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LiDAR (2020-2030年):技術・企業・市場・予測

Lidar 2020-2030: Technologies, Players, Markets & Forecasts

発行 IDTechEx Ltd. 商品コード 914236
出版日 ページ情報 英文 493 Slides
納期: 即日から翌営業日
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LiDAR (2020-2030年):技術・企業・市場・予測 Lidar 2020-2030: Technologies, Players, Markets & Forecasts
出版日: 2019年10月18日 ページ情報: 英文 493 Slides
概要

世界の自動運転車向けLiDAR市場は、2030年までに54億米ドルへ拡大する見込みです。

当レポートでは、LiDAR市場セグメントへ影響を及ぼすLiDAR技術におけるイノベーションについて調査し、現在利用可能なLiDAR技術の選択肢とそれらが製品ポジショニングへ及ぼす影響、各LiDAR技術の現況と将来の機会、投資・サプライチェーン・提携・製品開発に関するLiDAR事業の情勢、各LiDAR市場セグメントの短期的・長期的な発展の見通しなどを分析しています。

第1章 エグゼクティブサマリー・結論

第2章 技術分析:自律機械向けセンサー

  • 3D-LiDAR:市場セグメント & アプリケーション
  • 3D-LiDAR:4つの重要な技術選択
  • 自動運転技術、ほか

第3章 技術分析:LiDAR向け測定プロセスのオプション

  • 光学3Dセンシング:一般的な手法との比較
  • 光学3Dセンシング:機会 & 課題
  • ダイレクトTOF:パルス光による時間計測、ほか

第4章 技術分析:LiDAR向けレーザーのオプション

  • LEDイルミネーション:短距離深度センサーに限定
  • レーザー技術の選択
  • 一般的なレーザー種類 & 波長オプション、ほか

第5章 技術分析:LiDAR向けビームステアリングのオプション

  • ビームステアリング技術の選択
  • 一般的なビームステアリングオプションの比較
  • 回転 & 非回転メカニカルLidarの比較、ほか

第6章 技術分析:LiDAR向け光検出器のオプション

  • 光検出器技術の選択
  • 一般的な光検出器 & マテリアルの比較
  • 多光子検出器:PINフォトダイオード、ほか

第7章 世界の3D-LiDAR市場分析

  • 概要:LiDAR企業106社、地域別
  • 事業:ターゲット市場
  • 事業:ビジネスモデル、ほか

第8章 中国の3D-LiDAR市場分析

  • 概要:3D-LiDARを開発する20社
  • 事業:ビジネスモデル・ターゲット市場
  • R&D:LiDAR技術、開発状況 & 特許、ほか

第9章 世界の3D-LiDAR市場:10ヵ年予測

第10章 自動運転車:市場概要 & 10ヵ年予測

第11章 調査手法:データ収集・分析

第12章 付録:市場データ表、主要データのサマリー

第13章 インタビューに基づいた企業プロファイル

第14章 企業背景:3D-LiDAR企業 83社 & 競合企業 3社

目次

Title:
Lidar 2020-2030: Technologies, Players, Markets & Forecasts
Analysis of 100+ 3D lidar companies; automotive focus. Mechanical, MEMS, OPA, flash, liquid crystal and other solid-state lidar for ADAS, autonomous vehicles, industrial, smart city, security and mapping.

The global market for lidar in autonomous vehicles grows to $5.4 billion by 2030.

Report Overview

Following a period of dedicated research by expert analysts, IDTechEx published a report that offers unique insights into the global 3D lidar market. The report contains a comprehensive analysis of 106 players developing 3D lidar for the ADAS and autonomous vehicles market, which includes a detailed assessment of technology innovations and market dynamics. While the market analysis and forecasts focus on the automotive industry, the technology analysis and company profiles also cover lidar for industrial automation, robotics, smart city, security, and mapping. Importantly, the report presents an unbiased analysis of primary data gathered via our interviews with key players, and it builds on our expertise in the transport, electronics and photonics sectors.

