Automotive LiDAR Market, Analysis & Forecast- 2017 to 2026 - HARD COPY

The global automotive LiDAR market is at an initial development stage, however, is expected to experience an exponential growth rate in the future due to increase in number of automated vehicles, superior performance of LiDARs in comparison to other sensors and rising concerns for improving road safety. The high growth potential of automotive LiDAR market is attracting several industry players to strengthen their market positions through strategies such as mergers & acquisitions and collaborations and agreements, among others. LiDARs find widespread usage in different levels of automation, the different level of vehicle automation include level 2 (partial automation), level 3 (conditional automation), level 4 (high automation) and level 5 (fully autonomous). For lower levels of automation single LiDAR is integrated in the automated system, in the other hand due to greater amount of data required in high end automation levels multiple LiDARs are integrated in vehicles. The analysis at BIS Research shows that the market value for automotive LiDAR for the year 2016 was estimated to be $65 million.

Following points provide a comprehensive description of the report content and the topics covered in the report:
This report identifies the global automotive LiDAR market under different segments such as by type, level of automation, and geography
The study includes the market analysis and forecast of global automotive LiDAR market for different types of LiDARs, mechanical and solid state LiDARs in years 2016 to 2026
The report covers current market trends and insights of LiDARs to be integrated according to different level of automation such as LiDARs for level 2, level 3, level 4, and level 5 automation. Market values of these LiDARs has been estimated for the year 2016 values for the year 2017-2025 have been calculated and are provided in the report
In addition to this, market values of LiDARs for different level of automation have been further segmented by LiDAR type and values for these are provided in the report
The study examines the prime supply and demand side factors affecting the growth of the market along with the current and future trends prevalent in the global automotive LiDAR market
The report further presents a detailed examination of automotive LiDAR market along the lines of market drivers, restraints, and growth opportunities
The report also highlights the competitive rivalry and value chain analysis of the LiDAR market
A detailed competitive analysis has been included in this report which focuses on the key market developments & strategies followed by the important players in the market
Automotive LiDAR market has been analyzed for all major geographies including North America, Europe, Asia-Pacific, and Rest of the World with thorough analysis with respect to LiDARs for different level of automation. Furthermore, individual regions has been segmented and analyzed according to major countries
The key market players are analyzed and profiled in detail in the report. This section covers business financials, company snapshots, key products & services, major developments, and future programs (if any).
