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市場調查報告書

汽車用LiDAR的全球市場的分析、預測 (機器人計程車 (自動駕駛計程車) 用LiDAR,ADAS、自動駕駛車LiDAR):2018-2028年

Global Automotive LiDAR Market: Focus on Application Type, Technology Type, Technology Level, Country Analysis, Industry Insights, Patent Landscape, Regulation Landscape, and Competitive Landscape- Analysis and Forecast, 2018-2028

出版商 BIS Research Inc. 商品編碼 748996
出版日期 內容資訊 英文 220 Pages
商品交期: 最快1-2個工作天內
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汽車用LiDAR的全球市場的分析、預測 (機器人計程車 (自動駕駛計程車) 用LiDAR,ADAS、自動駕駛車LiDAR):2018-2028年 Global Automotive LiDAR Market: Focus on Application Type, Technology Type, Technology Level, Country Analysis, Industry Insights, Patent Landscape, Regulation Landscape, and Competitive Landscape- Analysis and Forecast, 2018-2028
出版日期: 2018年11月22日 內容資訊: 英文 220 Pages
簡介

全球汽車用LiDAR的市場規模,預測至2028年將達到83億2,000萬美元。

本報告提供全球汽車用LiDAR市場相關調查,市場規模與成長率,各技術、用途、各國市場分析與預測,主要的需求促進因素與市場課題,主要企業的競爭力,及主要企業簡介等資訊彙整。

摘要整理

第1章 市場動態

  • 市場成長促進因素
  • 市場課題
  • 市場機會

第2章 競爭情形

  • 簡介
  • 產品價格分析
  • 供應鏈分析
  • 市場佔有率分析
  • 競爭企業的關係

第3章 專利分析

  • 簡介
  • 專利形勢

第4章 法規

  • 概要
  • 自動駕駛車法規的政策建議
  • 自主式LiDAR及雷射安全性

第5章 技術概要

  • 自動駕駛車
  • 自動駕駛車的感測器
  • LiDAR的分類
  • LiDAR
  • LiDAR技術的未來趨勢、發展
  • 自動駕駛車技術趨勢

第6章 全球汽車用LiDAR市場分析、預測

  • 市場規模計算的前提條件、限制事項
  • 技術藍圖
  • 市場概要

第7章 全球汽車用LiDAR市場:各用途

  • 機器人計程車 (自動駕駛計程車) 用LiDAR
  • ADAS、自動駕駛車用LiDAR

第8章 全球汽車用LiDAR市場:各LiDAR類型

  • 機械汽車用LiDAR
  • 固態汽車用LiDAR

第9章 全球汽車用LiDAR市場:各技術水準

  • 等級2 (部分自動化)
  • 等級3 (附條件自動化)
  • 等級4 (高度自動化)
  • 等級5 (完全自動化)

第10章 全球汽車用LiDAR市場:各地區

  • 北美
  • 歐洲
  • 亞太地區
  • 其他 (RoW)

第11章 企業簡介

  • Benewake Co., Ltd.
  • Continental AG
  • Garmin Ltd.
  • GeoDigital International Inc.
  • Infineon Technologies AG
  • IBEO Automotive Systems GmBH
  • Innoviz Technologies
  • LeddarTech
  • Osram Licht AG
  • Phantom Intelligence Inc.
  • Princeton Lightwave Inc.
  • Quanergy Systems, Inc. Inc.
  • Sensata Technologies, Inc.
  • SensL Technologies Ltd
  • TriLumina, Corp.
  • Velodyne LiDAR, Inc.

第12章 調查範圍、手法

目錄
Product Code: BA017B

Global Automotive LiDAR Market to Reach $8.32 Billion by 2028, BIS Research Reports

With the advent of ADAS and autonomous vehicles, there is need for a system which can assist the driver in the driving process and make it easier for the driver to travel without worrying about the safety and control issues while driving. However, ADAS and driverless vehicles work on the input provided by automated systems, therefore, necessitating the need for more accurate and dense data provided to the system. Cameras/RADARs/ultrasonic sensors are unable to meet these sensing requirements due to various operational limitations of these sensors, which in effect, raises the need for the usage of Light Detection and Ranging (LiDARs) for a higher level of automation.

The global automotive LiDAR market is anticipated to grow at a significant rate during the forecast period 2018-2028. The high growth rate in the volume of LiDARs is predicted due to rising customer demand, extensive usage of LiDARs in high-level automated vehicles, tremendous development in the Research & Development (R&D) for automotive LiDAR to enhance the features of the LIDAR system, and an anticipated decline in manufacturing prices of LiDARs after the commencement of mass production.

