The Worldwide Automotive LiDAR Industry is Expected to Reach $8.6 Billion by 2030: Technological Superiority of LiDAR is Driving Growth

DUBLIN, Dec. 19, 2022 /PRNewswire/ — The “Automotive LiDAR Market by Technology (Solid-state LiDAR, & Mechanical LiDAR), Image Type (2D & 3D), Measurement Process (ToF, FMCW), Location, EV Type, ICE Vehicle Type, Maximum Range, Laser Wavelength, Autonomy and Region – Global Forecast to 2030” report has been added to  ResearchAndMarkets.com’s offering.



The global automotive LiDAR market is projected to grow from USD 555 million in 2022 to USD 8,611 million by 2030, at a CAGR of 40.9%.

Bumpers & grills segment is expected to be the largest market during the forecast period, by location.

The bumpers & grills segment is expected to have significant growth opportunities during the forecast period. The use of LiDAR sensors in bumpers & grills improves the aesthetics of autonomous vehicles and helps with the proper functioning of LiDAR technology. Most level 4 and level 5 autonomous vehicles will be equipped with LiDAR sensors at bumpers & grills in the coming years. Currently, automotive OEM Audi (Germany) has incorporated a LiDAR sensor at the bumper & grill in its A8 model.

North America is expected to have significant growth during the forecast period.

The North American region is expected to have significant growth during the forecast period. This region is typically dominated by automotive OEMs such as General Motors, and Ford Motor Company, paired with some established Asian as well as European automotive OEMs such as Nissan Corporation (Japan), Toyota Motor Corporation (Japan), BMW Group (Germany), Hyundai/Kia (South Korea), Honda (Japan), and Volkswagen Group (Germany).

In addition, the consistent increase in sales of luxury vehicles is likely to positively impact the demand for self-driving cars in North America. The large customer base and high disposable income levels in the region have fueled the demand for premium passenger cars.

All these parameters are expected to bolster the revenue growth of the North America automotive LiDAR market during the forecast period. The US is projected to be the largest automotive LiDAR market in North America. There is a wide variety of car models equipped with automotive LiDAR sensors available in the country, such as the BMW 7 Series, Mercedes-Benz S-Class, Toyota MIRAI, and Audi A8.

BEV segment is estimated to be the promising segment in the automotive LiDAR market during the forecast period

BEV is expected to be the promising segment by electric vehicle type during the forecast period. According to primary inputs, the penetration of BEVs is anticipated to increase in the coming years due to strict emission norms introduced by governments of various countries and the increased driving range of electric vehicles. Governments of some countries now provide subsidies for environment-friendly cars to encourage the use of BEVs.

The BEV segment is expected to have a noticeable growth rate. Sales of BEV in 2020 were approximately 2 million units, which increased to 4.7 million units in 2021. The BEV sales clearly show that the BEV segment witnessed a growth of approximately 130% in 2021 over 2020. All these factors, are expected to augment revenues for BEV segment of the automotive LiDAR market during the forecast period.

Key Topics Covered:

1 Introduction

2 Research Methodology

3 Executive Summary

4 Premium Insights

4.1 Attractive Opportunities for Players in Automotive LiDAR Market

4.2 Automotive LiDAR Market, by Region

4.3 Automotive LiDAR Market, by Technology

4.4 Automotive LiDAR Market, by Image Type

4.5 Automotive LiDAR Market, by Laser Wavelength

4.6 Automotive LiDAR Market, by Measurement Process

4.7 Automotive LiDAR Market, by Location

4.8 Automotive LiDAR Market, by Ice Vehicle Type

4.9 Automotive LiDAR Market, by Electric Vehicle Type

4.10 Automotive LiDAR Market, by Level of Autonomy

4.11 Automotive LiDAR Market, by Maximum Range

5 Market Overview

5.1 Introduction

5.2 Market Dynamics

5.2.1 Drivers

5.2.1.1 Technological Superiority of LiDAR

5.2.1.2 Rising Trend of Semi-Autonomous Vehicles

5.2.1.3 Increased Demand for Premium Vehicles

5.2.1.4 Growing Demand for Safety and Driving Comfort Features

5.2.1.5 Increasing Vehicle Safety Regulations and Growing Adoption of Adas

5.2.2 Restraints

5.2.2.1 High Cost of LiDAR

5.2.2.2 Lack of Required Infrastructure in Emerging Economies

5.2.2.3 Consumer Acceptance of Self-Driving Cars

5.2.2.4 Availability of Alternatives

5.2.3 Opportunities

5.2.3.1 Rising Demand for Electric Vehicles

5.2.3.2 Developments in Autonomous Vehicles

5.2.3.3 Sensor Fusion Technology for Autonomous Driving Systems

5.2.4 Challenges

5.2.4.1 Environmental Constraints

5.2.4.2 Technology Integration

5.2.5 Impact of Market Dynamics

5.3 Trends and Disruptions Impacting Market

5.4 Porter’s Five Forces Analysis

5.5 Average Selling Price Trend

5.6 Automotive LiDAR Market Ecosystem

5.7 Supply Chain Analysis

5.8 Macroeconomic Indicators

5.8.1 GDP Trends and Forecasts for Major Economies

5.8.2 World Motor Vehicle Production Statistics in 2021

5.9 Patent Analysis

5.10 Case Studies

5.10.1 Aeye LiDAR Outperforms in Rain, Behind Windshield

5.10.2 Autonomoustuff Driving Autonomous Vehicles

5.10.3 Mercedes-Benz S-Class to be Equipped New Valeo’s Second-Generation LiDAR

5.10.4 Transit Bus Collision Avoidance System to Protect Vulnerable Road Users with Flash LiDAR

5.11 Value Chain Analysis

5.12 Trade Analysis

5.13 Regulatory Overview

5.14 Key Conferences and Events in 2022 and 2023

6 Industry Trends

6.1 Technology Analysis

6.1.1 Introduction

6.1.2 Technological Evolution of LiDAR in the Automotive Industry

6.1.3 Role of LiDAR Technologies in the Automotive Industry

6.1.3.1 Mechanical Laser LiDAR

6.1.3.2 Solid-State LiDAR

6.1.3.3 Emergence of 4D LiDAR

6.2 Democratization of Self-Driving Cars

6.2.1 Tier 1 and OEM Adas Package Pricing

6.2.1.1 Mercedes

6.2.1.2 Audi

6.2.1.3 Cadillac

6.3 Autonomous Cars Development and Deployment

6.3.1 Daimler AG

6.3.2 Tusimple

6.3.3 Argo AI and Ford

6.3.4 Baidu

6.3.5 Didi Chuxing

6.3.6 Toyota, Pony.AI, and Hyundai

6.3.7 Waymo

6.3.8 Voyage

6.3.9 General Motors and Cruise

6.3.10 Volvo

6.3.11 Einride

6.4 Model-Wise Adas Offerings

6.4.1 Tesla

6.4.2 Toyota

6.4.2.1 Corolla

6.4.2.2 Camry

6.4.2.3 Avalon

6.4.2.4 Rav4

6.4.2.5 Tundra

6.4.3 Nissan

6.4.3.1 Versa

6.4.3.2 Altima

6.4.3.3 Nissan Leaf

6.4.3.4 Nissan Titan

6.4.4 Honda

6.4.4.1 Civic

6.4.4.2 Accord

6.4.5 Mercedes

6.4.5.1 A-Class Sedan

6.4.5.2 C-Class Sedan

6.4.5.3 E-Class Sedan

6.4.5.4 Glb SUV

6.4.6 Audi

6.4.6.1 A3 Sedan

6.4.6.2 Q3

6.4.7 Lexus

6.4.7.1 Lexus Es

6.4.7.2 Lexus Ls

6.4.7.3 Lexus Nx

6.4.8 Cadillac

6.4.8.1 Cadillac Ct6

6.4.8.2 Cadillac Xt4

6.5 Automotive LiDAR Market Scenarios (2022-2030)

6.5.1 Most Likely Scenario

6.5.2 Optimistic Scenario

6.5.3 Pessimistic Scenario

7 Automotive LiDAR Market, by Technology

7.1 Introduction

7.1.1 Operational Data

7.1.2 Assumptions

7.1.3 Research Methodology

7.2 Mechanical LiDAR

7.2.1 Increasing Focus Toward 360-Degree Full View to Drive Market Growth

7.3 Solid-State LiDAR

7.3.1 Expected to Gain Traction due to Compact Size and Low Cost

7.3.2 Microelectromechanical Systems (Mems) LiDAR

7.3.3 Flash LiDAR

7.3.4 Optical Phase Array (Opa)

7.3.5 Others

7.4 Key Primary Insights

8 Automotive LiDAR Market, by Image Type

8.1 Introduction

