Solid-state LiDAR Market
Solid-state LiDAR Market By Type (MEMS-Based Scanning, Optical Phased Arrays, Flash LiDAR), End-Use Application (Corridor Mapping, Engineering, Environment, ADAS & Driverless Cars, Exploration, Urban Planning), and Region - Global Forecast to 2030
OVERVIEW
Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
The solid-state LiDAR market is projected to reach USD 3.20 billion by 2030 from USD 0.50 billion in 2025, at a CAGR of 45.0% from 2025 to 2030. The market is expected to grow rapidly due to its lower cost, compact design, and higher reliability compared with mechanical LiDAR, making it suitable for large-scale automotive adoption. Additionally, its scalability for ADAS, autonomous vehicles, and emerging robotics applications drive the demand across global markets.
KEY TAKEAWAYS
-
By RegionIn the solid-state LiDAR market, North America accounted for a 38.2% share of the solid-state LiDAR market in 2024.
-
By TypeIn terms of type, the optical phase arrays segment is expected to record the highest growth rate from 2025 to 2030.
-
By End Use ApplicationBy application, the ADAS & driverless cars segment is projected to grow at the fastest rate during the forecast period.
-
Competitive LandscapeRobosense (China) is identified as a star player in the Europe LiDAR market, given their strong market share and product footprint.
-
Competitive LandscapeBlickfeld GmbH (Germany) among others, have distinguished themselves among startups and SMEs by securing strong footholds in specialized niche areas, underscoring their potential as emerging market leaders.
The solid-state LiDAR market is gaining momentum as automakers and industrial users seek reliable, compact, and cost-efficient sensors for ADAS, autonomous vehicles, robotics, and smart infrastructure. Its no-moving-parts design enhances durability, scalability, and integration, making it ideal for mass-market deployment.
TRENDS & DISRUPTIONS IMPACTING CUSTOMERS' CUSTOMERS
The visual highlights how disruptive trends are reshaping customer business models, shifting revenues from traditional to next-generation technologies. The adoption of solid-state LiDAR in autonomous and semi-autonomous vehicles is expected to significantly disrupt the European LiDAR market over the coming years. Solid-state LiDAR is increasingly integrated into advanced driver assistance systems to enhance vehicle safety and performance. Moreover, the emergence of solid-state LiDAR has unlocked substantial growth opportunities for enterprises investing in R&D and developing innovative, scalable sensing solutions for the European market.
Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
MARKET DYNAMICS
Level
-
Rising Adoption in ADAS and Autonomous Vehicles
Level
-
Limited Long-Range Performance vs. Mechanical LiDAR
Level
-
Growing Integration in Robotics and Smart Infrastructure
Level
-
High Initial Development Costs and Technical Complexity
Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
Driver: Rising Adoption in ADAS and Autonomous Vehicles
Solid-state LiDAR adoption is accelerating as automakers demand compact, cost-effective, and reliable sensors for next-generation ADAS and autonomous driving. Its no-moving-parts design boosts durability and performance, making it ideal for mass-market deployment.
Restraint: Limited Long-Range Performance vs. Mechanical LiDAR
Despite rapid advancements, solid-state LiDAR often struggles to match the long-range detection capabilities of mechanical systems. This performance gap restricts its use in certain high-speed or long-distance automotive applications.
Opportunity: Growing Integration in Robotics and Smart Infrastructure
Expanding use of robotics, drones, and smart city projects creates strong demand for rugged, low-maintenance solid-state LiDAR sensors. These emerging applications open new revenue streams beyond the automotive sector.
Challenge: High Initial Development Costs and Technical Complexity
Developing solid-state LiDAR involves advanced semiconductor, optics, and signal-processing technologies that increase R&D expenses. This technical complexity poses challenges for new entrants and slows commercialization for some players.
solid-state-lidar-market: COMMERCIAL USE CASES ACROSS INDUSTRIES
| COMPANY | USE CASE DESCRIPTION | BENEFITS |
|---|---|---|
 |
Solid-state LiDAR integrated into European automakers’ ADAS systems for highway safety, lane-keeping, obstacle detection, and automated emergency response | Improved road safety | Enhanced perception accuracy in compact sensor formats | Support for EU regulations on advanced driver assistance systems |
 |
Solid-state digital LiDAR deployed in warehouse robotics and autonomous mobile robots (AMRs) for real-time mapping, collision avoidance, and indoor navigation | Higher automation efficiency | Reduced downtime from accidents | Scalable sensor integration for Europe’s expanding industrial automation ecosystem |
Logos and trademarks shown above are the property of their respective owners. Their use here is for informational and illustrative purposes only.