The demand for automotive LiDAR varies according to various geographical regions. The automotive LiDAR market holds a prominent share in various countries of North America, Asia-Pacific (APAC), Europe, and Rest-of-the-World (RoW). Geographically, U.S. led the global automotive LiDAR market in 2017 in terms of value as the U.S. market had a major share in the global automotive LiDAR market for the year 2017. The presence of major LiDAR manufacturers and automakers such as Ford Motors Company, General Motors, Velodyne LiDAR, Inc., and Quanergy Systems, among others, as well as advancements in the number of highly automated vehicles accounts for the high growth rate and major share of the U.S. in the automotive LiDAR market. Also, the growing demand of automotive LiDAR from the U.S. provides immense opportunities to players in the supply chain. For instance, it is expected that LiDAR component suppliers will play a significant role by collaborating with LiDAR manufacturers, in reducing the time required to mass produce LiDAR systems for the automotive market. Additionally, APAC region is expected to witness one of the highest growth rates during the forecast period (2018-2028) owing to various factors such as government implementation towards upgradation of existing vehicles to ADAS and autonomous vehicles which uses LiDAR systems, high demand due to advancement in technology, and greater adaptation of autonomous vehicles and safety sensors such as LiDARs in these vehicles due to decreased cost.

The global automotive LiDAR market has witnessed several strategic and technological developments in the past few years, undertaken by the different market players to attain their respective market shares in this emerging domain. Some of the strategies covered in this section are product launches, partnerships and collaborations, and mergers and acquisitions. The preferred strategies for the companies have been partnerships and collaborations along with new product launches in order to strengthen their position in the global automotive LiDAR market.

The key market players in the global automotive LiDAR market are Continental AG, Ibeo Automotive Systems GmbH, Garmin Ltd, Infineon Technologies, Innoviz Technologies, LeddarTech, Quanergy Systems, Inc., Phantom Intelligence, and Velodyne LiDAR, Inc., among others.

The report is a compilation of different segments of global automotive LiDAR market including market breakdown by applications, types, technology, and geography. The report further takes into consideration the market dynamics and the competitive landscape. The report also discusses in detail about the key participants involved in the industry. The report answers the following questions about the global automotive LiDAR market:

Key questions answered in the report

  • What will be the global automotive LiDAR market value by 2028 along with the estimated CAGR?
  • What are the driving factors for the global automotive LiDAR market through 2017 to 2028?
  • Which factors are hindering the growth of the global automotive LiDAR market?
  • What are the recent trends and developments in the global automotive LiDAR market?
  • Which automotive LiDAR type will lead the global automotive LiDAR market by 2028?
  • What is the revenue generated by automotive LiDAR across different application verticals during the forecast period (2018-2028)?
  • Which application will dominate the global automotive LiDAR market by 2028?
  • Which level of autonomous vehicle will dominate the global automotive LiDAR market by 2028?
  • Which region will lead the global automotive LiDAR market by 2028?
  • What is the patent landscape scenario for automotive LiDAR market?
  • What is the direction of pricing of automotive LiDARs by 2028?
  • What is the regulation landscape for autonomous vehicles and LiDAR systems?
  • Who are the regulating bodies in charge of regulations related to autonomous and self-driving vehicles by 2028?
  • What is the supply chain scenario for the automotive LiDAR market?
  • What is the technology trend and roadmap related to autonomous vehicles and automotive LiDARs by 2028?

Executive Summary

The global automotive industry is experiencing a huge surge of technological advancements and evolution since its origin in the nineteenth century. Many prospects for growth in the market are being created due to the convergence of various emerging technologies in the industries within the automotive ecosystem such as driverless vehicles, advanced vehicle sensors, and connected vehicle technologies, among others. This has now led to the advent of Advanced Driver Assist Systems (ADAS) for automobiles. These systems are intended to assist the driver in the driving process and make it easier for the driver to travel without worrying about the safety and control issues while driving. ADAS is expected to pave its way through semi-autonomous vehicles and ultimately, towards fully-automated vehicles.

There has been a growing number of vehicle-related on-road fatalities because of the increasing number of vehicles on the road, and such incidents are bound to increase in the coming years. Perceiving this lack of safety in vehicles and driving process, there is a massive demand for ADAS features and functionalities in a vehicle in the current automotive market. However, ADAS and driverless vehicles work on the input provided by automated systems, therefore, necessitating the need for more accurate and dense data provided to the system. Cameras/RADARs/ultrasonic sensors are unable to meet these sensing requirements due to various operational limitations of these sensors, which in effect, raises the need for the usage of Light Detection and Ranging (LiDARs) for a higher level of automation.