This research delivers valuable insights for:

  • Companies that require lidar*
  • Companies that develop lidar
  • Companies that supply components and materials for lidar
  • Companies that invest in lidar
  • Companies that develop other technologies for machine automation

*or similar and competing sensors

The Lidar Revolution: Enabling Machines to See our World

3D lidar is an optical perception technology that enables machines to see the world, make decisions and navigate. At present, machines using lidar range from small service robots to large autonomous vehicles. Lidar technologies and markets are rapidly evolving, and IDTechEx are tracking 106 3D lidar players worldwide. Each player claims to offer a unique, next-generation product that is superior to competing technologies. The technology landscape is cluttered with numerous options for every component in a lidar system. IDTechEx identified four important technology choices that every lidar player and lidar user must make: measurement process, laser, beam steering mechanism, and photodetector. The beam steering mechanism is the most complicated and critical choice.

The technology choices made today will have immense consequences for performance, price and scalability of lidar in the future. The present state of the lidar market is unsustainable because winning technologies and players will inevitably emerge, consolidating the technology and business landscapes. 3D lidar start-ups targeting the autonomous vehicles market have secured $1.9 billion USD in funding for product development.

Research on Lidar by IDTechEx

The research on lidar was conducted by Dr Nilushi Wijeyasinghe, an IDTechEx analyst, as part of a project on autonomous vehicles that was directed by Dr Khasha Ghaffarzadeh, the Research Director of IDTechEx. The project builds on the expertise of IDTechEx in the transport, electronics and photonics sectors, which includes our extensive network of contacts throughout the lidar supply chain: from materials suppliers to automotive OEMs.

The coverage of our research is global and includes 34 players headquartered in Asia (20 start-ups in China), 19 players headquartered in Europe, 48 players headquartered in North America and 5 players headquartered in the rest of the world (ROW). Our research is focused on players who position themselves as automotive Tier 2 suppliers. The 3D lidar market analysis is primarily segmented by beam steering technology.

The report explores how innovations in lidar technology affect the growth of lidar market segments. In the technical analysis chapters, IDTechEx analysts use their background in laser physics and semiconductor physics research to explain novel technical concepts to a non-specialist audience. The market analysis chapters provide an assessment of 106 players developing 156 3D lidar products. Market forecasts are based on the extensive analysis of primary and secondary data, combined with careful consideration of market drivers, restraints and key player activities. The technology adoption roadmaps for six types of lidar in four types of level 3+ autonomous vehicles are evaluated to provide a balanced outlook on market opportunities. All 106 3D lidar players are discussed in the company profile and company background chapters.

Our forecast model of the lidar market builds on our forecast model for autonomous mobility, which considers a peak car scenario from 2032 onward. The peak car scenario partly results from the wide adoption of autonomous shared mobility vehicles. Our model of the lidar market considers how the following variables evolve during the forecast period for each beam steering technology segment: technology readiness level of lidar; lidar unit price; lidar cost per vehicle; lidar production volume; vehicle production volume; autonomous vehicle technology adoption; lidar technology adoption; lidar market share per autonomous vehicle segment.

Our report answers important questions such as:

  • What are the lidar technology choices available today, and how do these choices impact on product positioning?
  • What is the present status of each lidar technology and what are the future opportunities?
  • How is the lidar business landscape evolving in terms of investments, supply chain, partnerships and product development?
  • How will each lidar market segment evolve in the short-term and long-term?

The global market for 3D lidar in level 3+ autonomous vehicles grows to $5.4 billion by 2030 with MEMS lidar emerging as the largest market segment.