8.1.1 Assumptions

8.1.2 Research Methodology

8.2 2D

8.2.1 Increased Focus on 3D LiDAR Sensors to Impact Growth

8.3 3D

8.3.1 Real-Time Data Acquisition to Drive Growth

8.4 Key Primary Insights

9 Automotive LiDAR Market, by Ice Vehicle Type

9.1 Introduction

9.1.1 Assumptions

9.1.2 Research Methodology

9.2 Passenger Cars

9.2.1 Increased Investment in Autonomous Driving Technology to Aid Growth

9.3 Commercial Vehicles

9.3.1 Advancement in Autonomous Trucks to Support Segment Growth

9.4 Key Primary Insights

10 Automotive LiDAR Market, by Location

10.1 Introduction

10.1.1 Assumptions

10.1.2 Research Methodology

10.2 Bumpers and Grills

10.2.1 Increasing Demand for Short-Range LiDAR

10.3 Headlights and Taillights

10.3.1 Improved Functionality in Autonomous Vehicles

10.4 Roofs and Upper Pillars

10.4.1 Focus on Long-Range Detection Technology

10.5 Other Locations

10.5.1 Increasing Tests and Trials

10.6 Key Primary Insights

11 Automotive LiDAR Market, by Electric Vehicle Type

11.1 Introduction

11.1.1 Assumptions

11.1.2 Research Methodology

11.2 BEV

11.2.1 Government Initiatives to be Major Drivers

11.3 FCEV

11.3.1 Plays Key Role in Moving Toward Zero Emissions

11.4 HEV

11.4.1 Emerging Technology and Increased Efficiency to Drive Use

11.5 PHEV

11.5.1 Greater Range to Drive Development

11.6 Key Primary Insights

12 Automotive LiDAR Market, by Maximum Range

12.1 Introduction

12.1.1 Operational Data

12.1.2 Assumptions

12.1.3 Research Methodology

12.2 Short and Mid-Range (170 M and Below)

12.2.1 Wide Acceptance of Short-Range Detection Technology

12.3 Long-Range (Above 170 M)

12.3.1 Increasing Focus Toward L4 & L5 Autonomy

12.4 Key Primary Insights

13 Automotive LiDAR Market, by Laser Wavelength

13.1 Introduction

13.1.1 Operational Data

13.1.2 Assumptions

13.1.3 Research Methodology

13.2 Near Infrared (Nir)

13.2.1 Enhanced Proximity-Sensing Features

13.3 Short-Wave Infrared (Swir)

13.3.1 Superior Imaging Features

13.4 Long-Wave Infrared (Lwir)

13.4.1 Untapped Potential for Growth

13.5 Key Primary Insights

14 Automotive LiDAR Market, by Measurement Process

14.1 Introduction

14.1.1 Operational Data

14.1.2 Assumptions

14.1.3 Research Methodology

14.2 Time of Flight (Tof)

14.2.1 Wide Acceptance of Tof Technology

14.3 Fmcw

14.3.1 Expected to Gain Traction due to Advantages Over Conventional LiDAR

14.4 Key Primary Insights

15 Automotive LiDAR Market, by Level of Autonomy

15.1 Introduction

15.1.1 Operational Data

15.1.2 Assumptions

15.1.3 Research Methodology

15.2 Semi-Autonomous

15.2.1 Prevalence of Level 3 Self-Driving Car Models

15.3 Autonomous

15.3.1 Increasing Demand for Autonomous Vehicles

15.4 Key Primary Insights

16 Automotive LiDAR Market, by Region

17 Competitive Landscape

17.1 Overview

17.2 Market Ranking Analysis

17.3 Competitive Scenario

17.3.1 Product Launches, 2021-2022

17.3.2 Deals

17.3.3 Expansions

17.4 Competitive Leadership Mapping

17.4.1 Stars

17.4.2 Emerging Leaders

17.4.3 Pervasive Players

17.4.4 Participants

17.5 SME Evaluation Quadrant for Automotive LiDAR Market

17.5.1 Progressive Companies

17.5.2 Responsive Companies

17.5.3 Dynamic Companies

17.5.4 Starting Blocks

18 Company Profiles

18.1 Key Players

18.1.1 Valeo

18.1.2 Denso Corporation

18.1.3 Innoviz Technologies Ltd.

18.1.4 Velodyne LiDAR, Inc.

18.1.5 Luminar Technologies, Inc.

18.1.6 Continental AG

18.1.7 Ouster, Inc.

18.1.8 Robert Bosch GmbH

18.1.9 Trimble Inc.

18.1.10 Aptiv

18.1.11 Zf Friedrichshafen AG

18.1.12 Infineon Technologies AG

18.2 Other Players

18.2.1 Quanergy Systems, Inc.

18.2.2 Robosense

18.2.3 Marelli Corporation

18.2.4 Huawei Technologies Co. Ltd.

18.2.5 Pioneer Corporation

18.2.6 Aeva, Inc.

18.2.7 Argo AI, LLC

18.2.8 Cepton, Inc.

18.2.9 Blickfeld GmbH

18.2.10 Ibeo Automotive Systems GmbH

18.2.11 Innovusion, Inc.

18.2.12 Hesai

18.2.13 Livox

18.2.14 Hexagon

19 Analyst’s Recommendations

20 Appendix

For more information about this report visit https://www.researchandmarkets.com/r/9517zb

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