May 20, 2024

Autonomous Vehicle Sensors Market Size to Reach USD 29.19 Bn by 2033

The autonomous vehicle sensors market size is poised to grow by USD 29.19 billion by 2033 from USD 8.87 billion in 2023, exhibiting a CAGR of 12.70% during the forecast period 2024 to 2033. 

Key Points

  • By type of sensor, the LiDAR segment held the largest share of the market in 2023.
  • By vehicle type, the passenger segment is expected to capture a prominent market share during the forecast period.
  • By level of automation, the Level 3 segment is expected to capture a substantial market share over the forecast period.
  • By application, the obstacle detection segment held the largest share of the market in 2023.
  • By region, Europe is expected to hold a prominent market share during the forecast period.

Autonomous Vehicle Sensors Market Size 2024 to 2033

Precedence Research has conducted a comprehensive market study that provides valuable insights into the performance of the market during the forecast period. The study identifies significant trends that are shaping the growth of the Autonomous vehicle sensors market. In this recently published report, essential dynamics such as drivers, restraints, and opportunities are highlighted for both established market players and emerging participants involved in production and supply.

To begin with, the Autonomous vehicle sensors Market report features an executive summary that offers a concise overview of the marketplace. It outlines the key players and industry categories expected to have an impact on the market in the coming years. The executive summary provides an unbiased summary of the market.

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Autonomous Vehicle Sensors Market Scope

Report Coverage Details
Growth Rate from 2024 to 2033 CAGR of 12.70%
Global Market Size in 2023 USD 8.87 Billion
Global Market Size by 2033 USD 29.19 Billion
Largest Market Europe
Base Year 2023
Forecast Period 2024 to 2033
Segments Covered By Type of Sensor, By Vehicle Type, By Level of Automation, and By Application
Regions Covered North America, Europe, Asia-Pacific, Latin America, and Middle East & Africa

Read More: Tumor Ablation Market Size to Reach USD 6.06 Billion by 2033

The empirical study on the global Autonomous vehicle sensors market primarily focuses on the drivers in subsequent sections. It demonstrates how changing demographics are projected to influence the supply and demand dynamics in the Autonomous vehicle sensors Market. Our market report for the Autonomous vehicle sensors market also delves into the significant rules and regulations that are likely to impact the future growth of this sector. Moreover, in order to comprehend the underlying demand factors, industry experts have provided insights into its fundamental origins.

Autonomous Vehicle Sensors Market Companies

  • BorgWarner Inc.
  • Fujitsu
  • NXP Semiconductors
  • Asahi Kasei Corporation
  • Lumentum Operations LLC
  • Valeo
  • Continental AG
  • Brigade Electronics
  • Navtech Radar
  • Teledyne Geospatial

Data Sources and Methodology

To gather comprehensive insights on the Global Autonomous vehicle sensors Market, we relied on a range of data sources and followed a well-defined methodology. Our approach involved interactions with industry experts and key stakeholders across the market’s value chain, including management organizations, processing organizations, and analytics service providers.

We followed a rigorous data analysis process to ensure the quality and credibility of our research. The gathered information was carefully evaluated, and relevant quantitative data was subjected to statistical analysis. By employing robust analytical techniques, we were able to derive meaningful insights and present a comprehensive overview of the Global Autonomous vehicle sensors Market.

The most resonating, simple, genuine, and important causes because of which you must decide to buy the Autonomous vehicle sensors market report exclusively from precedence research

  • The research report has been meticulously crafted to provide comprehensive knowledge on essential marketing strategies and a holistic understanding of crucial marketing plans spanning the forecasted period from 2023 to 2032.

Key Features of the Report:

  • Comprehensive Coverage: The report extensively encompasses a detailed explanation of highly effective analytical marketing methods applicable to companies across all industry sectors.
  • Decision-Making Enhancement: It outlines a concise overview of the decision-making process while highlighting key techniques to enhance it, ensuring favorable business outcomes in the future.
  • Articulated R&D Approach: The report presents a well-defined approach to conducting research and development (R&D) activities, enabling accurate data acquisition on current and future marketing conditions.