IDTechEx Report Structure

  • Chapter 1: Executive Summary & Conclusions
  • Chapter 2: Technology Analysis, Sensors for Autonomous Machines
  • Chapter 3: Technology Analysis, Measurement Process Options for Lidar
  • Chapter 4: Technology Analysis, Laser Options for Lidar
  • Chapter 5: Technology Analysis, Beam Steering Options for Lidar
  • Chapter 6: Technology Analysis, Photodetector Options for Lidar
  • Chapter 7: Global 3D Lidar Market Analysis
  • Chapter 8: China 3D Lidar Market Analysis
  • Chapter 9: Global 10-Year 3D Lidar Market Forecasts
  • Chapter 10: Autonomous Vehicles, Market Overview & 10-Year Forecasts
  • Chapter 11: Methodology
  • Chapter 12: Appendix
  • Chapter 13: Interview-Based Company Profiles (22 Players)
  • Chapter 14: Company Backgrounds (84 Players)

Analyst access from IDTechEx

All report purchases include up to 30 minutes telephone time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

Table of Contents

1. EXECUTIVE SUMMARY & CONCLUSIONS

  • 1.1. 3D Lidar: Market Segments & Applications
  • 1.2. 3D Lidar: Four Important Technology Choices
  • 1.3. Automotive Lidar: Operating Process & Requirements
  • 1.4. Emerging Technology Trends
  • 1.5. Laser Technology Choices
  • 1.6. Beam Steering Technology Choices
  • 1.7. Photodetector Technology Choices
  • 1.8. 106 Lidar Players by Geography
  • 1.9. Lidar Hardware Supply Chain for L3+ Vehicles
  • 1.10. Beam Steering Technology
  • 1.11. Mechanical Lidar Players, Rotating & Non-Rotating
  • 1.12. Micromechanical Lidar Players, MEMS & Other
  • 1.13. Pure Solid-State Lidar Players, OPA & Liquid Crystal
  • 1.14. Pure Solid-State Lidar Players, 3D Flash
  • 1.15. Players by Technology & Funding Secured
  • 1.16. L3 Private Vehicle Market Share by Lidar Technology
  • 1.17. L4 & L5 Private Vehicle Market Share by Lidar Technology
  • 1.18. L4 & L5 Shared Mobility Market Share by Lidar Technology
  • 1.19. L4 & L5 Delivery Vehicle Market Share by Lidar Technology
  • 1.20. Global Lidar Unit Sales by L3+ Vehicle Type
  • 1.21. Global Lidar Market Size by L3+ Vehicle Type
  • 1.22. Global Lidar Unit Sales by Technology
  • 1.23. Global Lidar Market Size by Technology

2. TECHNOLOGY ANALYSIS: SENSORS FOR AUTONOMOUS MACHINES

  • 2.1. 3D Lidar: Market Segments & Applications
  • 2.2. 3D Lidar: Four Important Technology Choices
  • 2.3. Autonomous Driving Technologies
  • 2.4. Levels of Autonomous Driving
  • 2.5. Comparison of Lidar, Radar, Camera & Ultrasonic Sensors
  • 2.6. Automotive Lidar: Operating Process & Requirements
  • 2.7. Emerging Technology Trends
  • 2.8. Automotive Lidar: SWOT Analysis
  • 2.9. Comparison of Lidar Product Parameters

3. TECHNOLOGY ANALYSIS: MEASUREMENT PROCESS OPTIONS FOR LIDAR

  • 3.1. Optical 3D Sensing: Comparison of Common Methods
  • 3.2. Optical 3D Sensing: Opportunities & Challenges
  • 3.3. Direct TOF: Time Measurement via Pulsed Light
  • 3.4. Indirect TOF: Phase Measurement via Amplitude Modulation
  • 3.5. TOF Lidar: Spatial Data Analysis, Part I
  • 3.6. TOF Lidar: Spatial Data Analysis, Part II
  • 3.7. FMCW: Frequency Modulated Continuous Wave
  • 3.8. FMCW Lidar: 3D Position & Velocity Data
  • 3.9. Comparison of TOF & FMCW Lidar
  • 3.10. Background Noise & Interference
  • 3.11. Poor Weather Performance: Challenges & Solutions

