Automotive Radar Sensors Market- Global Industry Analysis and Forecast (2022-2029)

Automotive Radar Sensors Market is expected to reach US$ 3.67 Bn. by 2029, at a CAGR of 14.6% during the forecast period. The report study has analyzed revenue impact of COVID-19 pandemic on the sales revenue of market leaders, market followers and market disrupters in the report and same is reflected in our analysis.

Automotive Radar Sensors Market Overview:

Automotive radar is one of the significant development in the automotive area and is a forward step for increasing the driving comfort, automating driving and crash prevention. Automotive radar sensors are used for improving numerous driving features which give better control to drivers in a dangerous situation. Automotive radar sensors are punishing several applications in systems, like warning & mitigation, collision detection, collision avoidance, blind-spot monitoring/blind spot detection, vulnerable road user detection, lane change assistance & lane departure warning system, and rear cross-traffic alerts. Many of the driver assistance systems have sensors that help in detection for lane-change assistance, rear cross-traffic alerts, back-up parking assistance, and blind-spot monitoring. At present, the 79 GHz, 77 GHz, and 27 GHz radar sensors with increased signal bandwidth have the capability to distinguish between diverse objects and also offer high resolution.Automotive Radar Sensors MarketTo know about the Research Methodology :- Request Free Sample Report

Automotive Radar Sensors Market Dynamics:

The availability of high-frequency radar sensors is one of the significant reasons expected to fuel the growth of the automotive radar sensors market. The varied availability of 79-GHz radar sensors that are required for operating radar-based automotive safety systems will continue to promote the use and adoption of radar sensor units. The 79-GHz sensor combines better form factor, has three times smaller antennas and is also capable of benefiting from an extensive frequency range of 4 GHz (77-81 GHz). Moreover, this high-resolution capability has opened its importance for the future of autonomous cars. The government policies promoting radar sensors expected to drive the growth of the automotive radar sensors market during the forecast period. The emergence of intelligent transportation is one of the key trends for the automotive radar sensors market. Numerous new technologies are gradually being integrated into vehicles for meeting the current and potential future demands. Consumers are also considering safety as one of the key features in a connected car. Consequently, OEMs are offering new technology-enabled features, with radar sensors and blind-spot monitoring. This will more fuel the demand for automotive radar sensors. On the other hand, the high cost of radar sensors and the equivalent technology is one of the key restraints of the market. Also, reducing the price of LIDAR may hamper the sustainability of automotive radar sensors will challenge the growth of the market participants. To make the most of the opportunities, market vendors should effort more on the growth prospects in the fast-growing segments, while maintaining their positions in the slow-growing segments. To help clients progress their market position, this automotive radar sensors market forecast report offers a detailed analysis of the market leaders, provides information on the competencies, and capacities of these companies. The report also covers details of the information on the products offered by several companies. This will help companies create strategies to make the most of future growth opportunities.

Automotive Radar Sensors Market Segmentation:

According to the application segment, the forward collision warning system (FCWS) is expected to register the largest market share of the global market by 2029. FCWS is highly chosen in the automotive industry as they help in identifying the object and detecting the relative speed between the object & the vehicle, which in order, helps in dropping the harshness of the accident and sometimes preventing & mitigating a collision. Market growth in this segment will be faster than the growth of the market in the AEBS, ACC, and other segments. This report delivers a precise estimate of the contribution of all the segments to the growth of the automotive radar sensors market size. Region-wise, the Asia-Pacific region is expected to register the highest CAGR of the global market by 2029, there is an increase in the production of new vehicles in developing countries, like India, China, and Japan. In newer vehicles, the consumer demand high-end technology in the vehicles. Also, the high adoption rate of ADASs in the automotive industry is one of the main growth drivers for the market in the region. North America expected to be the largest market share of the global automotive radar systems by 2029, because of the safety regulations in the region. Increased awareness towards safety features and the demand for high-end premium cars with the installed latest technology has also driven the demand in the region. Europe held the largest market share of the global automotive radar sensors market in 2021, and the region will offer numerous growth opportunities to market vendors in the future. The focus on emerging energy-efficient vehicles, EVs, and autonomous cars, is leading to the incorporation of radar sensors in automobiles. This will considerably influence automotive radar sensors market growth in the European region. 31% of the market’s growth will originate from Europe during the forecast period. Germany is one of the significant markets for automotive radar sensors in Europe. The objective of the report is to present a comprehensive analysis of the Global Automotive Radar Sensors Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with a dedicated study of key players that includes market leaders, followers and new entrants. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors of the market have been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analyzed, which will give a clear futuristic view of the industry to the decision-makers. The report also helps in understanding Global Automotive Radar Sensors Market dynamics, structure by analyzing the market segments and project the Global Automotive Radar Sensors Market size. Clear representation of competitive analysis of key players by application, price, financial position, product portfolio, growth strategies, and regional presence in the Global Automotive Radar Sensors Market make the report investor’s guide.