Executive Summary
1 Research Scope & BIS Methodology
1.1 Scope of the Report
1.2 Global Automotive LiDAR Market Research Methodology
2 Market Dynamics
2.1 Market Drivers
2.1.1 Increasing Adoption of LiDARs in Automobiles
2.1.2 Superior Performance of LiDARs as Compared to Other Sensors
2.1.3 Growing Demand for Miniaturized Micro-Electro-Mechanical Systems (MEMS) Sensors
2.2 Market Challenges
2.2.1 High Price of Automotive LiDAR
2.2.2 Inaccurate Outputs in Adverse Weather Conditions
2.2.3 Complex Design and Development of LiDAR Safety Systems
2.3 Market Opportunities
2.3.1 Increasing Adoption of LiDAR Among Different Level of Automations
2.3.2 High Anticipated Growth Rate For Solid State LiDAR Manufacturers
2.3.3 High Potential Growth for Semi-Conductor Companies in the Automotive Industry
3 Competitive Landscape
3.1 Introduction
3.1.1 Mergers and Acquisitions
3.1.2 Partnerships and Collaborations
3.1.3 Product Launch
3.1.4 Business Expansions
3.1.5 Others (Events & Recognitions)
3.2 Value Chain Analysis
3.3 Market Share Analysis
3.4 Competitive Rivalry
3.5 Patent Analysis
3.5.1 Optical Phased Array LiDAR System and Methods of Usage
3.5.2 Omnidirectional LiDAR System
3.5.3 System and Method For Traffic Side Detection and Characterization
3.5.4 High Definition LiDAR System
3.5.5 Method for Localizing a Vehicle Equipped with Two LiDAR Systems
3.5.6 Vehicle LiDAR System
3.5.7 Vertical Alignment of a LiDAR Sensor
3.5.8 Detection and Ranging Methods and Systems
3.5.9 Low Cost Small Size LiDAR for Automotive
3.5.10 Roll Stability Control System for an Automotive Vehicle Using an External Environmental Sensing System
3.5.11 LiDAR System Utilizing SOI-Based Opto-Electronic Compounds
3.5.12 LiDAR System Comprising a Single-Photon Detector
3.5.13 Traffic Scanning LIDAR
3.5.14 First Warning System for Automotive Vehicles
3.5.15 Automatic Driving Route Planning Application
3.5.16 Driver Assistance System for Displaying Surroundings of a Vehicle
4 Global Automotive LiDAR Market Analysis and Forecast
4.1 Assumptions & Limitations for Market Size Calculations
4.2 Technology Road Map
4.3 Market Overview
5 Global Automotive LiDAR Market by LiDAR Type
5.1 Mechanical Automotive LiDAR
5.2 Solid State Automotive LiDAR
6 Global Automotive LiDAR Market by Technology Level
6.1 Level 2 (Partial Automation) Automotive LiDAR Market Size, 2016-2026
6.2 Level 3 (Conditional Automation) Automotive LiDAR Market, 2016-2026
6.3 Level 4 (High Automation) Automotive LiDAR Market
6.4 Level 5 (Full Automation) Automotive LiDAR Market
7 Global Automotive LiDAR Vehicle Market by Geography
7.1 North America: Automotive LiDAR Market, 2016-2026
7.1.1 The U.S.: Automotive LiDAR Market, 2016-2026
7.1.2 Canada: Automotive LiDAR Market, 2016-2026
7.2 Europe Automotive LiDAR Market, 2016-2026
7.2.1 Germany Automotive LiDAR Market, 2016-2026
7.2.2 The U.K. Automotive LiDAR Market, 2016-2026
7.2.3 France Automotive LiDAR Market, 2016-2026
7.3 Asia Pacific (APAC) Automotive LiDAR Market, 2016-2026
7.3.1 China Automotive LiDAR Market, 2016-2026
7.3.2 Japan Automotive LiDAR Market, 2016-2026
7.3.3 South Korea Automotive LiDAR Market, 2016-202
7.4 Rest of the World (RoW) Automotive LiDAR Market, 2016-2026
7.4.1 Middle East and Africa (MEA) Automotive LiDAR Market, 2016-2026
7.4.2 Latin America Automotive LiDAR Market, 2016-2026
8 Company Profiles
8.1 Benewake Co., Ltd.
8.1.1 Company Overview
8.1.2 Product Offerings
8.2 Continental AG
8.2.1 Company Overview
8.2.2 Product Offerings
8.2.3 Financials
8.2.3.1 Business Segment Revenue Mix
8.2.4 Financial Summary
8.2.5 SWOT Analysis
8.3 Garmin Ltd.
8.3.1 Company Overview
8.3.2 Product Offerings
8.3.3 Financials
8.3.3.1 Overall Financials
8.3.3.2 Business Segment Revenue
8.3.3.3 Geographical Revenue
8.3.4 Financial Summary
8.3.5 SWOT Analysis
8.4 GeoDigital International Inc.
8.4.1 Company Overview
8.4.2 Product Offerings
8.5 Infineon Technologies AG
8.5.1 Company Overview
8.5.2 Product Offerings
8.5.3 Financials
8.5.3.1 Overall Financials
8.5.3.2 Business Segment Revenue
8.5.3.3 Geographic Revenue Mix
