The Global LiDAR Market size is expected to reach $3.5 billion by 2028, rising at a market growth of 18.4% CAGR during the forecast period.
A precise 3-D virtual image of an item can be made using cutting-edge remote sensing technology known as light detection and ranging (LiDAR). It is a laser tool with high intensity with a MEMS scanner and a GPS transceiver, which are used in conjunction with LiDAR to produce 3D and 2D images. Seismology, geomatics, aerial laser swath mapping, archaeology, atmospheric physics, geomorphology, and other fields employ LiDAR in various ways.
LiDAR can deliver precise information even in the presence of obstacles like walls, bridges, tunnels, and others owing to its qualities. In the geospatial sector, LiDAR is utilized to gather data in remote areas and is usable in any weather. LiDAR technology made it simpler to inspect, find, and map items than traditional techniques. This approach is preferred over traditional surveying techniques because it can quickly produce 3D images and highly accurate data.
The primary reason propelling the development of the LiDAR market is the improved automated processing capability of LiDAR systems in regard to picture resolution and data processing capabilities compared to other technologies. Similar to RADAR, LiDAR is utilized for ranging and detection applications. However, in terms of precision and response speed, it is more capable than RADAR. LiDAR can more accurately capture surface information and the position of the object.
Additionally, it can accurately obtain 3D topography data from the surface of an item. In contrast, RADAR relies on antennae for transmission and receiving, which causes a delay in some environments. This has increased the inclination of users towards LiDAR systems, which consequently accelerates the expansion of the market.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Sick AG, FARO Technologies, Inc., Teledyne Optech, Inc., Trimble, Inc., Hexagon AB (Leica Geosystems AG), NV5 Global, Inc., YellowScans, SureStar, GeoDigital and RIEGL Laser Measurement Systems GmbH.
A precise 3-D virtual image of an item can be made using cutting-edge remote sensing technology known as light detection and ranging (LiDAR). It is a laser tool with high intensity with a MEMS scanner and a GPS transceiver, which are used in conjunction with LiDAR to produce 3D and 2D images. Seismology, geomatics, aerial laser swath mapping, archaeology, atmospheric physics, geomorphology, and other fields employ LiDAR in various ways.
LiDAR can deliver precise information even in the presence of obstacles like walls, bridges, tunnels, and others owing to its qualities. In the geospatial sector, LiDAR is utilized to gather data in remote areas and is usable in any weather. LiDAR technology made it simpler to inspect, find, and map items than traditional techniques. This approach is preferred over traditional surveying techniques because it can quickly produce 3D images and highly accurate data.
The primary reason propelling the development of the LiDAR market is the improved automated processing capability of LiDAR systems in regard to picture resolution and data processing capabilities compared to other technologies. Similar to RADAR, LiDAR is utilized for ranging and detection applications. However, in terms of precision and response speed, it is more capable than RADAR. LiDAR can more accurately capture surface information and the position of the object.
Additionally, it can accurately obtain 3D topography data from the surface of an item. In contrast, RADAR relies on antennae for transmission and receiving, which causes a delay in some environments. This has increased the inclination of users towards LiDAR systems, which consequently accelerates the expansion of the market.