 Automotive Radar Sensors Market Scope: Inquire before buying

Automotive Radar Sensors Market
Base Year 2021 Forecast Period 2022-2029
Historical Data CAGR Market Size in 2021 Market Size in 2029
2017 to 2021 14.6% US$ 1.23 Bn US$ 3.67 Bn
Segments Covered
by Ranges • Long range (≥77 GHz) • Medium range (76-77 GHz) • Short range (24 GHz) by Applications • Intelligent Parking Assistance (IPA) • Forward Collision Warning System (FCWS) • Blind Spot Detection (BSD) • Lane Change Assist (LCA) • Rear Cross Traffic Assist (RCTA) • Autonomous Emergency Braking (AEB) • Adaptive Cruise Control (ACC) • Other Applications by Vehicle Type • Commercial vehicle • Passenger vehicle
Regions Covered
North America • United States • Canada • Mexico Europe • UK • France • Germany • Italy • Spain • Sweden • Austria • Rest of Europe Asia Pacific • China • S Korea • Japan • India • Australia • Indonesia • Malaysia • Vietnam • Taiwan • Bangladesh • Pakistan • Rest of APAC Middle East and Africa • South Africa • GCC • Egypt • Nigeria • Rest of ME&A South America • Brazil • Argentina • Rest of South America

 Automotive Radar Sensors Market Key Players

• Bosch GmbH • Hella KGaA • ZF Friedrichshafen AG • Denso Corporation • Infineon Technologies AG • First Sensor AG • Continental AG • UniqueSec AB • InnoSenT GmbH • Delphi Automotive PLC • Kestrel Radar Sensors • NXP Semiconductors N.V • Valeo S.A • Fujitsu Ten Ltd • Texas Instruments Incorporated • Quanergy • Leddar • Ibeo Automotive Systems GmbH • TRW - ZF Friedrichshafen • Autoliv Inc • Velodyne LiDAR Frequently Asked Questions: 1. Which region has the largest share in Global Automotive Radar Sensors Market? Ans: Asia Pacific region held the highest share in 2021. 2. What is the growth rate of Global Automotive Radar Sensors Market? Ans: The Global Automotive Radar Sensors Market is growing at a CAGR of 14.6% during forecasting period 2022-2029. 3. What is scope of the Global Automotive Radar Sensors market report? Ans: Global Automotive Radar Sensors Market report helps with the PESTEL, PORTER, COVID-19 Impact analysis, Recommendations for Investors & Leaders, and market estimation of the forecast period. 4. Who are the key players in Global Automotive Radar Sensors market? Ans: The important key players in the Global Automotive Radar Sensors Market are – Bosch GmbH, Hella KGaA, ZF Friedrichshafen AG, Denso Corporation, Infineon Technologies AG, First Sensor AG, Continental AG, UniqueSec AB, InnoSenT GmbH, Delphi Automotive PLC, Kestrel Radar Sensors, NXP Semiconductors N.V, Valeo S.A, Fujitsu Ten Ltd, Texas Instruments Incorporated, Quanergy, Leddar, Ibeo Automotive Systems GmbH, TRW - ZF Friedrichshafen, Autoliv Inc, Velodyne LiDAR, and 5. What is the study period of this market? Ans: The Global Automotive Radar Sensors Market is studied from 2021 to 2029.