4. TECHNOLOGY ANALYSIS: LASER OPTIONS FOR LIDAR

  • 4.1. LED Illumination: Limited to Short-Range Depth Sensors
  • 4.2. Laser Technology Choices
  • 4.3. Comparison of Common Laser Type & Wavelength Options
  • 4.4. Laser Operating Principles
  • 4.5. Laser Diodes: Homojunction & Heterojunction Devices
  • 4.6. Laser Diodes: Optical Feedback & Operating Temperature
  • 4.7. Laser Diodes: Material & Wavelength Relationship
  • 4.8. Laser Diodes: Key Operating Parameters
  • 4.9. Laser Diodes: Comparison of Properties by Device Structure
  • 4.10. Laser Diodes: Edge-Emitting Lasers
  • 4.11. Laser Diodes: Vertical-Cavity Surface-Emitting Lasers
  • 4.12. Laser Diodes: External Cavity & Quantum Cascade Lasers
  • 4.13. Laser Diodes: Reliability & Lifetime Considerations
  • 4.14. Comparison of Common EEL & VCSEL Sources for Lidar
  • 4.15. Fiber Lasers: Structure & Operating Principles
  • 4.16. Fiber Lasers: Wavelengths, Modes & Applications
  • 4.17. Fiber Amplifiers: Master Oscillator Power Amplifier System
  • 4.18. Fiber Lasers for Automotive Lidar: Industry Perspectives
  • 4.19. Fiber Laser Lidar: Luminar Technologies Patent
  • 4.20. Fiber Laser Lidar: Google & Waymo Patent
  • 4.21. Diode-Pumped Solid-State Lasers
  • 4.22. DPSSL Lidar: Continental Patent
  • 4.23. Edge-Emitting Lasers & VCSELs for Lidar: SWOT Analysis
  • 4.24. ECDLs & QCLs for Lidar: SWOT Analysis
  • 4.25. Fiber Lasers & DPSSLs for Lidar: SWOT Analysis

5. TECHNOLOGY ANALYSIS: BEAM STEERING OPTIONS FOR LIDAR

  • 5.1. Beam Steering Technology Choices
  • 5.2. Comparison of Common Beam Steering Options
  • 5.3. Overview of Rotating & Non-Rotating Mechanical Lidar
  • 5.4. Overview of MEMS Lidar
  • 5.5. Recent Progress in 1D MEMS Lidar
  • 5.6. Recent Progress in 2D MEMS Lidar
  • 5.7. Optical Phased Arrays
  • 5.8. OPA Lidar Using TOF Process
  • 5.9. OPA Lidar Using FMCW Process
  • 5.10. Recent Progress in OPA Technologies, Part I
  • 5.11. Recent Progress in OPA Technologies, Part II
  • 5.12. Hybrid: MEMS-Actuated Grating OPA
  • 5.13. Liquid Crystal Lidar: LC Clad Waveguide
  • 5.14. Liquid Crystal Lidar: LCPG & LC-OPA
  • 5.15. Liquid Crystal Lidar: LCOS & LC Metasurface
  • 5.16. 3D Flash Lidar
  • 5.17. Recent Progress in 3D Flash Lidar
  • 5.18. Alternatives: Electro-Optical & Acousto-Optical Deflectors
  • 5.19. Alternatives: Risley Prisms, MMT & Liquid Lens
  • 5.20. Mechanical Lidar: SWOT Analysis
  • 5.21. MEMS Lidar: SWOT Analysis
  • 5.22. Optical Phased Array Lidar: SWOT Analysis
  • 5.23. Liquid Crystal Lidar: SWOT Analysis
  • 5.24. 3D Flash Lidar: SWOT Analysis

6. TECHNOLOGY ANALYSIS: PHOTODETECTOR OPTIONS FOR LIDAR

  • 6.1. Photodetector Technology Choices
  • 6.2. Comparison of Common Photodetectors & Materials
  • 6.3. Multiphoton Detectors: PIN Photodiode
  • 6.4. Multiphoton Detectors: APD
  • 6.5. Single Photon Detectors: SPAD
  • 6.6. Single Photon Detectors: SiPM
  • 6.7. Recent Progress in Ge Photodiodes, SPADs & SiPMs

