Home Technology Solid-State LiDAR Market Size. Share & Growth Report by 2033

Solid-State LiDAR Market Size & Outlook, 2025-2033

Solid-State LiDAR Market Size, Share & Trends Analysis Report By Type (MEMS-Based Scanning, Optical Phased Arrays, Flash LiDAR), By Application (Intelligent Machine Vision and Robotics, Assisted Surgery, Air Quality Monitoring, Aerial Drones, Autonomous Vehicles, Automation of Factory Robots) and By Region (North America, Europe, APAC, Middle East and Africa, LATAM) Forecasts, 2025-2033

Report Code: SRTE330DR

Last Updated: Jan, 2026

Pages: 110

Author: Pavan Warade

Format: PDF, Excel

Table Of Content

Executive Summary

Research Scope & Segmentation

Research Objectives
Limitations & Assumptions
Market Scope & Segmentation
Currency & Pricing Considered

Market Opportunity Assessment

Emerging Regions / Countries
Emerging Companies
Emerging Applications / End Use

Market Trends

Drivers
Market Warning Factors
Latest Macro Economic Indicators
Geopolitical Impact
Technology Factors

Market Assessment

Porters Five Forces Analysis
Value Chain Analysis

Regulatory Framework

North America
Europe
APAC
Middle East and Africa
LATAM

ESG Trends

Global Solid-State LiDAR Market Size Analysis

Global Solid-State LiDAR Market Introduction
By Type
1. Introduction
  1. Type By Value
2. MEMS-Based Scanning
  1. By Value
3. Optical Phased Arrays
  1. By Value
4. Flash LiDAR
  1. By Value
By Application
1. Introduction
  1. Application By Value
2. Intelligent Machine Vision and Robotics
  1. By Value
3. Assisted Surgery
  1. By Value
4. Air Quality Monitoring
  1. By Value
5. Aerial Drones
  1. By Value
6. Autonomous Vehicles
  1. By Value
7. Automation of Factory Robots
  1. By Value

North America Market Analysis

Introduction
By Type
1. Introduction
  1. Type By Value
2. MEMS-Based Scanning
  1. By Value
3. Optical Phased Arrays
  1. By Value
4. Flash LiDAR
  1. By Value
By Application
1. Introduction
  1. Application By Value
2. Intelligent Machine Vision and Robotics
  1. By Value
3. Assisted Surgery
  1. By Value
4. Air Quality Monitoring
  1. By Value
5. Aerial Drones
  1. By Value
6. Autonomous Vehicles
  1. By Value
7. Automation of Factory Robots
  1. By Value
U.S.
1. By Type
  1. Introduction
    1. Type By Value
  2. MEMS-Based Scanning
    1. By Value
  3. Optical Phased Arrays
    1. By Value
  4. Flash LiDAR
    1. By Value
2. By Application
  1. Introduction
    1. Application By Value
  2. Intelligent Machine Vision and Robotics
    1. By Value
  3. Assisted Surgery
    1. By Value
  4. Air Quality Monitoring
    1. By Value
  5. Aerial Drones
    1. By Value
  6. Autonomous Vehicles
    1. By Value
  7. Automation of Factory Robots
    1. By Value
Canada

Europe Market Analysis

Introduction
By Type
1. Introduction
  1. Type By Value
2. MEMS-Based Scanning
  1. By Value
3. Optical Phased Arrays
  1. By Value
4. Flash LiDAR
  1. By Value
By Application
1. Introduction
  1. Application By Value
2. Intelligent Machine Vision and Robotics
  1. By Value
3. Assisted Surgery
  1. By Value
4. Air Quality Monitoring
  1. By Value
5. Aerial Drones
  1. By Value
6. Autonomous Vehicles
  1. By Value
7. Automation of Factory Robots
  1. By Value
U.K.
1. By Type
  1. Introduction
    1. Type By Value
  2. MEMS-Based Scanning
    1. By Value
  3. Optical Phased Arrays
    1. By Value
  4. Flash LiDAR
    1. By Value
2. By Application
  1. Introduction
    1. Application By Value
  2. Intelligent Machine Vision and Robotics
    1. By Value
  3. Assisted Surgery
    1. By Value
  4. Air Quality Monitoring
    1. By Value
  5. Aerial Drones
    1. By Value
  6. Autonomous Vehicles
    1. By Value
  7. Automation of Factory Robots
    1. By Value
Germany
France
Spain
Italy
Russia
Nordic
Benelux
Rest of Europe