Automotive Radar Sensors Market 1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary: Automotive Radar Sensors Market Size, by Market Value (US$ Bn) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Industry Trends and Emerging Technologies 5. Supply Side and Demand Side Indicators 6. Automotive Radar Sensors Market Analysis and Forecast 6.1. Automotive Radar Sensors Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Automotive Radar Sensors Market Analysis and Forecast, by Applications 7.1. Introduction and Definition 7.2. Key Findings 7.3. Automotive Radar Sensors Market Value Share Analysis, by Applications 7.4. Automotive Radar Sensors Market Size (US$ Bn) Forecast, by Applications 7.5. Automotive Radar Sensors Market Analysis, by Applications 7.6. Automotive Radar Sensors Market Attractiveness Analysis, by Applications 8. Automotive Radar Sensors Market Analysis and Forecast, by Ranges 8.1. Introduction and Definition 8.2. Key Findings 8.3. Automotive Radar Sensors Market Value Share Analysis, by Ranges 8.4. Automotive Radar Sensors Market Size (US$ Bn) Forecast, by Ranges 8.5. Automotive Radar Sensors Market Analysis, by Ranges 8.6. Automotive Radar Sensors Market Attractiveness Analysis, by Ranges 9. Automotive Radar Sensors Market Analysis and Forecast, by Vehicle type 9.1. Introduction and Definition 9.2. Key Findings 9.3. Automotive Radar Sensors Market Value Share Analysis, by Vehicle type 9.4. Automotive Radar Sensors Market Size (US$ Bn) Forecast, by Vehicle type 9.5. Automotive Radar Sensors Market Analysis, by Vehicle type 9.6. Automotive Radar Sensors Market Attractiveness Analysis, by Vehicle type 10. Automotive Radar Sensors Market Analysis, by Region 10.1. Automotive Radar Sensors Market Value Share Analysis, by Region 10.2. Automotive Radar Sensors Market Size (US$ Bn) Forecast, by Region 10.3. Automotive Radar Sensors Market Attractiveness Analysis, by Region 11. North America Automotive Radar Sensors Market Analysis 11.1. Key Findings 11.2. North America Automotive Radar Sensors Market Overview 11.3. North America Automotive Radar Sensors Market Value Share Analysis, by Applications 11.4. North America Automotive Radar Sensors Market Forecast, by Applications 11.4.1. Intelligent Parking Assistance (IPA) 11.4.2. Forward Collision Warning System (FCWS) 11.4.3. Blind Spot Detection (BSD) 11.4.4. Lane Change Assist (LCA) 11.4.5. Rear Cross Traffic Assist (RCTA) 11.4.6. Autonomous Emergency Braking (AEB) 11.4.7. Adaptive Cruise Control (ACC) 11.4.8. Other Applications 11.5. North America Automotive Radar Sensors Market Value Share Analysis, by Ranges 11.6. North America Automotive Radar Sensors Market Forecast, by Ranges 11.6.1. Long range (≥77 GHz) 11.6.2. Medium range (76-77 GHz) 11.6.3. Short range (24 GHz) 11.7. North America Automotive Radar Sensors Market Value Share Analysis, by Vehicle type 11.8. North America Automotive Radar Sensors Market Forecast, by Vehicle type 11.8.1. Commercial vehicle 11.8.2. Passenger Vehicle 11.9. North America Automotive Radar Sensors Market Value Share Analysis, by Country 11.10. North America Automotive Radar Sensors Market Forecast, by Country 11.10.1. U.S. 11.10.2. Canada 11.11. North America Automotive Radar Sensors Market Analysis, by Country 11.12. U.S. Automotive Radar Sensors Market Forecast, by Applications 11.12.1. Intelligent Parking Assistance (IPA) 11.12.2. Forward Collision Warning System (FCWS) 11.12.3. Blind Spot Detection (BSD) 11.12.4. Lane Change Assist (LCA) 11.12.5. Rear Cross Traffic Assist (RCTA) 11.12.6. Autonomous Emergency Braking (AEB) 11.12.7. Adaptive Cruise Control (ACC) 11.12.8. Other Applications 11.13. U.S. Automotive Radar Sensors Market Forecast, by Ranges 11.13.1. Long range (≥77 GHz) 11.13.2. Medium range (76-77 GHz) 11.13.3. Short range (24 GHz) 11.14. U.S. Automotive Radar Sensors Market Forecast, by Vehicle type 11.14.1. Commercial vehicle 11.14.2. Passenger Vehicle 11.15. Canada Automotive Radar