7. GLOBAL 3D LIDAR MARKET ANALYSIS

  • 7.1. Overview: 106 Lidar Players by Geography
  • 7.2. Overview: Players with HQ in North America, Part I
  • 7.3. Overview: Players with HQ in North America, Part II
  • 7.4. Overview: Players with HQ in Asia, Part I
  • 7.5. Overview: Players with HQ in Asia, Part II
  • 7.6. Overview: Players with HQ in Europe & ROW
  • 7.7. Business: Target Markets
  • 7.8. Business: Business Models
  • 7.9. Business: Lidar Hardware Supply Chain for L3+ Vehicles
  • 7.10. Business: Laser & Semiconductor Suppliers
  • 7.11. Business: Evolution of Laser Diode & Fiber Laser Power & Price
  • 7.12. Business: Evolution of Laser Diode Radiance & Price
  • 7.13. Business: Photodetector Suppliers
  • 7.14. Business: Beam Steering Component Suppliers
  • 7.15. Business: Key Investors & Partners of Lidar Start-Ups, Part I
  • 7.16. Business: Key Investors & Partners of Lidar Start-Ups, Part II
  • 7.17. Business: Key Investors & Partners of Lidar Start-Ups, Part III
  • 7.18. Business: Key Partners of Large Corporations Developing Lidar
  • 7.19. Business: 30 Mergers & Acquisitions in the Lidar Supply Chain
  • 7.20. Business: Company Size & Lidar Division Size
  • 7.21. Business: Emergence of New Players
  • 7.22. R&D: Beam Steering Technology
  • 7.23. R&D: Mechanical Lidar Players, Rotating & Non-Rotating
  • 7.24. R&D: Micromechanical Lidar Players, MEMS & Other
  • 7.25. R&D: Pure Solid-State Lidar Players, OPA & Liquid Crystal
  • 7.26. R&D: Pure Solid-State Lidar Players, 3D Flash
  • 7.27. R&D: SWIR Lidar Players, Emerging Alternative to NIR
  • 7.28. R&D: FMCW Lidar Players, Emerging Alternative to TOF
  • 7.29. R&D: Emergence of New Technologies
  • 7.30. R&D: Technology Development Status
  • 7.31. R&D: Lidar Technology Patents & Patent Applications
  • 7.32. Financials: Total Funding Secured per Technology
  • 7.33. Financials: Funding Secured per Technology per Year
  • 7.34. Financials: Players by Geography & Funding Secured
  • 7.35. Financials: Players by Technology Group & Funding Secured
  • 7.36. Financials: Players by Technology & Funding Secured
  • 7.37. Financials: Players by Measurement Process & Funding Secured
  • 7.38. Financials: Players by Laser Wavelength & Funding Secured
  • 7.39. Financials: Players by Funding & Time Invested on Lidar R&D
  • 7.40. Financials: Sales Revenue by Technology
  • 7.41. Products: Components & Systems, Scanned & Non-Scanned
  • 7.42. Products: Emerging System Configurations & Sensor Fusion
  • 7.43. Products: Beam Steering Technology
  • 7.44. Products: Technology Readiness by Technology
  • 7.45. Products: Measurement Process by Technology, TOF & FMCW
  • 7.46. Products: Laser Type by Technology
  • 7.47. Products: Laser Operation by Technology, Pulsed & CW
  • 7.48. Products: Wavelength Band by Technology
  • 7.49. Products: Wavelength by Technology
  • 7.50. Products: Range at 10% R by Technology
  • 7.51. Products: Horizontal FOV by Technology
  • 7.52. Products: Vertical FOV by Technology
  • 7.53. Products: Horizontal Angular Resolution by Technology
  • 7.54. Products: Vertical Angular Resolution by Technology
  • 7.55. Products: Frame Rate by Technology
  • 7.56. Products: Power Consumption by Technology
  • 7.57. Products: 2019 Unit Price by Technology
  • 7.58. Products: Target Price for Mass Production by Technology
  • 7.59. Products: AV Application by Technology, L3-5 Vehicles
  • 7.60. Products: AV Application by Technology, Highway & Urban
  • 7.61. Products: Minimum Units per L3-5 Vehicle by Technology
  • 7.62. Products: Maximum Units per L3-5 Vehicle by Technology
  • 7.63. Products: Wavelength & Range Correlation by Technology
  • 7.64. Products: Range & FOV Correlation by Technology
  • 7.65. Products: Horizontal & Vertical FOV Correlation by Technology
  • 7.66. Products: Angular Resolution Correlation by Technology
  • 7.67. Products: Price & Range Correlation by Technology
  • 7.68. Products: Price & Horizontal FOV Correlation by Technology
  • 7.69. Products: Price & Vertical FOV Correlation by Technology
  • 7.70. Products: Price & Horizontal Resolution Correlation by Technology
  • 7.71. Products: Price & Vertical Resolution Correlation by Technology