Market Segmentation:

By Type of Sensor

  • RADAR
  • LiDAR
  • Ultrasound
  • Camera
  • Others

By Vehicle Type

  • Passenger
  • Commercial

By Level of Automation

  • Level 1
  • Level 2
  • Level 3
  • Level 4
  • Level 5

By Application

  • Obstacle Detection
  • Navigation
  • Collision Avoidance
  • Others

By Geography

  • North America
  • Europe
  • Asia-Pacific
  • Latin America
  • Middle East and Africa

Reasons to Consider Purchasing the Report:

  • Enhance your market research capabilities by accessing this comprehensive and precise report on the global Autonomous vehicle sensors market.
  • Gain a thorough understanding of the overall market landscape and be prepared to overcome challenges while ensuring robust growth.
  • Benefit from in-depth research and analysis of the latest trends shaping the global Autonomous vehicle sensors market.
  • Obtain detailed insights into evolving market trends, current and future technologies, and strategic approaches employed by key players in the global Autonomous vehicle sensors market.
  • Receive valuable recommendations and guidance for both new entrants and established players seeking further market expansion.
  • Discover not only the cutting-edge technological advancements in the global Autonomous vehicle sensors market but also the strategic plans of industry leaders.

Table of Content

Chapter 1. Introduction

1.1. Research Objective

1.2. Scope of the Study

1.3. Definition

Chapter 2. Research Methodology (Premium Insights)

2.1. Research Approach

2.2. Data Sources

2.3. Assumptions & Limitations

Chapter 3. Executive Summary

3.1. Market Snapshot

Chapter 4. Market Variables and Scope 

4.1. Introduction

4.2. Market Classification and Scope

4.3. Industry Value Chain Analysis

4.3.1. Raw Material Procurement Analysis

4.3.2. Sales and Distribution Channel Analysis

4.3.3. Downstream Buyer Analysis

Chapter 5. COVID 19 Impact on Autonomous Vehicle Sensors Market 

5.1. COVID-19 Landscape: Autonomous Vehicle Sensors Industry Impact

5.2. COVID 19 – Impact Assessment for the Industry

5.3. COVID 19 Impact: Global Major Government Policy

5.4. Market Trends and Opportunities in the COVID-19 Landscape

Chapter 6. Market Dynamics Analysis and Trends

6.1. Market Dynamics

6.1.1. Market Drivers

6.1.2. Market Restraints

6.1.3. Market Opportunities

6.2. Porter’s Five Forces Analysis

6.2.1. Bargaining power of suppliers

6.2.2. Bargaining power of buyers

6.2.3. Threat of substitute

6.2.4. Threat of new entrants

6.2.5. Degree of competition

Chapter 7. Competitive Landscape

7.1.1. Company Market Share/Positioning Analysis

7.1.2. Key Strategies Adopted by Players

7.1.3. Vendor Landscape

7.1.3.1. List of Suppliers

7.1.3.2. List of Buyers

Chapter 8. Global Autonomous Vehicle Sensors Market, By Type of Sensor

8.1. Autonomous Vehicle Sensors Market Revenue and Volume Forecast, by Type of Sensor, 2024-2033

8.1.1. RADAR

8.1.1.1. Market Revenue and Volume Forecast (2021-2033)

8.1.2. LiDAR

8.1.2.1. Market Revenue and Volume Forecast (2021-2033)

8.1.3. Ultrasound

8.1.3.1. Market Revenue and Volume Forecast (2021-2033)

8.1.4. Camera

8.1.4.1. Market Revenue and Volume Forecast (2021-2033)

8.1.5. Others

8.1.5.1. Market Revenue and Volume Forecast (2021-2033)

Chapter 9. Global Autonomous Vehicle Sensors Market, By Vehicle Type

9.1. Autonomous Vehicle Sensors Market Revenue and Volume Forecast, by Vehicle Type, 2024-2033

9.1.1. Passenger

9.1.1.1. Market Revenue and Volume Forecast (2021-2033)

9.1.2. Commercial

9.1.2.1. Market Revenue and Volume Forecast (2021-2033)

Chapter 10. Global Autonomous Vehicle Sensors Market, By Level of Automation 

10.1. Autonomous Vehicle Sensors Market Revenue and Volume Forecast, by Level of Automation, 2024-2033

10.1.1. Level 1

10.1.1.1. Market Revenue and Volume Forecast (2021-2033)

10.1.2. Level 2

10.1.2.1. Market Revenue and Volume Forecast (2021-2033)

10.1.3. Level 3

10.1.3.1. Market Revenue and Volume Forecast (2021-2033)

10.1.4. Level 4

10.1.4.1. Market Revenue and Volume Forecast (2021-2033)

10.1.5. Level 5

10.1.5.1. Market Revenue and Volume Forecast (2021-2033)

Chapter 11. Global Autonomous Vehicle Sensors Market, By Application 

11.1. Autonomous Vehicle Sensors Market Revenue and Volume Forecast, by Application, 2024-2033

11.1.1. Obstacle Detection

11.1.1.1. Market Revenue and Volume Forecast (2021-2033)

11.1.2. Navigation

11.1.2.1. Market Revenue and Volume Forecast (2021-2033)

11.1.3. Collision Avoidance

11.1.3.1. Market Revenue and Volume Forecast (2021-2033)

11.1.4. Others

11.1.4.1. Market Revenue and Volume Forecast (2021-2033)

Chapter 12. Global Autonomous Vehicle Sensors Market, Regional Estimates and Trend Forecast

12.1. North America

12.1.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.1.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.1.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.1.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.1.5. U.S.