Sensors Market Forecast, by Applications 11.15.1. Intelligent Parking Assistance (IPA) 11.15.2. Forward Collision Warning System (FCWS) 11.15.3. Blind Spot Detection (BSD) 11.15.4. Lane Change Assist (LCA) 11.15.5. Rear Cross Traffic Assist (RCTA) 11.15.6. Autonomous Emergency Braking (AEB) 11.15.7. Adaptive Cruise Control (ACC) 11.15.8. Other Applications 11.16. Canada Automotive Radar Sensors Market Forecast, by Ranges 11.16.1. Long range (≥77 GHz) 11.16.2. Medium range (76-77 GHz) 11.16.3. Short range (24 GHz) 11.17. Canada Automotive Radar Sensors Market Forecast, by Vehicle type 11.17.1. Commercial vehicle 11.17.2. Passenger Vehicle 11.18. North America Automotive Radar Sensors Market Attractiveness Analysis 11.18.1. By Applications 11.18.2. By Ranges 11.18.3. By Vehicle type 11.19. PEST Analysis 11.20. Key Trends 11.21. Key Developments 12. Europe Automotive Radar Sensors Market Analysis 12.1. Key Findings 12.2. Europe Automotive Radar Sensors Market Overview 12.3. Europe Automotive Radar Sensors Market Value Share Analysis, by Applications 12.4. Europe Automotive Radar Sensors Market Forecast, by Applications 12.4.1. Intelligent Parking Assistance (IPA) 12.4.2. Forward Collision Warning System (FCWS) 12.4.3. Blind Spot Detection (BSD) 12.4.4. Lane Change Assist (LCA) 12.4.5. Rear Cross Traffic Assist (RCTA) 12.4.6. Autonomous Emergency Braking (AEB) 12.4.7. Adaptive Cruise Control (ACC) 12.4.8. Other Applications 12.5. Europe Automotive Radar Sensors Market Value Share Analysis, by Ranges 12.6. Europe Automotive Radar Sensors Market Forecast, by Ranges 12.6.1. Long range (≥77 GHz) 12.6.2. Medium range (76-77 GHz) 12.6.3. Short range (24 GHz) 12.7. Europe Automotive Radar Sensors Market Value Share Analysis, by Vehicle type 12.8. Europe Automotive Radar Sensors Market Forecast, by Vehicle type 12.8.1. Commercial vehicle 12.8.2. Passenger Vehicle 12.9. Europe Automotive Radar Sensors Market Value Share Analysis, by Country 12.10. Europe Automotive Radar Sensors Market Forecast, by Country 12.10.1. Germany 12.10.2. U.K. 12.10.3. France 12.10.4. Italy 12.10.5. Spain 12.10.6. Rest of Europe 12.11. Europe Automotive Radar Sensors Market Analysis, by Country 12.12. Germany Automotive Radar Sensors Market Forecast, by Applications 12.12.1. Intelligent Parking Assistance (IPA) 12.12.2. Forward Collision Warning System (FCWS) 12.12.3. Blind Spot Detection (BSD) 12.12.4. Lane Change Assist (LCA) 12.12.5. Rear Cross Traffic Assist (RCTA) 12.12.6. Autonomous Emergency Braking (AEB) 12.12.7. Adaptive Cruise Control (ACC) 12.12.8. Other Applications 12.13. Germany Automotive Radar Sensors Market Forecast, by Ranges 12.13.1. Long range (≥77 GHz) 12.13.2. Medium range (76-77 GHz) 12.13.3. Short range (24 GHz) 12.14. Germany Automotive Radar Sensors Market Forecast, by Vehicle type 12.14.1. Commercial vehicle 12.14.2. Passenger Vehicle 12.15. U.K. Automotive Radar Sensors Market Forecast, by Applications 12.15.1. Intelligent Parking Assistance (IPA) 12.15.2. Forward Collision Warning System (FCWS) 12.15.3. Blind Spot Detection (BSD) 12.15.4. Lane Change Assist (LCA) 12.15.5. Rear Cross Traffic Assist (RCTA) 12.15.6. Autonomous Emergency Braking (AEB) 12.15.7. Adaptive Cruise Control (ACC) 12.15.8. Other Applications 12.16. U.K. Automotive Radar Sensors Market Forecast, by Ranges 12.16.1. Long range (≥77 GHz) 12.16.2. Medium range (76-77 GHz) 12.16.3. Short range (24 GHz) 12.17. U.K. Automotive Radar Sensors Market Forecast, by Vehicle type 12.17.1. Commercial vehicle 12.17.2. Passenger Vehicle 12.18. France Automotive Radar Sensors Market Forecast, by Applications 12.18.1. Intelligent Parking Assistance (IPA) 12.18.2. Forward Collision Warning System (FCWS) 12.18.3. Blind Spot Detection (BSD) 12.18.4. Lane Change Assist (LCA) 12.18.5. Rear Cross Traffic Assist (RCTA) 12.18.6. Autonomous Emergency Braking (AEB) 12.18.7. Adaptive Cruise Control (ACC) 12.18.8. Other Applications 12.19. France Automotive Radar Sensors