MARKET ECOSYSTEM
The soli-state LiDAR market ecosystem consists of several key participants, including component manufacturers, such as Coherent, Hamamatsu, and Lumentum, system providers, such as Ouster, Innoviz, and Hesai, and software providers, such as AEye and Robosense. These companies collectively develop and deliver the essential hardware, complete LiDAR systems, and intelligent software solutions that enable diverse applications. End users from automotive industrial, and technology sectors, including BMW, Tesla, and Mercedes-Benz, drive the adoption and innovation within this interconnected ecosystem.
Logos and trademarks shown above are the property of their respective owners. Their use here is for informational and illustrative purposes only.
MARKET SEGMENTS
Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
By Region
Asia Pacific is expected to witness the highest growth rate in solid-state LiDAR during the forecast period due to strong government support for autonomous driving, smart city development, and industrial automation initiatives. The growing automotive manufacturing base—especially in China, Japan, and South Korea—leads to the large-scale adoption of compact, cost-efficient LiDAR solutions. Additionally, rapid expansion of robotics, logistics automation, and drone applications further fuels the demand for solid-state LiDAR across emerging Asia Pacific economies.
By End-use Application
ADAS and driverless cars are expected to capture a significant market share for solid-state LiDAR as automakers increasingly rely on compact, reliable, and cost-effective sensing systems for enhanced safety and automation. Solid-state LiDAR’s durability and high-resolution perception make it ideal for advanced driving functions, such as lane-keeping, object detection, and autonomous navigation. With the increasing investment in next-generation mobility, these applications will continue to witness strong demand throughout the forecast period.
By Type
Optical phase arrays segment is expected to grow at the fastest rate as they offer a truly solid-state, semiconductor-based design with no moving parts, enabling extreme miniaturization and low-cost mass production. Its fast beam steering and higher reliability make it highly attractive for autonomous vehicles and consumer electronics. As chip-level integration advances rapidly in Asia, the EU, and the US, OPA LiDAR is emerging as the next major breakthrough technology.
REGION
Asia Pacific to be fastest-growing region in solid-state LiDAR market during forecast period
Solid-state LiDAR is set to experience strong growth in Asian countries, such as China, Japan, and South Korea, due to the mounting adoption of autonomous driving, ADAS, and intelligent mobility solutions. The region’s booming automotive production and rapid industrial automation create high demand for compact, durable sensing technologies. Additionally, large-scale investments in drones, robotics, and smart city infrastructure further boost the uptake of solid-state LiDAR across the region.
solid-state-lidar-market: COMPANY EVALUATION MATRIX
Stars are the leading market players in new developments, such as product launches, innovative technologies, and the adoption of growth strategies. These players have a broad portfolio, innovative product offerings, and a global presence. They have well-established channels throughout the value chain. Robosense (China) comes under this category. Emerging Leaders demonstrate more substantial product innovations than their competitors. Companies are investing more in R&D to launch several products in the market. A few players have a unique portfolio, while some have heavily invested in R&D or recently launched several products or innovative products. Valeo (France) comes under this category.