APAC Market Analysis

Introduction
By Type
1. Introduction
  1. Type By Value
2. MEMS-Based Scanning
  1. By Value
3. Optical Phased Arrays
  1. By Value
4. Flash LiDAR
  1. By Value
By Application
1. Introduction
  1. Application By Value
2. Intelligent Machine Vision and Robotics
  1. By Value
3. Assisted Surgery
  1. By Value
4. Air Quality Monitoring
  1. By Value
5. Aerial Drones
  1. By Value
6. Autonomous Vehicles
  1. By Value
7. Automation of Factory Robots
  1. By Value
China
1. By Type
  1. Introduction
    1. Type By Value
  2. MEMS-Based Scanning
    1. By Value
  3. Optical Phased Arrays
    1. By Value
  4. Flash LiDAR
    1. By Value
2. By Application
  1. Introduction
    1. Application By Value
  2. Intelligent Machine Vision and Robotics
    1. By Value
  3. Assisted Surgery
    1. By Value
  4. Air Quality Monitoring
    1. By Value
  5. Aerial Drones
    1. By Value
  6. Autonomous Vehicles
    1. By Value
  7. Automation of Factory Robots
    1. By Value
Korea
Japan
India
Australia
Singapore
Taiwan
South East Asia
Rest of Asia-Pacific

Middle East and Africa Market Analysis

Introduction
By Type
1. Introduction
  1. Type By Value
2. MEMS-Based Scanning
  1. By Value
3. Optical Phased Arrays
  1. By Value
4. Flash LiDAR
  1. By Value
By Application
1. Introduction
  1. Application By Value
2. Intelligent Machine Vision and Robotics
  1. By Value
3. Assisted Surgery
  1. By Value
4. Air Quality Monitoring
  1. By Value
5. Aerial Drones
  1. By Value
6. Autonomous Vehicles
  1. By Value
7. Automation of Factory Robots
  1. By Value
UAE
1. By Type
  1. Introduction
    1. Type By Value
  2. MEMS-Based Scanning
    1. By Value
  3. Optical Phased Arrays
    1. By Value
  4. Flash LiDAR
    1. By Value
2. By Application
  1. Introduction
    1. Application By Value
  2. Intelligent Machine Vision and Robotics
    1. By Value
  3. Assisted Surgery
    1. By Value
  4. Air Quality Monitoring
    1. By Value
  5. Aerial Drones
    1. By Value
  6. Autonomous Vehicles
    1. By Value
  7. Automation of Factory Robots
    1. By Value
Turkey
Saudi Arabia
South Africa
Egypt
Nigeria
Rest of MEA

LATAM Market Analysis

Introduction
By Type
1. Introduction
  1. Type By Value
2. MEMS-Based Scanning
  1. By Value
3. Optical Phased Arrays
  1. By Value
4. Flash LiDAR
  1. By Value
By Application
1. Introduction
  1. Application By Value
2. Intelligent Machine Vision and Robotics
  1. By Value
3. Assisted Surgery
  1. By Value
4. Air Quality Monitoring
  1. By Value
5. Aerial Drones
  1. By Value
6. Autonomous Vehicles
  1. By Value
7. Automation of Factory Robots
  1. By Value
Brazil
1. By Type
  1. Introduction
    1. Type By Value
  2. MEMS-Based Scanning
    1. By Value
  3. Optical Phased Arrays
    1. By Value
  4. Flash LiDAR
    1. By Value
2. By Application
  1. Introduction
    1. Application By Value
  2. Intelligent Machine Vision and Robotics
    1. By Value
  3. Assisted Surgery
    1. By Value
  4. Air Quality Monitoring
    1. By Value
  5. Aerial Drones
    1. By Value
  6. Autonomous Vehicles
    1. By Value
  7. Automation of Factory Robots
    1. By Value
Mexico
Argentina
Chile
Colombia
Rest of LATAM

Competitive Landscape

Solid-State LiDAR Market Share By Players
M&A Agreements & Collaboration Analysis

Market Players Assessment

Velodyne Lidar, Inc. (US
1. Overview
2. Business Information
3. Revenue
4. ASP
5. SWOT Analysis
6. Recent Developments
Ouster, Inc. (US)
Luminar Technologies, Inc. (US)
Innoviz Technologies Ltd. (Israel)
Hesai Technology Co., Ltd. (China)
RoboSense (Suteng Innovation Technology Co., Ltd.(China)
Ibeo Automotive Systems GmbH (Germany)
LeddarTech Inc. (Canada)
Quanergy Systems, Inc. (US)
Blickfeld GmbH (Germany)
Aeva Technologies, Inc. (US)
Xenomatix (Belgium)
Cepton Technologies, Inc. (US)
Livox Technology Limited (China)
Benewake (Beijing) Co., Ltd. (China)

Research Methodology

Research Data
1. Secondary Data
  1. Major secondary sources
  2. Key data from secondary sources
2. Primary Data
  1. Key data from primary sources
  2. Breakdown of primaries
3. Secondary And Primary Research
  1. Key industry insights
Market Size Estimation
1. Bottom-Up Approach
2. Top-Down Approach
3. Market Projection
Research Assumptions
1. Assumptions
Limitations
Risk Assessment

Appendix

Discussion Guide
Customization Options
Related Reports

Disclaimer

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