Market Forecast, by Ranges 12.19.1. Long range (≥77 GHz) 12.19.2. Medium range (76-77 GHz) 12.19.3. Short range (24 GHz) 12.20. France Automotive Radar Sensors Market Forecast, by Vehicle type 12.20.1. Commercial vehicle 12.20.2. Passenger Vehicle 12.21. Italy Automotive Radar Sensors Market Forecast, by Applications 12.21.1. Intelligent Parking Assistance (IPA) 12.21.2. Forward Collision Warning System (FCWS) 12.21.3. Blind Spot Detection (BSD) 12.21.4. Lane Change Assist (LCA) 12.21.5. Rear Cross Traffic Assist (RCTA) 12.21.6. Autonomous Emergency Braking (AEB) 12.21.7. Adaptive Cruise Control (ACC) 12.21.8. Other Applications 12.22. Italy Automotive Radar Sensors Market Forecast, by Ranges 12.22.1. Long range (≥77 GHz) 12.22.2. Medium range (76-77 GHz) 12.22.3. Short range (24 GHz) 12.23. Italy Automotive Radar Sensors Market Forecast, by Vehicle type 12.23.1. Commercial vehicle 12.23.2. Passenger Vehicle 12.24. Spain Automotive Radar Sensors Market Forecast, by Applications 12.24.1. Intelligent Parking Assistance (IPA) 12.24.2. Forward Collision Warning System (FCWS) 12.24.3. Blind Spot Detection (BSD) 12.24.4. Lane Change Assist (LCA) 12.24.5. Rear Cross Traffic Assist (RCTA) 12.24.6. Autonomous Emergency Braking (AEB) 12.24.7. Adaptive Cruise Control (ACC) 12.24.8. Other Applications 12.25. Spain Automotive Radar Sensors Market Forecast, by Ranges 12.25.1. Long range (≥77 GHz) 12.25.2. Medium range (76-77 GHz) 12.25.3. Short range (24 GHz) 12.26. Spain Automotive Radar Sensors Market Forecast, by Vehicle type 12.26.1. Commercial vehicle 12.26.2. Passenger Vehicle 12.27. Rest of Europe Automotive Radar Sensors Market Forecast, by Applications 12.27.1. Intelligent Parking Assistance (IPA) 12.27.2. Forward Collision Warning System (FCWS) 12.27.3. Blind Spot Detection (BSD) 12.27.4. Lane Change Assist (LCA) 12.27.5. Rear Cross Traffic Assist (RCTA) 12.27.6. Autonomous Emergency Braking (AEB) 12.27.7. Adaptive Cruise Control (ACC) 12.27.8. Other Applications 12.28. Rest of Europe Automotive Radar Sensors Market Forecast, by Ranges 12.28.1. Long range (≥77 GHz) 12.28.2. Medium range (76-77 GHz) 12.28.3. Short range (24 GHz) 12.29. Rest of Europe Automotive Radar Sensors Market Forecast, by Vehicle type 12.29.1. Commercial vehicle 12.29.2. Passenger Vehicle 12.30. Europe Automotive Radar Sensors Market Attractiveness Analysis 12.30.1. By Applications 12.30.2. By Ranges 12.30.3. By Vehicle type 12.31. PEST Analysis 12.32. Key Trends 12.33. Key Developments 13. Asia Pacific Automotive Radar Sensors Market Analysis 13.1. Key Findings 13.2. Asia Pacific Automotive Radar Sensors Market Overview 13.3. Asia Pacific Automotive Radar Sensors Market Value Share Analysis, by Applications 13.4. Asia Pacific Automotive Radar Sensors Market Forecast, by Applications 13.4.1. Intelligent Parking Assistance (IPA) 13.4.2. Forward Collision Warning System (FCWS) 13.4.3. Blind Spot Detection (BSD) 13.4.4. Lane Change Assist (LCA) 13.4.5. Rear Cross Traffic Assist (RCTA) 13.4.6. Autonomous Emergency Braking (AEB) 13.4.7. Adaptive Cruise Control (ACC) 13.4.8. Other Applications 13.5. Asia Pacific Automotive Radar Sensors Market Value Share Analysis, by Ranges 13.6. Asia Pacific Automotive Radar Sensors Market Forecast, by Ranges 13.6.1. Long range (≥77 GHz) 13.6.2. Medium range (76-77 GHz) 13.6.3. Short range (24 GHz) 13.7. Asia Pacific Automotive Radar Sensors Market Value Share Analysis, by Vehicle type 13.8. Asia Pacific Automotive Radar Sensors Market Forecast, by Vehicle type 13.8.1. Commercial vehicle 13.8.2. Passenger Vehicle 13.9. Asia Pacific Automotive Radar Sensors Market Value Share Analysis, by Country 13.10. Asia Pacific Automotive Radar Sensors Market Forecast, by Country 13.10.1. China 13.10.2. India 13.10.3. Japan 13.10.4. ASEAN 13.10.5. Rest of Asia Pacific 13.11. Asia Pacific Automotive Radar Sensors Market Analysis, by Country 13.12. China Automotive Radar Sensors Market Forecast, by Applications 