8.5.4 Financial Summary
8.5.5 SWOT Analysis
8.6 IBEO Automotive Systems GmBH
8.6.1 Company Overview
8.6.2 Product Offerings
8.6.3 SWOT Analysis
8.7 Innoviz Technologies
8.7.1 Company Overview
8.7.2 Product Offerings
8.7.3 Financial Scenario
8.8 LeddarTech
8.8.1 Company Overview
8.8.2 Product Offerings
8.9 Osram Licht AG
8.9.1 Company Overview
8.9.2 Product Offerings
8.9.3 Financials
8.9.3.1 Overall Financials
8.9.3.1 Geographical Revenue
8.9.4 Financial Summary
8.9.5 SWOT Analysis
8.10 Phantom Intelligence Inc.
8.10.1 Company Overview
8.10.2 Product Offering
8.11 Princeton Lightwave Inc.
8.11.1 Company Overview
8.11.2 Product Offerings
8.12 Quanergy Systems Inc.
8.12.1 Company Overview
8.12.2 Product Offerings
8.12.3 SWOT Analysis
8.13 Sensata Technologies, Inc.
8.13.1 Company Overview
8.13.2 Financials
8.13.3 Financial Summary
8.13.4 SWOT Analysis
8.14 SensL Technologies Ltd
8.14.1 Company Overview
8.14.2 Product Offering
8.15 TriLumina, Corp.
8.15.1 Company Overview
8.15.2 Product Offerings
8.15.3 Investment Scenario
8.16 Velodyne Lidar
8.16.1 Company Overview
8.16.2 Product Offerings
8.16.3 SWOT Analysis
9 Appendix
9.1 Related Reports
List of Tables
Table 2.1 Comparison of Features: LiDAR, Radar and Cameras
Table 3.1 Mergers and Acquisitions
Table 3.2 Partnerships and Collaborations
Table 3.3 Product Launches
Table 3.4 Business Expansion from 2016-2017
Table 3.5 Key Awards/Achievements/Events
Table 3.6 Mechanical Vs Solid-State LiDAR
Table 3.7 Overview of Optical Phased Array LiDAR System
Table 3.8 Overview of Omnidirectional LiDAR System
Table 3.9 Overview of Traffic side detection
Table 3.10 Overview of High Definition LiDAR System
Table 3.11 Overview of Localization of Vehicle with Two LiDAR
Table 3.12 Overview of Vehicle LiDAR System
Table 3.13 Overview Table for Vertical Alignment of LiDAR Sensor
Table 3.14 Overview Table of Detection and Ranging Methods
Table 3.15 Overview Table of Low Cost and Small Size LiDAR
Table 3.16 Overview Table of Roll Stability Control System
Table 3.17 Overview Table of SOI-based Opto-electronic Compounds
Table 3.18 Overview Table of a Single-photon Detector
Table 3.19 Overview Table of Traffic Scanning LiDAR
Table 3.20 Overview Table of First Warning System for Automotive Vehicles
Table 3.21 Overview Table of Automatic Driving Route Planning Application
Table 3.22 Overview Table of Driver Assistance System for Displaying Surroundings of a Vehicle
Table 4.1 Global Automotive LiDAR Market Insights, 2016-2026
Table 5.1 Global Automotive LiDAR Market by Type, 2016-2026
Table 6.1 Level 3 (Conditional Automation) LiDAR by Type, 2016-2026 ($Million)
Table 6.2 Level 4 (High Automation) LiDAR by Type, 2016-2026 ($Million)
Table 6.3 Level 5 (Full Automation) LiDAR by Type, 2016-2026 ($Million)
Table 7.1 North America Automotive LiDAR Market, 2016-2026 ($Million)
Table 7.2 North America Automotive LiDAR Market by Level of Automation, 2016-2026 ($Million)
Table 7.3 The U.S. Automotive LiDAR Market by Level of Automation, 2016-2026 ($Thousand)
Table 7.4 Canada Automotive LiDAR Market by Level of Automation, 2016-2026 ($Thousand)
Table 7.5 Europe Automotive LiDAR Market by Level of Automation, 2016-2026 ($Million)
Table 7.6 Germany Automotive LiDAR Market by Level of Automation, 2016-2026 ($Million)
Table 7.7 The U.K. Automotive LiDAR Market by Level of Automation, 2016-2026 ($Million)
Table 7.8 France Automotive LiDAR Market by Level of Automation, 2016-2026 ($Thousand)
Table 7.9 APAC Automotive LiDAR Market by Level of Automation, 2016-2026 ($Million)
Table 7.10 China Automotive LiDAR Market by Level of Automation, 2016-2026 ($Thousand)
Table 7.11 Japan Automotive LiDAR Market by Level of Automation, 2016-2026 ($Million)
Table 7.12 South Korea Automotive LiDAR Market by Level of Automation, 2016-2026 ($Thousand)
Table 7.13 RoW Automotive LiDAR Market by Level of Automation, 2016-2026 ($Thousand)
Table 7.14 MEA Automotive LiDAR Market by Level of Automation, 2016-2026 ($Thousand)
Table 7.15 Latin America LiDAR Market by Level of Automation, 2016-2026 ($Thousand)