LiDAR devices use pulsed laser beam in order to calculate the distance of obstacles from any vehicles by emitting laser beams. The distance is measured by analyzing the time taken by the laser pulse to reflect and receive the sensors at receiving end. LiDAR sensors are used to scan the environment with a non-visible and non-harmful laser beam, which is used to visualize objects and measure ranges and create a 3D image of the vehicle's environment. A LiDAR sensor has various advantages over other sensor systems such as a better range, field-of-view, accuracy, positioning, weather conditioning, and night-time performance among others. A LiDAR vehicle can also be used for various purposes apart from usage in the automotive industry such as for industrial topography, robotics, mining, military, surveying, and agriculture among others.

The global automotive LiDAR market is anticipated to grow at a CAGR of 29.60% during the forecast period 2018-2028. The high growth rate in the volume of LiDARs is predicted due to rising customer demand, extensive usage of LiDARs in high-level automated vehicles, and an anticipated decline in manufacturing prices of LiDARs after the commencement of mass production.

It has been observed that the automotive LiDAR industry is experiencing rapid growth. The global automotive LiDAR market is driven due to various factors influencing the market such as the increasing adoption of autonomous vehicles by automotive OEMs, the growing safety concerns in the automotive ecosystem, and the high investments in the recent years by various investors and companies. The eventual increase in acceptance by OEMs for using LiDARs in autonomous vehicles is expected to facilitate a higher growth rate for the automotive LiDAR market. There are also various challenges which currently hinder the growth of the LiDAR market such as high prices of automotive LiDARs, and the complex design and development of LiDAR safety systems among others.

At the same time, automotive LiDAR market, being at early stage, provides several opportunities for both LiDAR and semiconductor chip manufacturers for further growth and innovation such as the prospect of being an early market-entrant and a market leader in the automotive-grade LiDAR segment, which is yet to be fully explored by many LiDAR companies, among others.

Automotive LiDARs are available in different types depending on the technology. The two most prominent ones are mechanical and solid-state LiDAR. The automotive LiDAR industry is witnessing a shift in the trend from mechanical automotive LiDARs to solid-state automotive LiDARs, due to the wide range of advantages offered by solid-state automotive LiDARs over mechanical automotive LiDARs. Solid-state LiDARs tend to be compact, hence, can be easily integrated into self-driving vehicles. Furthermore, with technological developments in fixed laser beam devices and elimination of mechanical parts, automotive LiDAR manufacturing companies may avoid the huge cost associated with the production of components of mechanical LiDAR, therefore, leading to a reduction in the overall production cost of automotive LiDAR solutions.

Depending upon the levels of automation- level 2 (partial automation), level 3 (conditional automation), level 4 (high automation) and level 5 (full automation), different types of LiDARs are integrated into vehicles. The market is expected to have a prominent presence of LiDARs for level 4 and 5 automation, due to rising demand for level 4 and 5 automotive LiDARs as various OEMs and companies will begin to introduce level 4 and 5 vehicles which would have more LiDAR sensors in those automotive systems, but the majority remains with level 3 automation.

Geographically, U.S. led the global automotive LiDAR market in 2017 in terms of value as the U.S. market had a major share in the global automotive LiDAR market for the year 2017. Factors such as the presence of major LiDAR manufacturers and automakers such as Ford Motors Company, General Motors, Velodyne LiDAR, Inc., and Quanergy Systems, among others, as well as advancements in the number of highly automated vehicles accounts for the high growth rate and major share of the U.S. in the automotive LiDAR market. Also, the growing demand of automotive LiDAR from the U.S. provides immense opportunities to players in the supply chain. For instance, it is expected that LiDAR component suppliers will play a significant role by collaborating with LiDAR manufacturers, in reducing the time required to mass produce LiDAR systems for the automotive market.

The global automotive LiDAR market has witnessed several strategic and technological developments in the past few years, undertaken by the different market players to attain their respective market shares in this emerging domain. Some of the strategies covered in this section are product launches, partnerships and collaborations, and mergers and acquisitions. The preferred strategies for the companies have been partnerships and collaborations along with new product launches in order to strengthen their position in the global automotive LiDAR market.