13.12.1. Intelligent Parking Assistance (IPA) 13.12.2. Forward Collision Warning System (FCWS) 13.12.3. Blind Spot Detection (BSD) 13.12.4. Lane Change Assist (LCA) 13.12.5. Rear Cross Traffic Assist (RCTA) 13.12.6. Autonomous Emergency Braking (AEB) 13.12.7. Adaptive Cruise Control (ACC) 13.12.8. Other Applications 13.13. China Automotive Radar Sensors Market Forecast, by Ranges 13.13.1. Long range (≥77 GHz) 13.13.2. Medium range (76-77 GHz) 13.13.3. Short range (24 GHz) 13.14. China Automotive Radar Sensors Market Forecast, by Vehicle type 13.14.1. Commercial vehicle 13.14.2. Passenger Vehicle 13.15. India Automotive Radar Sensors Market Forecast, by Ranges 13.15.1. Long range (≥77 GHz) 13.15.2. Medium range (76-77 GHz) 13.15.3. Short range (24 GHz) 13.16. India Automotive Radar Sensors Market Forecast, by Vehicle type 13.16.1. Commercial vehicle 13.16.2. Passenger Vehicle 13.17. Japan Automotive Radar Sensors Market Forecast, by Applications 13.17.1. Intelligent Parking Assistance (IPA) 13.17.2. Forward Collision Warning System (FCWS) 13.17.3. Blind Spot Detection (BSD) 13.17.4. Lane Change Assist (LCA) 13.17.5. Rear Cross Traffic Assist (RCTA) 13.17.6. Autonomous Emergency Braking (AEB) 13.17.7. Adaptive Cruise Control (ACC) 13.17.8. Other Applications 13.18. Japan Automotive Radar Sensors Market Forecast, by Ranges 13.18.1. Long range (≥77 GHz) 13.18.2. Medium range (76-77 GHz) 13.18.3. Short range (24 GHz) 13.19. Japan Automotive Radar Sensors Market Forecast, by Vehicle type 13.19.1. Commercial vehicle 13.19.2. Passenger Vehicle 13.20. ASEAN Automotive Radar Sensors Market Forecast, by Applications 13.20.1. Intelligent Parking Assistance (IPA) 13.20.2. Forward Collision Warning System (FCWS) 13.20.3. Blind Spot Detection (BSD) 13.20.4. Lane Change Assist (LCA) 13.20.5. Rear Cross Traffic Assist (RCTA) 13.20.6. Autonomous Emergency Braking (AEB) 13.20.7. Adaptive Cruise Control (ACC) 13.20.8. Other Applications 13.21. ASEAN Automotive Radar Sensors Market Forecast, by Ranges 13.21.1. Long range (≥77 GHz) 13.21.2. Medium range (76-77 GHz) 13.21.3. Short range (24 GHz) 13.22. ASEAN Automotive Radar Sensors Market Forecast, by Vehicle type 13.22.1. Commercial vehicle 13.22.2. Passenger Vehicle 13.23. Rest of Asia Pacific Automotive Radar Sensors Market Forecast, by Applications 13.23.1. Intelligent Parking Assistance (IPA) 13.23.2. Forward Collision Warning System (FCWS) 13.23.3. Blind Spot Detection (BSD) 13.23.4. Lane Change Assist (LCA) 13.23.5. Rear Cross Traffic Assist (RCTA) 13.23.6. Autonomous Emergency Braking (AEB) 13.23.7. Adaptive Cruise Control (ACC) 13.23.8. Other Applications 13.24. Rest of Asia Pacific Automotive Radar Sensors Market Forecast, by Ranges 13.24.1. Long range (≥77 GHz) 13.24.2. Medium range (76-77 GHz) 13.24.3. Short range (24 GHz) 13.25. Rest of Asia Pacific Automotive Radar Sensors Market Forecast, by Vehicle type 13.25.1. Commercial vehicle 13.25.2. Passenger Vehicle 13.26. Asia Pacific Automotive Radar Sensors Market Attractiveness Analysis 13.26.1. By Applications 13.26.2. By Ranges 13.26.3. By Vehicle type 13.27. PEST Analysis 13.28. Key Trends 13.29. Key Developments 14. Middle East & Africa Automotive Radar Sensors Market Analysis 14.1. Key Findings 14.2. Middle East & Africa Automotive Radar Sensors Market Overview 14.3. Middle East & Africa Automotive Radar Sensors Market Value Share Analysis, by Applications 14.4. Middle East & Africa Automotive Radar Sensors Market Forecast, by Applications 14.4.1. Intelligent Parking Assistance (IPA) 14.4.2. Forward Collision Warning System (FCWS) 14.4.3. Blind Spot Detection (BSD) 14.4.4. Lane Change Assist (LCA) 14.4.5. Rear Cross Traffic Assist (RCTA) 14.4.6. Autonomous Emergency Braking (AEB) 14.4.7. Adaptive Cruise Control (ACC) 14.4.8. Other Applications 14.5. Middle East & Africa Automotive Radar Sensors Market Value Share Analysis, by Ranges 14.6. Middle East & Africa Automotive Radar Sensors Market Forecast, by Ranges 