COVID-19 Impact Analysis
The industries associated with the LiDAR ecosystem were adversely affected by the COVID-19 outbreak. LiDAR systems had a significant impact on producers as well as end users. The pandemic severely affected the oil & gas exploration solutions industry. LiDAR is used in the exploration industry for mining and oil & gas applications. Due to the COVID-19 pandemic, many consumers did not choose LiDAR products because of the high initial cost of the LiDAR systems and the production companies' financial instability. These circumstances lessened the impact of the growth perspectives that the deployment of LiDAR systems and technologies in ADAS and autonomous cars was expected to generate.Market Growth Factors
Increasing adoption of 3D and 4D LiDAR
LiDAR adoption is gaining traction as the need for sophisticated 3D imaging technology grows across a range of surveillance and security applications. One of LiDAR's key advantages is its outstanding precision in detecting water runoff for mining or agricultural areas, different climatic variations on slopes, inland water flow, and other phenomena. LiDAR computes a 3D real-time model of the physical world by measuring the laser points' time of flight (ToF). The LiDAR sensor can precisely determine the proximity to each object based on the time interval between the outgoing and the reflected pulse.Growing employment of LiDAR sensors & technology in autonomous vehicles
The perception systems of AVs through sensors deliver sufficient data under optimal operating conditions to enable autonomous mobility. By incorporating LiDAR technology, self-driving cars can identify items in their immediate vicinity and make informed decisions. It is the most crucial element in making self-driving cars a reality since it serves as a vehicle's 'pair of eyes.' As they compete to create safe autonomous vehicles, many automakers are using this technology.Market Restraining Factors
Easy accessibility of other inexpensive and lightweight photogrammetry methods
It is projected that adopting portable, affordable photogrammetry technology for mapping and surveying will constrain the LiDAR industry's expansion. Active sensors help LiDAR drones recognize objects on the ground, and they subsequently fire laser beams to measure their distance from ground targets. While photogrammetry systems allow users to view and compute the distance of entities in 3D, they also use photographs that are transferred from 3D and 2D cartometric models to give the impression that objects are below the surface of the earth.Type Outlook
On the basis of type, the LiDAR market is divided into solid-state and mechanical. The solid-state segment recorded a significant revenue share in the LiDAR market in 2021. A silicon chip serves as the foundation of a solid-state LiDAR. Since there are no moving parts, it is smaller and more vibration-resistant, allowing for high production rates and lower costs. The widening array of uses for this form of LiDAR in autonomous vehicles, drones, and robots explains the segment's growth.Range Outlook
On the basis of range, the LiDAR market is fragmented into short range, medium range, and long range. The short range segment procured the highest revenue share in the LiDAR market in 2021. Short range LiDAR is widely employed in both airborne and ground-based applications. In addition, the short range is used in applications including robotics, security, and automotive.Service Outlook
Based on service, the LiDAR market is classified into aerial surveying, asset management, GIS service, ground-based surveying, and others. The GIS service segment witnessed a considerable growth rate in the LiDAR market in 2021. A Geographic Information System (GIS) may quickly and easily include items obtained by LiDAR for analysis and interpretation. With the help of this remote sensing technique, users may gather extremely dense point samples of characteristics in three dimensions.Component Outlook
Based on component, the LiDAR market is categorized into laser scanner, navigation & positioning system, and others. The laser scanner segment garnered the highest revenue share in the LiDAR market in 2021. The calculation of reflection time and the environment are scanned using laser scanners. Laser systems collect data and 3D photographs of the surroundings throughout the scanning process. Deflecting laser scanners use mirrors to give them a broad field of view.Installation Type Outlook
Based on installation type, the LiDAR market is segmented into airborne and ground-based. The airborne segment garnered a remarkable growth rate in the LiDAR market in 2021. The aerial vehicles that carry airborne LiDAR systems are planes, helicopters, and drones. LiDAR is the right approach for inspection, surveying, and mapping since it allows for rapidly gathering 3D data. The expansion of the segment is attributed to the increased demand for topographic LiDAR in various surveying applications.Application Outlook
On the basis of application, the LiDAR market is divided into corridor mapping, engineering, environment, ADAS & driverless cars, exploration, urban planning, cartography, meteorology, and others. The engineering segment procured a significant revenue share in the LiDAR market in 2021. The segment's expansion is mostly attributable to the acceleration of urbanization and industrialization, which has increased the demand for effective town planning.Regional Outlook
Based on region, the LiDAR market is analyzed across North America, Europe, Asia Pacific, and LAMEA. The North America segment witnessed the highest revenue share in the LiDAR market in 2021. The region has become a focal point for significant investments and chances for corporate growth on a worldwide scale. The usage of LiDAR in fields including urban planning, meteorology, corridor mapping, and the environment is credited with driving the expansion of the regional market. The market is also credited to LiDAR's use in ADAS & driverless cars, which is anticipated to experience rapid growth in the ensuing years.LiDAR Market Competition Analysis
The major strategies followed by the market participants are Product Launches. Based on the Analysis presented in the Cardinal matrix; Hexagon AB, Teledyne Optech, Inc. and Trimble, Inc. are the forerunners in the LiDAR Market. Companies such as Sick AG, FARO Technologies, Inc. and NV5 Global, Inc. are some of the key innovators in LiDAR Market.The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Sick AG, FARO Technologies, Inc., Teledyne Optech, Inc., Trimble, Inc., Hexagon AB (Leica Geosystems AG), NV5 Global, Inc., YellowScans, SureStar, GeoDigital and RIEGL Laser Measurement Systems GmbH.