12.1.5.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.1.5.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.1.5.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.1.5.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.1.6. Rest of North America

12.1.6.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.1.6.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.1.6.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.1.6.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.2. Europe

12.2.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.2.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.2.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.2.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.2.5. UK

12.2.5.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.2.5.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.2.5.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.2.5.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.2.6. Germany

12.2.6.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.2.6.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.2.6.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.2.6.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.2.7. France

12.2.7.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.2.7.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.2.7.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.2.7.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.2.8. Rest of Europe

12.2.8.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.2.8.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.2.8.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.2.8.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.3. APAC

12.3.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.3.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.3.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.3.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.3.5. India

12.3.5.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.3.5.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.3.5.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.3.5.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.3.6. China

12.3.6.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.3.6.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.3.6.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.3.6.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.3.7. Japan

12.3.7.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.3.7.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.3.7.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.3.7.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.3.8. Rest of APAC

12.3.8.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.3.8.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.3.8.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.3.8.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.4. MEA

12.4.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.4.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.4.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.4.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.4.5. GCC

12.4.5.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.4.5.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.4.5.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.4.5.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.4.6. North Africa

12.4.6.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.4.6.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.4.6.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.4.6.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.4.7. South Africa

12.4.7.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.4.7.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.4.7.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.4.7.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.4.8. Rest of MEA

12.4.8.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.4.8.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.4.8.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.4.8.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.5. Latin America

12.5.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.5.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.5.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.5.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.5.5. Brazil

12.5.5.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.5.5.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.5.5.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.5.5.4. Market Revenue and Volume Forecast, by Application (2021-2033)

12.5.6. Rest of LATAM

12.5.6.1. Market Revenue and Volume Forecast, by Type of Sensor (2021-2033)

12.5.6.2. Market Revenue and Volume Forecast, by Vehicle Type (2021-2033)

12.5.6.3. Market Revenue and Volume Forecast, by Level of Automation (2021-2033)

12.5.6.4. Market Revenue and Volume Forecast, by Application (2021-2033)

Chapter 13. Company Profiles

13.1. BorgWarner Inc.

13.1.1. Company Overview

13.1.2. Product Offerings

13.1.3. Financial Performance

13.1.4. Recent Initiatives

13.2. Fujitsu

13.2.1. Company Overview

13.2.2. Product Offerings

13.2.3. Financial Performance

13.2.4. Recent Initiatives

13.3. NXP Semiconductors

13.3.1. Company Overview

13.3.2. Product Offerings

13.3.3. Financial Performance

13.3.4. Recent Initiatives

13.4. Asahi Kasei Corporation

13.4.1. Company Overview

13.4.2. Product Offerings

13.4.3. Financial Performance

13.4.4. Recent Initiatives

13.5. Lumentum Operations LLC

13.5.1. Company Overview

13.5.2. Product Offerings

13.5.3. Financial Performance

13.5.4. Recent Initiatives

13.6. Valeo

13.6.1. Company Overview

13.6.2. Product Offerings

13.6.3. Financial Performance

13.6.4. Recent Initiatives

13.7. Continental AG

13.7.1. Company Overview

13.7.2. Product Offerings

13.7.3. Financial Performance

13.7.4. Recent Initiatives

13.8. Brigade Electronics

13.8.1. Company Overview

13.8.2. Product Offerings

13.8.3. Financial Performance

13.8.4. Recent Initiatives

13.9. Navtech Radar

13.9.1. Company Overview

13.9.2. Product Offerings

13.9.3. Financial Performance

13.9.4. Recent Initiatives

13.10. Teledyne Geospatial

13.10.1. Company Overview

13.10.2. Product Offerings

13.10.3. Financial Performance

13.10.4. Recent Initiatives

Chapter 14. Research Methodology

14.1. Primary Research

14.2. Secondary Research

14.3. Assumptions

Chapter 15. Appendix

15.1. About Us

15.2. Glossary of Terms

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