International: Company Overview
Figure 101 Harman International: V2X Edge Compute Software Platform
Table 161 Harman International: Products Offered
Table 162 Harman International: Expansions
15.1.12 Aptiv PLC
Table 163 Aptiv PLC: Company Overview
Figure 102 Aptiv PLC: Company Snapshot
Table 164 Aptiv PLC: Products Offered
Table 165 Aptiv PLC: Key Customers
Table 166 Aptiv PLC: Expansions
*Business Overview, Products/Services/Solutions Offered, Analyst's View, Key Strengths and Right to Win, Strategic Choices Made, Weaknesses and Competitive Threats, Recent Developments Might Not be Captured in Case of Unlisted Companies
15.2 Other Key Players
15.2.1 Atos SE
Table 167 Atos SE: Company Overview
15.2.2 Secunet Security Networks AG
Table 168 Secunet Security Networks AG: Company Overview
15.2.3 Capgemini Engineering
Table 169 Capgemini Engineering: Company Overview
15.2.4 Vector Informatik GmbH
Table 170 Vector Informatik GmbH: Company Overview
15.2.5 Stmicroelectronics
Table 171 Stmicroelectronics: Company Overview
15.2.6 Lear Corporation
Table 172 Lear Corporation: Company Overview
15.2.7 Certicom Corp
Table 173 Certicom Corp: Company Overview
15.2.8 Denso Corporation
Table 174 Denso Corporation: Company Overview
15.2.9 Saferide Technologies Ltd.
Table 175 Saferide Technologies Ltd.: Company Overview
16 Analyst's Recommendations
16.1 Asia-Pacific to be Largest Market for V2X Cybersecurity
16.2 C-V2X Technology to Drive Future of Intelligent Transportation
16.3 V2G Communication to Emerge as Promising Technology
16.4 Conclusion
17 Appendix
17.1 Key Insights from Industry Experts
17.2 Discussion Guide
17.3 Knowledgestore: The Subscription Portal
17.4 Customization Options
17.4.1 V2X Cybersecurity Market, by Connectivity Type, at Country Level (For Countries Covered in Report)
17.4.2 Company Information
17.4.2.1 Profiling of Additional Market Players (Up to Five)
17.4.2.2 Additional Countries for Region (Up to Three)

Companies Mentioned

  • Escrypt GmbH
  • Qualcomm Incorporateds
  • Autotalks
  • Autocrypt Co. Ltd.
  • Continental AG
  • Green Hills Software
  • Karamba Security
  • Id Quantique
  • Nxp Semiconductors N.V.
  • Infineon Technologies AG
  • Harman International
  • Aptiv PLC
  • Atos SE
  • Secunet Security Networks AG
  • Capgemini Engineering
  • Vector Informatik GmbH
  • Stmicroelectronics
  • Lear Corporation
  • Certicom Corp
  • Denso Corporation
  • Saferide Technologies Ltd.

Table Information