14.6.1. Long range (≥77 GHz) 14.6.2. Medium range (76-77 GHz) 14.6.3. Short range (24 GHz) 14.7. Middle East & Africa Automotive Radar Sensors Market Value Share Analysis, by Vehicle type 14.8. Middle East & Africa Automotive Radar Sensors Market Forecast, by Vehicle type 14.8.1. Commercial vehicle 14.8.2. Passenger Vehicle 14.9. Middle East & Africa Automotive Radar Sensors Market Value Share Analysis, by Country 14.10. Middle East & Africa Automotive Radar Sensors Market Forecast, by Country 14.10.1. GCC 14.10.2. South Africa 14.10.3. Rest of Middle East & Africa 14.11. Middle East & Africa Automotive Radar Sensors Market Analysis, by Country 14.12. GCC Automotive Radar Sensors Market Forecast, by Applications 14.12.1. Intelligent Parking Assistance (IPA) 14.12.2. Forward Collision Warning System (FCWS) 14.12.3. Blind Spot Detection (BSD) 14.12.4. Lane Change Assist (LCA) 14.12.5. Rear Cross Traffic Assist (RCTA) 14.12.6. Autonomous Emergency Braking (AEB) 14.12.7. Adaptive Cruise Control (ACC) 14.12.8. Other Applications 14.13. GCC Automotive Radar Sensors Market Forecast, by Ranges 14.13.1. Long range (≥77 GHz) 14.13.2. Medium range (76-77 GHz) 14.13.3. Short range (24 GHz) 14.14. GCC Automotive Radar Sensors Market Forecast, by Vehicle type 14.14.1. Commercial vehicle 14.14.2. Passenger Vehicle 14.15. South Africa Automotive Radar Sensors Market Forecast, by Applications 14.15.1. Intelligent Parking Assistance (IPA) 14.15.2. Forward Collision Warning System (FCWS) 14.15.3. Blind Spot Detection (BSD) 14.15.4. Lane Change Assist (LCA) 14.15.5. Rear Cross Traffic Assist (RCTA) 14.15.6. Autonomous Emergency Braking (AEB) 14.15.7. Adaptive Cruise Control (ACC) 14.15.8. Other Applications 14.16. South Africa Automotive Radar Sensors Market Forecast, by Ranges 14.16.1. Long range (≥77 GHz) 14.16.2. Medium range (76-77 GHz) 14.16.3. Short range (24 GHz) 14.17. South Africa Automotive Radar Sensors Market Forecast, by Vehicle type 14.17.1. Commercial vehicle 14.17.2. Passenger Vehicle 14.18. Rest of Middle East & Africa Automotive Radar Sensors Market Forecast, by Applications 14.18.1. Intelligent Parking Assistance (IPA) 14.18.2. Forward Collision Warning System (FCWS) 14.18.3. Blind Spot Detection (BSD) 14.18.4. Lane Change Assist (LCA) 14.18.5. Rear Cross Traffic Assist (RCTA) 14.18.6. Autonomous Emergency Braking (AEB) 14.18.7. Adaptive Cruise Control (ACC) 14.18.8. Other Applications 14.19. Rest of Middle East & Africa Automotive Radar Sensors Market Forecast, by Ranges 14.19.1. Long range (≥77 GHz) 14.19.2. Medium range (76-77 GHz) 14.19.3. Short range (24 GHz) 14.20. Rest of Middle East & Africa Automotive Radar Sensors Market Forecast, by Vehicle type 14.20.1. Commercial vehicle 14.20.2. Passenger Vehicle 14.21. Middle East & Africa Automotive Radar Sensors Market Attractiveness Analysis 14.21.1. By Applications 14.21.2. By Ranges 14.21.3. By Vehicle type 14.22. PEST Analysis 14.23. Key Trends 14.24. Key Developments 15. South America Automotive Radar Sensors Market Analysis 15.1. Key Findings 15.2. South America Automotive Radar Sensors Market Overview 15.3. South America Automotive Radar Sensors Market Value Share Analysis, by Applications 15.4. South America Automotive Radar Sensors Market Forecast, by Applications 15.4.1. Intelligent Parking Assistance (IPA) 15.4.2. Forward Collision Warning System (FCWS) 15.4.3. Blind Spot Detection (BSD) 15.4.4. Lane Change Assist (LCA) 15.4.5. Rear Cross Traffic Assist (RCTA) 15.4.6. Autonomous Emergency Braking (AEB) 15.4.7. Adaptive Cruise Control (ACC) 15.4.8. Other Applications 15.5. South America Automotive Radar Sensors Market Value Share Analysis, by Ranges 15.6. South America Automotive Radar Sensors Market Forecast, by Ranges 15.6.1. Long range (≥77 GHz) 15.6.2. Medium range (76-77 GHz) 15.6.3. Short range (24 GHz) 15.7. South America Automotive Radar Sensors Market Value Share Analysis, by Vehicle type 15.8. South America Automotive Radar Sensors