Strategies deployed in Signals LiDAR Market
Partnerships, Collaborations and Agreements:
- Dec-2022: Hexagon partnered with ZF Group’s ProConnect connectivity platform. ZF Group is a supplier of systems used in cars and commercial vehicles. This partnership would allow vehicle communication in autonomous driving systems and advanced driver assistance systems. Additionally, this move would deliver the automotive safety integrity level ratings, ane-level positioning accuracy and required functional safety
- Aug-2022: SICK AG announced a partnership with Aeva, a company developing perception and sensing solutions for autonomous vehicles. This partnership would deploy 4D LiDAR for its application in the field of industrial sensing. Additionally, this would bring new opportunities for the company and customers in various industrial sensing applications where LiDAR technologies are questioned for their traditional flight time
- Jan-2022: YellowScan partnered with EcoTech Ltd., a company delivering monitoring systems. through this partnership, the company would extend the research and applications in ecological monitoring, forestry, agriculture, mapping and surveying. additionally, the company would serve the Chinese market
- Nov-2021: Hexagon partnered with Airbus, a company engaged in manufacturing and selling military and civil aerospace solutions. This partnership would allow the integration of Leica Chiroptera 4X bathymetric LiDAR sensors with Airbus's Maritime Surveillance Aircraft, C295 MSA. Additionally, Hexagon would add new features to the maritime surveillance industry and would expand the company's current systems. Moreover, this would lead to the addition of new applications in airborne bathymetry
- Jan-2021: SICK AG came into partnership with Ibeo Automotive Systems GmbH, a company providing 3D & 4D Solid State LiDAR systems. This partnership would allow the company to make use of highly developed and strong technology from the automotive segment for upcoming applications in industries
- Jul-2019: SureStar partnered with Applanix to launch Mini-LiDAR System with Trimble APX UAV. Applanix is a company engaged in manufacturing navigation system products. This partnership would enable the integration of products to provide a lightweight solution to allow surveying and mapping with the help of UAV to create quality-based deliverables efficiently and quickly
Product Launches and Product Expansions:
- Oct-2022: Leica Geosystems, a subsidiary of Hexagon, launched Hexagon, a next-generation construction Smart Antenna having the ability to increase productivity at Jobsite. This product would allow exact measurement, solve challenges and avoid mistakes. This would ultimately help in working towards a sustainable future
- Sep-2022: Leica Geosystems, a subsidiary of Hexagon, unveiled Leica DMC-4, an efficient airborne imaging sensor which delivers matchless image quality for their application in complex mapping situations. This partnership would benefit customers by delivering a versatile and efficient large-format solution for various application uses
- Jul-2021: Trimble unveiled Trimble® MX50 mobile mapping system. This newly launched product lowers the complicatedness of mobile mapping and simultaneously allows the users to be efficient and productive in mapping the assets along with maintaining roads and highways. Additionally, MX50 allows the users to take control of the captured data from the safety and take control of their vehicles
- Dec-2020: SICK Sensors launched TiM2XX line of LiDAR sensors invented to operate with autonomous mobile robots. These newly launched sensors would be able to cover a long distance and sweep a larger area. Additionally, the high scanning rate assists fast-moving autonomous mobile robots. With the help of these LiDAR sensors, the robots can sense workers present far away and respond quickly
- Aug-2020: Teledyne Optech launched CM2000, a sensor particularly developed for corridor mapping. This launch would permit users to restrict the field of view to the exact width of their corridor and focus on the laser measurements on their specific targets. This integration of a measurement rate of 2 million points per second and an adjustable field of view would provide data resolution allowing decision-making, insights and advanced analytics
- Sep-2019: Teledyne Optech introduced CL-360. This is a new product in the line of compact lidar sensors used in UAV and mobile applications. This product would lay the foundation for numerous upcoming products by OEM partners for various platforms and applications