8. CHINA 3D LIDAR MARKET ANALYSIS

  • 8.1. Overview: 20 Players Developing 3D Lidar
  • 8.2. Business: Business Models & Target Markets
  • 8.3. Business: Overview of Operations
  • 8.4. Business: Funding, Sales Revenue & Revenue Growth
  • 8.5. R&D: Lidar Technology, Development Status & Patents
  • 8.6. Products: Beam Steering & Technology Readiness
  • 8.7. Products: Laser, Measurement Process & Sensor Fusion
  • 8.8. Products: Lidar Range & Unit Price
  • 8.9. Products: Horizontal & Vertical FOV

9. GLOBAL 10-YEAR 3D LIDAR MARKET FORECASTS

  • 9.1. Roadmap: Evolution of 3D Lidar by Beam Steering Technology
  • 9.2. Roadmap: Evolution of L3+ Vehicles with 3D Lidar by Vehicle Type
  • 9.3. Adoption of 3D Lidar: Summary of Opportunities & Threats
  • 9.4. Lidar Unit Price by Technology: All Products & Average
  • 9.5. Lidar Unit Price by Technology: Mechanical & Non-Mechanical
  • 9.6. Lidars per Vehicle by Technology & Common Configurations
  • 9.7. Lidar Configuration Diagrams: L3, L4 & L5 Vehicles
  • 9.8. Average Lidar Cost per Vehicle by Technology
  • 9.9. Minimum & Maximum Lidar Cost per Vehicle
  • 9.10. Lidar Production Volume per Player: All Market Segments
  • 9.11. Lidar Production Volume per Player: L3+ Vehicles
  • 9.12. Number of Players, New Start-Ups & Business Closures
  • 9.13. Global Lidar Production by Technology: L3+ Vehicles
  • 9.14. L3 Private Vehicle Market Share by Lidar Technology
  • 9.15. L4 & L5 Private Vehicle Market Share by Lidar Technology
  • 9.16. L4 & L5 Shared Mobility Market Share by Lidar Technology
  • 9.17. L4 & L5 Delivery Vehicle Market Share by Lidar Technology
  • 9.18. L3+ Vehicle Production Volume by Vehicle Type: Lidar Markets
  • 9.19. Availability of Lidar Products for L3+ Vehicles
  • 9.20. Global Lidar Unit Sales by L3+ Vehicle Type
  • 9.21. Lidar Unit Sales by L3+ Vehicle Type: Lidar Redundancy Scenario
  • 9.22. Global Lidar Market Size by L3+ Vehicle Type
  • 9.23. Lidar Market Size by L3+ Vehicle Type: Lidar Redundancy Scenario
  • 9.24. Global Lidar Unit Sales by Technology
  • 9.25. Lidar Unit Sales by Technology: Lidar Redundancy Scenario
  • 9.26. Global Lidar Market Size by Technology
  • 9.27. Lidar Market Size by Technology: Lidar Redundancy Scenario
  • 9.28. Lidar Unit Sales & Market Size by Technology: 5-Year Trends
  • 9.29. Lidar Unit Sales by L3+ Vehicle Type & Technology: 2019 & 2030
  • 9.30. Lidar Market Size by L3+ Vehicle Type & Technology: 2019 & 2030
  • 9.31. Lidar Unit Sales & Market Size by Technology: L3 Private Vehicles
  • 9.32. Lidar Unit Sales & Market Size by Technology: L4/L5 Private Vehicles
  • 9.33. Lidar Unit Sales & Market Size by Technology: L4/L5 Shared Mobility
  • 9.34. Lidar Unit Sales & Market Size by Technology: L4/L5 Delivery Vehicles