Table 8.1 TriLumina, Corp.: Investment Scenario, 2015-2016
List of Figures
Figure 1 Global Automotive LiDAR Market Size, 2016-2026
Figure 2 Global Automotive LiDAR Market by Type, 2016-2026 ($Million)
Figure 3 Global Automotive LiDAR Market by Level of Automation, 2016-2026 ($Million)
Figure 4 Global Automotive LiDAR Market by Countries, 2016 & 2026 ($Million)
Figure 1.1 Global Automotive LiDAR Market Segmentation
Figure 1.2 Secondary Data Sources
Figure 1.3 Top Down and Bottom Up Approach for Global Automotive LiDAR Market
Figure 1.4 Global Automotive LiDAR Market Influencing Factors
Figure 1.5 Assumptions and Limitations
Figure 2.1 Market Dynamics of Automotive LiDAR
Figure 2.2 Complexity in Systems Leading to Failures
Figure 2.3 Factors for Semi-Conductor Companies in Automotive Industry
Figure 3.1 Organic & Inorganic Strategies Adopted by the Key Players
Figure 3.2 Share of Key Market Strategies & Developments
Figure 3.3 Value Chain Analysis of Global Automotive LiDAR Market
Figure 3.4 Market Share Analysis: Global Automotive LiDAR Market
Figure 3.5 Mechanical and Solid-State LiDAR Market Penetration Rate
Figure 4.1 Global Automotive System Technology Road Map
Figure 5.1 Automotive LiDAR Type
Figure 5.2 Global Automotive LiDAR Market by Type, 2016-2026 ($Million)
Figure 5.3 Comparison: Mechanical LiDAR vs Solid State LiDAR
Figure 5.4 Mechanical Automotive LiDAR Market Value, 2016-2026 ($Million)
Figure 5.5 Benefits of Solid State LiDAR
Figure 5.6 Solid State Automotive LiDAR Market Value, 2016-2026 ($Million)
Figure 6.1 Global Automotive LiDAR Market: Different Level of Automation
Figure 6.2 Global Automotive Market Share Scenario by Level of Automation (%), 2016 & 2026
Figure 6.3 Key Technologies: Level 2 (Partial Automation) Automation
Figure 6.4 Level 2 (Partial Automation) Automotive LiDAR Market Value, 2016-2026 ($Million)
Figure 6.5 Key Technologies: Level 3 (Conditional Automation) Systems
Figure 6.6 Level 3 (Conditional Automation) Automotive LiDAR Market Value, 2016-2026 ($Million)
Figure 6.7 Level 3 Market Share Scenario by Type (%), 2016 & 2026
Figure 6.8 Key Technologies: Level 4 (High Automation)
Figure 6.9 Level 4 (High Automation) Automotive LiDAR Market Value, 2016-2026 ($Million)
Figure 6.10 Level 4 Market Share Scenario by Type (%), 2016 & 2026
Figure 6.11 Level 5 (Full Automation) Automotive LiDAR Market Value, 2016-2026 ($Million)
Figure 6.12 Level 5 Market Share Scenario by Type (%), 2017 & 2026
Figure 7.1 Global Automotive LiDAR Market by Geography
Figure 7.2 Global Automotive LiDAR Market by Geography
Figure 7.3 Global Automotive LiDAR Market Share by Geography, 2016-2026 ($Million)
Figure 7.4 Global Automotive LiDAR Market Share (%) by Geography, 2016 & 2026
Figure 7.5 Europe Automotive LiDAR Market, 2016-2026 ($Million)
Figure 7.6 Europe Automotive LiDAR Market Scenario by Country, 2016-2026
Figure 7.7 APAC Automotive LiDAR Market, 2016-2026 ($Million)
Figure 7.8 APAC Automotive LiDAR Market Scenario by Country, 2016-2026
Figure 7.9 RoW Automotive LiDAR Market, 2016-2026 ($Million)
Figure 7.10 RoW LiDAR Market Scenario by Region, 2016-2026
Figure 8.1 Benewake Co., Ltd.: Product Offerings
Figure 8.2 Continental AG: Product Offerings
Figure 8.3 Continental AG: Overall Financials, 2014-2016
Figure 8.4 Continental AG: Business Segment Revenue by Geography, 2014-2016
Figure 8.5 Continental AG: Business Segment Revenue Mix 2014-2016
Figure 8.6 Continental AG: Automotive Segment Share, 2016
Figure 8.7 Continental AG: SWOT Analysis
Figure 8.8 Garmin Ltd.: Product Offerings
Figure 8.9 Garmin Ltd.: Overall Financials, 2014-2016
Figure 8.10 Garmin Ltd.: Market Revenue by Business Segment
Figure 8.11 Garmin Ltd.: Market Revenue by Geographical Segmentation
Figure 8.12 Garmin Ltd: SWOT Analysis
Figure 8.13 GeoDigital International Inc.: Product Offerings
Figure 8.14 Infineon Technologies AG: Product Offerings
Figure 8.15 Infineon Technologies AG: Overall Financials, 2014-2016
Figure 8.16 Infineon Technologies AG: Business Segment Revenue, 2014-2016