The key market players in the global automotive LiDAR market are Continental AG, Ibeo Automotive Systems GmbH, Garmin Ltd, Infineon Technologies, Innoviz Technologies, LeddarTech, Quanergy Systems, Inc., Phantom Intelligence, and Velodyne LiDAR, Inc., among others.

Table of Contents

Executive Summary

1 Market Dynamics

  • 1.1 Market Drivers
    • 1.1.1 Increasing Adoption of LiDARs in Automobiles
    • 1.1.2 Superior Performance of LiDARs as Compared to Other Sensors
    • 1.1.3 Growing Demand for Miniaturized Micro-Electro-Mechanical Systems (MEMS) Sensors
    • 1.1.4 Increasing Adoption of Autonomous Vehicles by Automotive OEMs
    • 1.1.5 Growing Safety Concern in the Automotive Ecosystem
    • 1.1.6 High Investment in Autonomous Vehicles and Automotive LiDAR Space
  • 1.2 Market Challenges
    • 1.2.1 High Price of Automotive LiDAR
    • 1.2.2 Inaccurate Outputs in Adverse Weather Conditions
    • 1.2.3 Complex Design and Development of LiDAR Safety Systems
  • 1.3 Market Opportunities
    • 1.3.1 Scope of Multiple LiDAR Fitment Across All Levels of Automation to Create Vast Demand
    • 1.3.2 Growing Market Share for Solid State LiDAR to Create Greater Opportunities for Players in its Ecosystem
    • 1.3.3 Scope to Develop Tailor-Made Products by Partnering with Semiconductor Manufacturers
    • 1.3.4 High Potential for Technical Innovation with Cost Reduction in Mind
    • 1.3.5 Scope of Attaining Edge by Mass Production of LiDAR

2 Competitive Landscape

  • 2.1 Introduction
    • 2.1.1 Mergers and Acquisitions
    • 2.1.2 Partnerships and Collaborations
    • 2.1.3 Product Launch
    • 2.1.4 Business Expansions
    • 2.1.5 Others (Events & Recognitions)
  • 2.2 Product Pricing Analysis
  • 2.3 Supply Chain Analysis
  • 2.4 Market Share Analysis
  • 2.5 Competitive Rivalry

3 Patent Analysis

  • 3.1 Introduction
    • 3.1.1 Optical Phased Array LiDAR System and Methods of Usage
    • 3.1.2 Omnidirectional LiDAR System
    • 3.1.3 System and Method for Traffic Side Detection and Characterization
    • 3.1.4 High Definition LiDAR System
    • 3.1.5 Method for Localizing a Vehicle Equipped with Two LiDAR Systems
    • 3.1.6 Vehicle LiDAR System
    • 3.1.7 Vertical Alignment of a LiDAR Sensor
    • 3.1.8 Detection and Ranging Methods and Systems
    • 3.1.9 Low Cost Small Size LiDAR for Automotive
    • 3.1.10 Roll Stability Control System for an Automotive Vehicle Using an External Environmental Sensing System
    • 3.1.11 LiDAR System Utilizing SOI-Based Opto-Electronic Compounds
    • 3.1.12 LiDAR System Comprising a Single-Photon Detector
    • 3.1.13 Traffic Scanning LIDAR
    • 3.1.14 First Warning System for Automotive Vehicles
    • 3.1.15 Automatic Driving Route Planning Application
    • 3.1.16 Driver Assistance System for Displaying Surroundings of a Vehicle
  • 3.2 Patent Landscape

4 Regulations

  • 4.1 Overview
  • 4.2 Policy Recommendation for Autonomous Vehicle Regulation
  • 4.3 Autonomous LiDAR and Laser Safety

5 Technological Overview

  • 5.1 Autonomous Vehicles
  • 5.2 Sensors in Autonomous Vehicles
    • 5.2.1 Ultrasonic Sensors
    • 5.2.2 Camera and Image Sensors
    • 5.2.3 Radar Sensors
    • 5.2.4 LiDAR Sensors
  • 5.3 LiDAR Categories
  • 5.4 LiDAR Subcomponents
  • 5.5 Future Trends and Developments in LiDAR Technologies
    • 5.5.1 Frequency Modulated Continuous Wave LiDAR
    • 5.5.2 128 Laser LiDAR
    • 5.5.3 4D Video LiDAR Technology
    • 5.5.4 iDAR
    • 5.5.5 Image Grade LiDAR
  • 5.6 Autonomous Vehicle Technology Trend

6 Global Automotive LiDAR Market Analysis and Forecast ($Million & Million Units)

  • 6.1 Assumptions & Limitations for Market Size Calculations
  • 6.2 Technology Road Map
  • 6.3 Market Overview