10. AUTONOMOUS VEHICLES: MARKET OVERVIEW & 10-YEAR FORECASTS

  • 10.1. Private & Shared Vehicles: Test Distance by AV Player
  • 10.2. Private & Shared Vehicles: Tests by Player in China
  • 10.3. Private Vehicles: Autonomous Car Tests by OEM in 2018
  • 10.4. Private Vehicles: Launch Time by Automotive OEM
  • 10.5. Shared Mobility: Robotaxi Launch Time by Player
  • 10.6. Delivery Vehicles: Funding for AV Truck Start-Ups
  • 10.7. Delivery Vehicles: Deployment of L4+ Trucks
  • 10.8. Delivery Vehicles: Market Readiness L4+ Truck Players
  • 10.9. Global Unit Sales of Private & Shared Vehicles: L0 to L5
  • 10.10. Global Unit Sales of Private & Shared Vehicles: L3, L4 & L5

11. METHODOLOGY: DATA COLLECTION AND ANALYSIS

12. APPENDIX: MARKET DATA TABLES, SUMMARY OF KEY FIGURES

13. INTERVIEW-BASED COMPANY PROFILES

  • 13.1. ABAX Sensing: FMCW Pure Solid-State Lidar
  • 13.2. AEye: MOEMS Lidar with RGB Camera
  • 13.3. Baraja: RMCW Spectrum-Scan Lidar
  • 13.4. Blickfeld: MEMS Lidar with Large Aperture
  • 13.5. BrightWay Vision: Laser Gated Image Sensor & Camera
  • 13.6. Cepton: Micro-Motion Technology (MMT) Lidar
  • 13.7. Continental & ASC: 3D Flash Lidar
  • 13.8. Fastree3D: 3D Flash Lidar
  • 13.9. Hybrid Lidar Systems: Sequential Flash Lidar
  • 13.10. Innoviz: Automotive Grade MEMS Lidar
  • 13.11. LeddarTech: Flash Lidar, System on Chip & Software
  • 13.12. Luminar: Non-Rotating Mechanical Lidar
  • 13.13. Mirada Technologies: Liquid Immersed Polygon Scanner
  • 13.14. Ouster: Rotating Multi-Beam 3D Flash Lidar
  • 13.15. Phantom Intelligence: 3D Flash Lidar & Signal Processing
  • 13.16. QLM Technology: Quantum Sensors & FMCW OPA Lidar
  • 13.17. Quanergy: OPA Lidar & Mechanical Lidar
  • 13.18. Sense Photonics: 3D Flash Lidar
  • 13.19. SiLC: FMCW Lidar, Silicon Photonic Chip
  • 13.20. TriLumina: VCSEL Array & Monolithic Microlens Scanning
  • 13.21. Velodyne: Mechanical Lidar & Micro-Lidar Array
  • 13.22. XenomatiX: 3D Flash Lidar with 2D Monochrome Camera
  • 13.23. ZVISION: MEMS Lidar & FMCW OPA Lidar

14. COMPANY BACKGROUNDS: 83 3D LIDAR PLAYERS & 3 COMPETITORS

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