Figure 8.17 Infineon Technologies AG: Business Segment Revenue by Geography, 2014-2016
Figure 8.18 Infineon Technologies: SWOT Analysis
Figure 8.19 Ibeo Automotive Systems: Product Offerings
Figure 8.20 Ibeo Automotive Systems GmbH: SWOT Analysis
Figure 8.21 Innoviz Technologies: Product offerings
Figure 8.22 LeddarTech: Product Offerings
Figure 8.23 Osram Licht AG: Product Offerings
Figure 8.24 Osram Licht AG: Overall Financials, 2014-2016
Figure 8.25 Osram Licht AG: Market share of Business Segment, 2016
Figure 8.26 Osram Licht AG: Geographical Revenue, 2014-2016
Figure 8.27 Osram Licht AG: SWOT Analysis
Figure 8.28 Phantom Intelligence Inc.: Product Offerings
Figure 8.29 Princeton Lightwave Inc.: Product Offerings
Figure 8.30 Quanergy Systems Inc.: Product Offerings
Figure 8.31 Quanergy Systems Inc.: SWOT Analysis
Figure 8.32 Sensata Technologies, Overall Financials, 2013-2015
Figure 8.33 Sensata Technologies, Segment Revenue Mix, 2013-2015
Figure 8.34 Sensata Technologies: Geographical Revenue Mix, 2016
Figure 8.35 Sensata Technologies, by Product Mix, 2013-2015
Figure 8.36 Sensata Technologies, by Business Segment, 2016
Figure 8.37 Sensata Technologies: SWOT Analysis
Figure 8.38 SensL Technologies Ltd: Product Offerings
Figure 8.39 Trilumina: Product Offerings
Figure 8.40 Velodyne LiDAR: Product Offerings
Figure 8.41 Velodyne LiDAR: SWOT Analysis
The automotive industry is in the process of constant evolution since its origin in nineteenth century. The increasing number of on-road vehicles provides immense range of opportunities to the players in the automotive industry to develop innovative products. The automotive industry is currently experiencing a surge in the demand for driver assistance technology. Features such as adaptive cruise control, parking assistance, lane departure warning, automated emergency braking, and blindspot detection among others, are integrated in automobiles so as to improve the driver’s experience and increase the safety of humans both inside and outside the vehicle. In order to develop a highly efficient automated system, there is an impending demand of LiDAR sensors at present. Using LiDARs for automotive application not only enables a vehicle to sense the surroundings at a greater range but also provides highly accurate data when compared to other object sensing components such as camera, radars, ultrasonic sensors and infrared sensors, among others. In addition to this, integration of LiDARs permits the vehicle to map an automobile’s surroundings even in low light conditions. Depending upon the type of LiDARs can be segmented into mechanical and solid-state LiDARs. Furthermore, on the basis of application, automotive LiDAR can be segmented into automotive LiDARs for level 2 (partial automation), level 3 (conditional automation), level 4 (high automation) and level 5 (fully autonomous). At present, LiDARs for level 3 and level 4 LiDARs currently contribute to the automotive LiDAR market, while LiDARs for other levels of automation are still under development phase. Some of the key players in the automotive supply chain include Velodyne LiDAR, Innoluce, Innoviz technologies, Quanergy systems, LeddarTech and Phantom Intelligence.
The global automotive LiDAR market was anticipated to be $65 million in the year 2016. Due to increasing number of automated vehicles and anticipated decrease in manufacturing price of LiDAR systems, these factors are expected to drive the automotive LiDAR market at a double digit CAGR in the time period 2017-2027.
At present, mechanical LiDARs dominate the global automotive LiDAR market, due to an extensive demand for these LiDARs for purposes of testing of automated vehicle prototype Mechanical LiDARs are bulky, fragile and are expensive in nature, moreover, mechanical LiDARs offer various forms of challenges to the vehicle designer in the process of integration of the technology in the vehicles. Therefore, solid-state LiDARs are expected to enjoy market dominance over that of mechanical LiDARs in the upcoming years.