7 Global Automotive LiDAR Market by Application ($Million & Million Units)

  • 7.1 LiDARs for Robo-Taxis
  • 7.2 LiDARs for ADAS and Autonomous Vehicles

8 Global Automotive LiDAR Market by LiDAR Type ($Million)

  • 8.1 Mechanical Automotive LiDAR
  • 8.2 Solid State Automotive LiDAR

9 Global Automotive LiDAR Market by Technology Level ($Million)

  • 9.1 Level 2 (Partial Automation)
  • 9.2 Level 3 (Conditional Automation)
  • 9.3 Level 4 (High Automation)
  • 9.4 Level 5 (Full Automation)

10 Global Automotive LiDAR Vehicle Market by Geography ($Million)

  • 10.1 North America
    • 10.1.1 The U.S
    • 10.1.2 Canada
  • 10.2 Europe
    • 10.2.1 Germany
    • 10.2.2 The U.K.
    • 10.2.3 France
  • 10.3 Asia Pacific
    • 10.3.1 China
    • 10.3.2 Japan
    • 10.3.3 South Korea
  • 10.4 Rest of the World (RoW)

11 Company Profiles

  • 11.1 Benewake Co., Ltd.
    • 11.1.1 Company Overview
    • 11.1.2 Corporate Summary
    • 11.1.3 Product Offerings
  • 11.2 Continental AG
    • 11.2.1 Company Overview
    • 11.2.2 Corporate Summary
    • 11.2.3 Product Offerings
    • 11.2.4 Financials
      • 11.2.4.1 Business Segment Revenue Mix
    • 11.2.5 Financial Summary
    • 11.2.6 SWOT Analysis
  • 11.3 Garmin Ltd.
    • 11.3.1 Company Overview
    • 11.3.2 Corporate Summary
    • 11.3.3 Product Offerings
    • 11.3.4 Financials
      • 11.3.4.1 Business Segment Revenue
      • 11.3.4.2 Geographical Revenue
    • 11.3.5 Financial Summary
    • 11.3.6 SWOT Analysis
  • 11.4 GeoDigital International Inc.
    • 11.4.1 Company Overview
    • 11.4.2 Corporate Summary
    • 11.4.3 Product Offerings
  • 11.5 Infineon Technologies AG
    • 11.5.1 Company Overview
    • 11.5.2 Corporate Summary
    • 11.5.3 Product Offerings
    • 11.5.4 Financials
      • 11.5.4.1 Overall Financials
      • 11.5.4.2 Business Segment Revenue
      • 11.5.4.3 Geographic Revenue Mix
    • 11.5.5 Financial Summary
    • 11.5.6 SWOT Analysis
  • 11.6 IBEO Automotive Systems GmBH
    • 11.6.1 Company Overview
    • 11.6.2 Corporate Summary
    • 11.6.3 SWOT Analysis
  • 11.7 Innoviz Technologies
    • 11.7.1 Company Overview
    • 11.7.2 Corporate Summary
    • 11.7.3 Product Offerings
  • 11.8 LeddarTech
    • 11.8.1 Company Overview
    • 11.8.2 Corporate Summary
    • 11.8.3 Product Offerings
    • 11.8.4 SWOT Analysis
  • 11.9 Osram Licht AG
    • 11.9.1 Company Overview
    • 11.9.2 Corporate Summary
    • 11.9.3 Product Offerings
    • 11.9.4 Financials
      • 11.9.4.1 Overall Financials
      • 11.9.4.2 Geographical Revenue
    • 11.9.5 Financial Summary
    • 11.9.6 SWOT Analysis
  • 11.10 Phantom Intelligence Inc.
    • 11.10.1 Company Overview
    • 11.10.2 Corporate Summary
    • 11.10.3 Product Offering
  • 11.11 Princeton Lightwave Inc.
    • 11.11.1 Company Overview
    • 11.11.2 Corporate Summary
    • 11.11.3 Product Offerings
  • 11.12 Quanergy Systems, Inc. Inc.
    • 11.12.1 Company Overview
    • 11.12.2 Corporate Summary
    • 11.12.3 Product Offerings
    • 11.12.4 SWOT Analysis
  • 11.13 Sensata Technologies, Inc.
    • 11.13.1 Company Overview
    • 11.13.2 Corporate Summary
    • 11.13.3 Financials
    • 11.13.4 Financial Summary
    • 11.13.5 SWOT Analysis
  • 11.14 SensL Technologies Ltd
    • 11.14.1 Company Overview
    • 11.14.2 Corporate Summary
    • 11.14.3 Product Offering
  • 11.15 TriLumina, Corp.
    • 11.15.1 Company Overview
    • 11.15.2 Corporate Summary
    • 11.15.3 Product Offerings
  • 11.16 Velodyne LiDAR, Inc.
    • 11.16.1 Company Overview
    • 11.16.2 Corporate Summary
    • 11.16.3 Product Offerings
    • 11.16.4 SWOT Analysis