Market Forecast, by Vehicle type 15.8.1. Commercial vehicle 15.8.2. Passenger Vehicle 15.9. South America Automotive Radar Sensors Market Value Share Analysis, by Country 15.10. South America Automotive Radar Sensors Market Forecast, by Country 15.10.1. Brazil 15.10.2. Mexico 15.10.3. Rest of South America 15.11. South America Automotive Radar Sensors Market Analysis, by Country 15.12. Brazil Automotive Radar Sensors Market Forecast, by Applications 15.12.1. Intelligent Parking Assistance (IPA) 15.12.2. Forward Collision Warning System (FCWS) 15.12.3. Blind Spot Detection (BSD) 15.12.4. Lane Change Assist (LCA) 15.12.5. Rear Cross Traffic Assist (RCTA) 15.12.6. Autonomous Emergency Braking (AEB) 15.12.7. Adaptive Cruise Control (ACC) 15.12.8. Other Applications 15.13. Brazil Automotive Radar Sensors Market Forecast, by Ranges 15.13.1. Long range (≥77 GHz) 15.13.2. Medium range (76-77 GHz) 15.13.3. Short range (24 GHz) 15.14. Brazil Automotive Radar Sensors Market Forecast, by Vehicle type 15.14.1. Commercial vehicle 15.14.2. Passenger Vehicle 15.15. Mexico Automotive Radar Sensors Market Forecast, by Applications 15.15.1. Intelligent Parking Assistance (IPA) 15.15.2. Forward Collision Warning System (FCWS) 15.15.3. Blind Spot Detection (BSD) 15.15.4. Lane Change Assist (LCA) 15.15.5. Rear Cross Traffic Assist (RCTA) 15.15.6. Autonomous Emergency Braking (AEB) 15.15.7. Adaptive Cruise Control (ACC) 15.15.8. Other Applications 15.16. Mexico Automotive Radar Sensors Market Forecast, by Ranges 15.16.1. Long range (≥77 GHz) 15.16.2. Medium range (76-77 GHz) 15.16.3. Short range (24 GHz) 15.17. Mexico Automotive Radar Sensors Market Forecast, by Vehicle type 15.17.1. Commercial vehicle 15.17.2. Passenger Vehicle 15.18. Rest of South America Automotive Radar Sensors Market Forecast, by Applications 15.18.1. Intelligent Parking Assistance (IPA) 15.18.2. Forward Collision Warning System (FCWS) 15.18.3. Blind Spot Detection (BSD) 15.18.4. Lane Change Assist (LCA) 15.18.5. Rear Cross Traffic Assist (RCTA) 15.18.6. Autonomous Emergency Braking (AEB) 15.18.7. Adaptive Cruise Control (ACC) 15.18.8. Other Applications 15.19. Rest of South America Automotive Radar Sensors Market Forecast, by Ranges 15.19.1. Long range (≥77 GHz) 15.19.2. Medium range (76-77 GHz) 15.19.3. Short range (24 GHz) 15.20. Rest of South America Automotive Radar Sensors Market Forecast, by Vehicle type 15.20.1. Commercial vehicle 15.20.2. Passenger Vehicle 15.21. South America Automotive Radar Sensors Market Attractiveness Analysis 15.21.1. By Applications 15.21.2. By Ranges 15.21.3. By Vehicle type 15.22. PEST Analysis 15.23. Key Trends 15.24. Key Developments 16. Company Profiles 16.1. Market Share Analysis, by Company 16.2. Competition Matrix 16.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 16.2.2. New Product Launches and Product Enhancements 16.2.3. Market Consolidation 16.2.3.1. M&A by Regions, Investment and Applications 16.2.3.2. M&A Key Players, Forward Integration and Backward Integration 16.3. Company Profiles: Key Players 16.3.1. Robert Bosch GmbH 16.3.1.1. Company Overview 16.3.1.2. Financial Overview 16.3.1.3. Product Portfolio 16.3.1.4. Business Strategy 16.3.1.5. Recent Developments 16.3.1.6. Development Footprint 16.3.2. Hella KGaA 16.3.3. ZF Friedrichshafen AG 16.3.4. Denso Corporation 16.3.5. Infineon Technologies AG 16.3.6. First Sensor AG 16.3.7. Continental AG 16.3.8. UniqueSec AB 16.3.9. InnoSenT GmbH 16.3.10. Delphi Automotive PLC 16.3.11. Kestrel Radar Sensors 16.3.12. NXP Semiconductors N.V 16.3.13. Valeo S.A 16.3.14. Fujitsu Ten Ltd 16.3.15. Texas Instruments Incorporated 16.3.16. Quanergy 16.3.17. Leddar 16.3.18. Ibeo Automotive Systems GmbH 16.3.19. TRW - ZF Friedrichshafen 16.3.20. Autoliv Inc 16.3.21. Velodyne LiDAR 17. Primary Key Insights

About This Report

Report ID 59411
Category Automotive and Transportation
Published Date Jan 2023
Updated Date
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