Lower levels of automation require single LiDARs to be integrated in a system as lower amount of surrounding data is required. However, with the increase in level of automation, multiple LiDARs are required to meet the data requirements of the automated systems. Currently, LiDARs for level 3 and level 4 automation contributes the major share of the global automotive LiDAR market, while LiDARs for level 2 and level 5 are still under development phases. Due to an expected increase in the number of high end automated vehicles, a high potential growth rate is anticipated for the automotive LiDAR market in the near future.
Europe, being home to a number of autonomous vehicle OEMs and major LiDARs manufacturers, contributes a major part of the growth of the automotive LiDAR market. The European players are actively expanding their footprints in the industry to attain a dominant grip over the market presence. These efforts include partnerships and collaborations with both local and foreign players. At the same time, North America, being one of the most technologically advanced regions, and headquarters for several emerging players, is expected to lead the market of automotive LiDARs in the upcoming years. On the other hand, the demand of automotive LiDARs in the APAC region is limited only to certain countries only. However, due to the presence of major automakers and increasing number of automated vehicle prototypes, the demand of automotive LiDARs in this region is anticipated to grow at a rapid pace in the upcoming years.
North America
U.S.
Canada
Europe
Germany
U.K.
France
APAC
China
Japan
South Korea
RoW
MEA
Latin America
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Automotive LiDAR market is at a developing stage at present but is one of the most competitive market domains in the automotive industrial arena. Major LiDAR manufacturers are partnering with automakers and semi-conductor manufacturers in order to attain widespread market presence. The growing need of automakers to develop higher automated vehicles and greater amount of data required by these vehicles, which necessitates the use of LiDAR. Furthermore, advantages offered by LiDAR systems over other sensors, results into high potential growth of the automotive LiDAR market in the upcoming years.
The automated LiDARs can be segmented on the basis of type: mechanical and solid-state LiDARs. Mechanical LiDARs currently dominate the market in terms of revenue generation. Automotive LiDAR industry is experiencing a dynamic shift from mechanical to solid-state LiDARs, hence, solid state LiDARs are expected to take over mechanical LiDARs in the near future. Furthermore, the market for solid-state LiDARs is expected to grow at an exponential pace and majorly dominate the automotive LiDAR market by year end 2026. According to analysts at BIS Research, global automotive LiDAR market was estimated to generate $65 million in the year 2016. Due to a high rate of demand of LiDARs and anticipated decrease in manufacturing prices of LiDAR systems after the commencement of mass manufacturing of LiDARs, the automotive LiDAR market is expected to increase at a double digit CAGR in time frame 2016-2026.
The global automotive LiDAR market is driven by factors such as increasing number of automated vehicles, mandatory use of LiDARs in higher automated vehicles, better performance of LiDAR based systems when compared to non-LiDAR systems, and stringent laws mandating the vehicle safety features which require LiDAR. These factors are expected to drive the automotive LiDAR market at a rapid pace in the future years.
Some of the key players developing LiDARs for automobiles include Ibeo Automotive Systems, Quanergy Systems, Innoviz Technologies, LeddarTech, Velodyne LiDAR, and Phantom Intelligence. These players are providing LiDARs to automotive industry depending upon the LiDAR type and application.
The market of LiDARs for level 4 automation is estimated to hold the maximum share in the global automotive LiDAR market. Market share of LiDARs for level 4 automation is followed by Level 3 LiDARs. Due to technological advancement in automotive industry and high technology adoption rate, the market of LiDAR for higher end automation is expected to grow at a rapid pace in the upcoming years.
Europe currently dominates the automotive LiDAR market due to the presence of major LiDAR supply chain players, key automakers, high disposable income, increasing number of automated vehicles, and public organizations mandating the usage of safety features in automobiles. Europe followed by North America, contributes second most share in the automotive LiDAR market, due to high expected growth rate of LiDAR market in North America, the region is expected to lead the global automotive LiDAR market in forecast period. In addition to this, usage of automotive LiDARs is quite limited in the APAC region, however, there is a surge in demand of LiDAR based automated systems due to tails of self-driving vehicles conducted by automakers. Therefore, a high market growth rate of automotive LiDAR market may be witnessed from this region.
Benewake Co., Ltd.
Continental AG
Garmin Ltd.
GeoDigital International Inc.
IBEO Automotive Systems GmBH
Innoviz Technologies
LeddarTech
Osram Licht AG
Princeton Lightwave Inc.
Quanergy Systems Inc.
Sensata Technologies, Inc.
SensL Technologies Ltd
TriLumina, Corp.