12 Research Scope & BIS Methodology

  • 12.1 Scope of the Report
  • 12.2 Global Automotive LiDAR Market Research Methodology

List of Tables

  • Table 1 Comparison Between Sensing Technology
  • Table 1.1 Comparison of Features: LiDAR, Radar and Cameras
  • Table 2.1 Mergers and Acquisitions
  • Table 2.2 Partnerships and Collaborations
  • Table 2.3 Product Launches
  • Table 2.4 Business Expansion from 2016-2017
  • Table 2.5 Key Awards/Achievements/Events
  • Table 2.6 Mechanical Vs Solid-State LiDAR
  • Table 3.1 Overview of Optical Phased Array LiDAR System
  • Table 3.2 Overview of Omnidirectional LiDAR System
  • Table 3.3 Overview of Traffic Side Detection
  • Table 3.4 Overview of High Definition LiDAR System
  • Table 3.5 Overview of Localization of Vehicle with Two LiDAR
  • Table 3.6 Overview of Vehicle LiDAR System
  • Table 3.7 Overview Table for Vertical Alignment of LiDAR Sensor
  • Table 3.8 Overview Table of Detection and Ranging Methods
  • Table 3.9 Overview Table of Low Cost and Small Size LiDAR
  • Table 3.10 Overview Table of Roll Stability Control System
  • Table 3.11 Overview Table of SOI-based Opto-electronic Compounds
  • Table 3.12 Overview Table of a Single-photon Detector
  • Table 3.13 Overview Table of Traffic Scanning LiDAR
  • Table 3.14 Overview Table of First Warning System for Automotive Vehicles
  • Table 3.15 Overview Table of Automatic Driving Route Planning Application
  • Table 3.16 Overview Table of Driver Assistance System for Displaying Surroundings of a Vehicle
  • Table 3.17 Leading Countries for Patent Filings
  • Table 3.18 Leading Companies with Automotive LiDAR Patents
  • Table 4.1 Laws and Regulatory Bodies for Autonomous Vehicle
  • Table 4.2 Autonomous Vehicle Testing in Different Countries
  • Table 4.3 Regulatory Agencies for Autonomous and Driverless Vehicle by Country
  • Table 4.4 Laser Category Classes
  • Table 6.1 Global Automotive LiDAR Market (by Value and by Volume), 2017-2028
  • Table 7.1 Global Automotive LiDAR Market by Application, $Million, 2017-2028
  • Table 8.1 Global Automotive LiDAR Market by Type, $Million, 2017-2028
  • Table 9.1 Level 3 (Conditional Automation) LiDAR by Type, $Million, 2017-2028
  • Table 9.2 Level 4 (High Automation) LiDAR by Type, $Million, 2017-2028
  • Table 9.3 Level 5 (Full Automation) LiDAR by Type, , $Million, 2017-2028
  • Table 10.1 North America Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Table 10.2 North America Automotive LiDAR Market by Country, $Million, 2017-2028
  • Table 10.3 The U.S. Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Table 10.4 Canada Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Table 10.5 Europe Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Table 10.6 Germany Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Table 10.7 The U.K. Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Table 10.8 France Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Table 10.9 APAC Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Table 10.10 China Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Table 10.11 Japan Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Table 10.12 South Korea Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Table 10.13 RoW Automotive LiDAR Market by Level of Automation, $Million, 2017-2028