Source: Secondary Research, Interviews with Experts, MarketsandMarkets Analysis
KEY MARKET PLAYERS
- Robosense (China)
- Hesai Group (China)
- Luminar Technologies Inc. (US)
- Sick AG (Germany)
- Innoviz Technologies (Israel)
- LeddarTech (Canada)
- Quanergy Systems (US)
- Ouster (US)
- Cepton Technologies (US)
- Valeo (France)
MARKET SCOPE
| REPORT METRIC | DETAILS |
|---|---|
| Market Size in 2024 (Value) | USD 0.35 Billion |
| Market Forecast in 2030 (Value) | USD 3.20 Billion |
| Growth Rate | CAGR of 45.0% from 2025-2030 |
| Years Considered | 2021-2030 |
| Base Year | 2024 |
| Forecast Period | 2025-2030 |
| Units Considered | Value (USD Million/Billion), Volume (Thousand Units) |
| Report Coverage | Revenue forecast, company ranking, competitive landscape, growth factors, and trends |
| Segments Covered |
|
| Regions Covered | North America, Europe, Asia Pacific, and RoW |
WHAT IS IN IT FOR YOU: solid-state-lidar-market REPORT CONTENT GUIDE
DELIVERED CUSTOMIZATIONS
We have successfully delivered the following deep-dive customizations:
| CLIENT REQUEST | CUSTOMIZATION DELIVERED | VALUE ADDS |
|---|---|---|
| Automotive OEM | Competitive benchmarking of solid-state LiDAR suppliers (cost, reliability, beam steering technology), assessment of sensor readiness for ADAS and autonomous driving functions, and evaluation of integration feasibility across L2–L4 automation levels. | Enable strategic sourcing for next-gen autonomous vehicle programs, identify high-performance solid-state LiDAR vendors for long-term partnerships, and support roadmap development for compact, cost-optimized mobility solutions. |
| Defense & Security Contractor | Evaluation of solid-state LiDAR for surveillance, perimeter protection, unmanned ground vehicles, and autonomous military platforms; analysis of ruggedization requirements for battlefield conditions and adoption potential in major defense programs. | Strengthen positioning in defense modernization initiatives, support entry into government-funded autonomous systems projects, and enable selection of durable, low-maintenance LiDAR solutions suited for mission-critical operations. |
RECENT DEVELOPMENTS
- March 2025 : Ouster introduced a new feature called 3D Zone Monitoring for its REV7 digital LiDAR sensor lineup (including OS0, OS1, and OSDome models). This feature allows the sensor to detect objects within customized 3D zones on-sensor and trigger real-time alerts or actions, significantly enhancing collision avoidance capabilities in applications such as warehouse automation and industrial robotics. This update is delivered via firmware and represents a step towards Ouster's push to become an autonomy company by expanding sensor usability and simplifying development for customers.
- February 2025 : Leica Geosystems, part of Hexagon, introduced the Leica CoastalMapper, a next-generation airborne bathymetric LiDAR system. With a wider field of view and higher altitude operation, coastal and river survey efficiency is boosted by 250% compared with previous models. This advanced solution supports diverse applications, including infrastructure monitoring, flood assessment, and environmental studies in shallow and deep waters.
Table of Contents
Exclusive indicates content/data unique to MarketsandMarkets and not available with any competitors.
Methodology
The study involved four major activities in estimating the size of the Solid-state LiDAR Market. Exhaustive secondary research was done to collect information on the market, peer market, and parent market. The next step was to validate these findings, assumptions, and sizing with industry experts across value chains through primary research. The bottom-up approach was employed to estimate the overall market size. After that, market breakdown and data triangulation were used to estimate the market size of segments and subsegments.
Secondary Research
In the secondary research process, various sources were used to identify and collect information important for this study. These include annual reports, press releases & investor presentations of companies, white papers, technology journals, and certified publications, articles by recognized authors, directories, and databases.
Secondary research was mainly used to obtain key information about the supply chain of the industry, the total pool of market players, classification of the market according to industry trends to the bottom-most level, regional markets, and key developments from the market and technology-oriented perspectives.
Primary research was also conducted to identify the segmentation types, key players, competitive landscape, and key market dynamics such as drivers, restraints, opportunities, challenges, and industry trends, along with key strategies adopted by players operating in the Solid-state LiDAR Market. Extensive qualitative and quantitative analyses were performed on the complete market engineering process to list key information and insights throughout the report.
Primary Research
Extensive primary research has been conducted after acquiring knowledge about the Solid-state LiDAR Market scenario through secondary research. Several primary interviews have been conducted with experts from both the demand (end users) and supply (LiDAR solution providers) sides across four major geographic regions: North America, Europe, Asia Pacific, and RoW. Approximately 80% and 20% of the primary interviews have been conducted from the supply and demand sides, respectively. These primary data have been collected through questionnaires, emails, and telephone interviews.