List of Figures

  • Figure 1 Applications of Autonomous Vehicles
  • Figure 2 Sensor Position for ADAS System
  • Figure 3 Global Automotive LiDAR Market Size, $Million, 2017-2028
  • Figure 4 Global Automotive LiDAR Market Size, Unit, 2017-2028
  • Figure 5 Global Automotive LiDAR Market by Application, $Million, 2017-2028
  • Figure 6 Global Automotive LiDAR Market by Type, $Million, 2017-2028
  • Figure 7 Global Automotive LiDAR Market by Level of Automation, $Million, 2017-2028
  • Figure 8 Global Automotive LiDAR Market Share by Countries, 2017 & 2028 ($Million)
  • Figure 1.1 Market Dynamics of Automotive LiDAR
  • Figure 1.2 Complexity in Systems Leading to Failures
  • Figure 1.3 Factors for Semi-Conductor Companies in Automotive Industry
  • Figure 2.1 Organic & Inorganic Strategies Adopted by the Key Players
  • Figure 2.2 Share of Key Market Strategies & Developments
  • Figure 2.3 Product Pricing Analysis
  • Figure 2.4 Supply Chain Analysis of Global Automotive LiDAR Market
  • Figure 2.5 Market Share Analysis: Global Automotive LiDAR Market
  • Figure 2.6 Mechanical and Solid-State LiDAR Market Penetration Rate
  • Figure 3.1 Patent Share by Application
  • Figure 3.2 Number of LiDAR Patents Filed Per Year
  • Figure 4.1 Key Areas for Autonomous Vehicle Regulations
  • Figure 4.2 Short Term Policy Recommendations
  • Figure 4.3 Medium Term Policy Recommendation
  • Figure 4.4 Long Term Policy Recommendation
  • Figure 4.5 Testing Standards for Automotive LiDAR
  • Figure 5.1 Features of Different Automation Levels
  • Figure 5.2 Sensors in Different Levels of Automation
  • Figure 5.3 Sensor Applications in Autonomous Vehicles
  • Figure 5.4 Radar Applications
  • Figure 5.5 Sensor Numbers in Each Level of Automation
  • Figure 5.6 LiDAR Taxonomy
  • Figure 5.7 LiDAR Applications in Short, Mid, and Long-Term
  • Figure 5.8 Technology Trend in Autonomous Vehicles
  • Figure 5.9 Technology Hype Cycle
  • Figure 6.1 Global Automotive System Technology Road Map
  • Figure 6.2 Evolution of LiDAR Technology Market Value, $Million, 2017-2028
  • Figure 7.1 Automotive LiDAR Application Type
  • Figure 7.2 Global Automotive LiDAR Market Volume by Application, Units, 2017-2028
  • Figure 7.3 Robo-Taxi Automotive LiDAR Market Value, $Million, 2017-2028
  • Figure 7.4 ADAS and Autonomous Vehicle Automotive LiDAR Market Value, $Million, 2017-2028
  • Figure 8.1 Automotive LiDAR Type
  • Figure 8.2 Global Automotive LiDAR Market by Type, $Million, 2017-2028
  • Figure 8.3 Comparison: Mechanical LiDAR vs Solid State LiDAR
  • Figure 8.4 Mechanical Automotive LiDAR Market Value, $Million, 2017-2028
  • Figure 8.5 Benefits of Solid State LiDAR
  • Figure 8.6 Solid State Automotive LiDAR Market Value, $Million, 2017-2028
  • Figure 9.1 Global Automotive LiDAR Market: Different Level of Automation
  • Figure 9.2 Global Automotive Market Share Scenario by Level of Automation (%), 2017 & 2028
  • Figure 9.3 Key Technologies: Level 2 (Partial Automation) Automation
  • Figure 9.4 Level 2 (Partial Automation) Automotive LiDAR Market Value, $Million, 2017-2028
  • Figure 9.5 Key Technologies: Level 3 (Conditional Automation) Systems
  • Figure 9.6 Level 3 (Conditional Automation) Automotive LiDAR Market Value, $Million, 2017-2028
  • Figure 9.7 Level 3 Market Share Scenario by Type (%), 2017 & 2028
  • Figure 9.8 Key Technologies: Level 4 (High Automation)
  • Figure 9.9 Level 4 (High Automation) Automotive LiDAR Market Value, $Million, 2017-2028
  • Figure 9.10 Level 5 (Full Automation) Automotive LiDAR Market Value, $Million, 2017-2028
  • Figure 10.1 Global Automotive LiDAR Market by Geography
  • Figure 10.2 Global Automotive LiDAR Market by Geography
  • Figure 10.3 Global Automotive LiDAR Market Share by Geography, $Million, 2017-2028
  • Figure 10.4 Global Automotive LiDAR Market Share (%) by Geography, 2017 & 2028
  • Figure 10.5 North America Automotive LiDAR Market, $Million, 2017-2028
  • Figure 10.6 The U.S. Automotive LiDAR Market, $Million, 2017-2028
  • Figure 10.7 The Canada Automotive LiDAR Market, $Million, 2017-2028
  • Figure 10.8 Europe Automotive LiDAR Market, 2017-2028 ($Million)
  • Figure 10.9 Europe Automotive LiDAR Market Scenario by Country, 2017-2028
  • Figure 10.10 The Germany Automotive LiDAR Market, $Million, 2017-2028
  • Figure 10.11 The U.K. Automotive LiDAR Market, $Million, 2017-2028
  • Figure 10.12 The U.K. Automotive LiDAR Market, $Million, 2017-2028
  • Figure 10.13 APAC Automotive LiDAR Market, $Million, 2017-2028
  • Figure 10.14 APAC Automotive LiDAR Market Scenario by Country, $Million, 2017-2028
  • Figure 10.15 China Automotive LiDAR Market, $Million, 2017-2028
  • Figure 10.16 Japan Automotive LiDAR Market, $Million, 2017-2028
  • Figure 10.17 South Korea Automotive LiDAR Market, $Million, 2017-2028
  • Figure 10.18 RoW Automotive LiDAR Market, $Million, 2017-2028
  • Figure 10.19 RoW LiDAR Market Scenario by Region, $Million, 2017-2028
  • Figure 11.1 Benewake Co., Ltd.: Product Offerings
  • Figure 11.2 Continental AG: Product Offerings
  • Figure 11.3 Continental AG: Overall Financials, 2015-2017
  • Figure 11.4 Continental AG: Business Segment Revenue by Geography, 2015-2017
  • Figure 11.5 Continental AG: Business Segment Revenue Mix 2015-2017
  • Figure 11.6 Continental AG: SWOT Analysis
  • Figure 11.7 Garmin Ltd.: Product Offerings
  • Figure 11.8 Garmin Ltd.: Overall Financials, 2015-2017
  • Figure 11.9 Garmin Ltd.: Market Revenue by Business Segment
  • Figure 11.10 Garmin Ltd.: Market Revenue by Geographical Segmentation
  • Figure 11.11 Garmin Ltd: SWOT Analysis
  • Figure 11.12 GeoDigital International Inc.: Product Offerings
  • Figure 11.13 Infineon Technologies AG: Product Offerings
  • Figure 11.14 Infineon Technologies AG: Overall Financials, 2015-2017
  • Figure 11.15 Infineon Technologies AG: Business Segment Revenue, 2015-2017
  • Figure 11.16 Infineon Technologies AG: Business Segment Revenue by Geography, 2015-2017
  • Figure 11.17 Infineon Technologies: SWOT Analysis
  • Figure 11.18 Ibeo Automotive Systems: Product Offerings
  • Figure 11.19 Ibeo Automotive Systems GmbH: SWOT Analysis
  • Figure 11.20 Innoviz Technologies: Product offerings
  • Figure 11.21 LeddarTech: Product Offerings
  • Figure 11.22 LeddarTech: SWOT Analysis
  • Figure 11.23 Osram Licht AG: Product Offerings
  • Figure 11.24 Osram Licht AG: Overall Financials, 2015-2017
  • Figure 11.25 Osram Licht AG: Business Segment Revenue, 2015-2017
  • Figure 11.26 Osram Licht AG: Business Segment Revenue by Geography, 2015-2017
  • Figure 11.27 Osram Licht AG: SWOT Analysis
  • Figure 11.28 Phantom Intelligence Inc.: Product Offerings
  • Figure 11.29 Princeton Lightwave Inc.: Product Offerings
  • Figure 11.30 Quanergy Systems, Inc. Inc.: Product Offerings
  • Figure 11.31 Quanergy Systems, Inc. Inc.: SWOT Analysis
  • Figure 11.32 Sensata Technologies, Overall Financials, 2015-2017
  • Figure 11.33 Sensata Technologies, Segment Revenue, 2015-2017
  • Figure 11.34 Sensata Technologies: Geographical Revenue, 2015-2017
  • Figure 11.35 Sensata Technologies: SWOT Analysis
  • Figure 11.36 SensL Technologies Ltd: Product Offerings
  • Figure 11.37 TriLumina: Product Offerings
  • Figure 11.38 Velodyne LiDAR, Inc. : Product Offerings
  • Figure 11.39 Velodyne LiDAR, Inc. : SWOT Analysis
  • Figure 12.1 Global Automotive LiDAR Market Segmentation
  • Figure 12.2 Secondary Data Sources
  • Figure 12.3 Top Down and Bottom Up Approach for Global Automotive LiDAR Market
  • Figure 12.4 Global Automotive LiDAR Market Influencing Factors
  • Figure 12.5 Assumptions and Limitations
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