Market Size Estimation
In the complete market engineering process, both the top-down and bottom-up approaches were implemented, along with several data triangulation methods, to estimate and validate the size of the Solid-state LiDAR Market and various other dependent submarkets. Key players in the market were identified through secondary research, and their market share in the respective regions was determined through primary and secondary research. This entire research methodology included the study of annual and financial reports of the top players, as well as interviews with experts (such as CEOs, VPs, directors, and marketing executives) for key insights (quantitative and qualitative).
All percentage shares, splits, and breakdowns were determined using secondary sources and verified through primary sources. All the possible parameters that affect the markets covered in this research study were accounted for, viewed in detail, verified through primary research, and analyzed to obtain the final quantitative and qualitative data. This data was consolidated and supplemented with detailed inputs and analysis from MarketsandMarkets and presented in this report.
Data Triangulation
After arriving at the overall market size from the market size estimation process as explained above, the total market has been split into several segments and subsegments. To complete the overall market engineering process and arrive at the exact statistics for all segments and subsegments, market breakdown and data triangulation procedures have been employed, wherever applicable. The data has been triangulated by studying various factors and trends from both demand and supply sides. Along with this, the market has been validated using top-down and bottom-up approaches.
Market Definition
LiDAR, or light detection and ranging, works on the time of flight principle. The system uses light waves or a light source as a pulsed laser to measure the distance between objects. Measuring distances helps create 3D maps of terrains or earth surfaces that are not visible to the human eye or cannot be created through photogrammetry. The light waves are combined with other data recorded by the system (airborne or ground-based) to generate precise 3D information about the shape and characteristics of the targeted object.
Key Stakeholders
- Senior Management
- End User
- Finance/Procurement Department
- R&D Department
Report Objectives
- To describe, segment, and forecast the overall size of the Solid-state LiDAR Market by type, installation, range, service, end-use application, and region, in terms of value
- To describe and forecast the market size for various segments with regard to four main regions—North America, Europe, Asia Pacific, and the Rest of the World (RoW), in terms of value
- To provide detailed information regarding major factors, such as drivers, restraints, opportunities, and challenges influencing the market growth
- To analyze the supply chain, trends/disruptions impacting customer business, market/ecosystem map, pricing analysis, and regulatory landscape pertaining to the Solid-state LiDAR Market
- To analyze opportunities in the market for stakeholders by identifying the high-growth segments of the market
- To briefly describe the value chain of light detection and ranging (LiDAR) solutions
- To strategically analyze micromarkets1 with respect to individual growth trends, prospects, and contributions to the overall market
- To profile key players and comprehensively analyze their market position in terms of their ranking and core competencies, along with the detailed competitive landscape of the market
- To analyze competitive developments, such as product launches and developments, partnerships, agreements, expansions, acquisitions, contracts, alliances, and research & development (R&D)undertaken in the Solid-state LiDAR Market
- To benchmark market players using the proprietary ‘Company Evaluation Matrix,’ which analyzes market players on various parameters within the broad categories of business strategy excellence and strength of product portfolio
- To analyze the probable impact of the recession on the market
Need a Tailored Report?
Customize this report to your needs
Get 10% FREE Customization
Customize This ReportPersonalize This Research
- Triangulate with your Own Data
- Get Data as per your Format and Definition
- Gain a Deeper Dive on a Specific Application, Geography, Customer or Competitor
- Any level of Personalization
Let Us Help You
- What are the Known and Unknown Adjacencies Impacting the Solid-state LiDAR Market
- What will your New Revenue Sources be?
- Who will be your Top Customer; what will make them switch?
- Defend your Market Share or Win Competitors
- Get a Scorecard for Target Partners
Custom Market Research Services
We Will Customise The Research For You, In Case The Report Listed Above Does Not Meet With Your Requirements
Get 10% Free Customisation
Growth opportunities and latent adjacency in Solid-state LiDAR Market