- Feb-2018: Teledyne unveiled ALTM™ Galaxy PRIME. This product ensures continuous operations by eliminating the density variations in multipulse transition zones and data gaps. This would allow surveyors to use high laser pulse repetition frequencies for generating data with high point density in variable terrain and at high altitudes without complex flight planning
Acquisition and Mergers:
- Dec-2022: FARO Technologies, Inc. took over SiteScape, a LiDAR 3D scanner app used by Contractors and Architects. This acquisition would add a new population of customers for the reality capture solutions provided by FARO Technologies
- Aug-2021: NV5 Geospatial took over VMX-2HA dual scanner mobile mapping system from RIEGL, a company providing terrestrial, mobile, airborne and UAV-based laser scanning solutions. This acquisition would allow the company to perform more detailed surveys. Additionally, the platform's flexibility would permit the combination of spherical cameras and other technology to analyse more creative survey applications
Scope of the Study
Market Segments Covered in the Report:
By Type
- Mechanical
- Solid-state
By Range
- Short Range
- Medium Range
- Long Range
By Service
- Ground-based surveying
- GIS Service
- Asset Management
- Aerial Surveying
- Others
By Component
- Laser Scanner
- Navigation & Positioning System
- Others
By Installation Type
- Ground-based
- Airborne
By Application
- Environment
- Exploration
- Meteorology
- Corridor Mapping
- Engineering
- Urban Planning
- ADAS & Driverless Cars
- Others
By Geography
North America
- US
- Canada
- Mexico
- Rest of North America
Europe
- Germany
- UK
- France
- Russia
- Spain
- Italy
- Rest of Europe
Asia Pacific
- China
- Japan
- India
- South Korea
- Singapore
- Malaysia
- Rest of Asia Pacific
LAMEA
- Brazil
- Argentina
- UAE
- Saudi Arabia
- South Africa
- Nigeria
- Rest of LAMEA
Key Market Players
List of Companies Profiled in the Report:
- Sick AG
- FARO Technologies, Inc
- Teledyne Optech, Inc
- Trimble, Inc
- Hexagon AB (Leica Geosystems AG)
- NV5 Global, Inc
- YellowScans
- SureStar
- GeoDigital
- RIEGL Laser Measurement Systems GmbH
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Table of Contents
Chapter 1. Market Scope & Methodology1.1 Market Definition
1.2 Objectives
1.3 Market Scope
1.4 Segmentation
1.4.1 Global LiDAR Market, by Type
1.4.2 Global LiDAR Market, by Range
1.4.3 Global LiDAR Market, by Service
1.4.4 Global LiDAR Market, by Component
1.4.5 Global LiDAR Market, by Installation Type
1.4.6 Global LiDAR Market, by Application
1.4.7 Global LiDAR Market, by Geography
1.5 Methodology for the research
Chapter 2. Market Overview
2.1 Introduction
2.1.1 Overview
2.1.1.1 Market Composition & Scenario
2.2 Key Factors Impacting the Market
2.2.1 Market Drivers
2.2.2 Market Restraints
Chapter 3. Competition Analysis - Global
3.1 KBV Cardinal Matrix
3.2 Recent Industry Wide Strategic Developments
3.2.1 Partnerships, Collaborations and Agreements
3.2.2 Product Launches and Product Expansions
3.2.3 Acquisition and Mergers
3.3 Top Winning Strategies
3.3.1 Key Leading Strategies: Percentage Distribution (2018-2022)
Chapter 4. Global LiDAR Market by Type
4.1 Global Mechanical Market by Region
4.2 Global Solid-state Market by Region
Chapter 5. Global LiDAR Market by Range
5.1 Global Short Range Market by Region
5.2 Global Medium Range Market by Region
5.3 Global Long Range Market by Region
Chapter 6. Global LiDAR Market by Service
6.1 Global Ground-based surveying Market by Region
6.2 Global GIS Service Market by Region
6.3 Global Asset Management Market by Region
6.4 Global Aerial Surveying Market by Region
6.5 Global Others Market by Region
Chapter 7. Global LiDAR Market by Component
7.1 Global Laser Scanner Market by Region
7.2 Global Navigation & Positioning System Market by Region
7.3 Global Others Market by Region
Chapter 8. Global LiDAR Market by Installation Type
8.1 Global Ground-based Market by Region
8.2 Global Airborne Market by Region
Chapter 9. Global LiDAR Market by Application
9.1 Global Environment Market by Region
9.2 Global Exploration Market by Region
9.3 Global Meteorology Market by Region
9.4 Global Corridor Mapping Market by Region
9.5 Global Engineering Market by Region
9.6 Global Urban Planning Market by Region
9.7 Global ADAS & Driverless Cars Market by Region
9.8 Global Others Market by Region
Chapter 10. Global LiDAR Market by Region
10.1 North America LiDAR Market
10.1.1 North America LiDAR Market by Type
10.1.1.1 North America Mechanical Market by Country
10.1.1.2 North America Solid-state Market by Country
10.1.2 North America LiDAR Market by Range
10.1.2.1 North America Short Range Market by Country
10.1.2.2 North America Medium Range Market by Country
10.1.2.3 North America Long Range Market by Country
10.1.3 North America LiDAR Market by Service
10.1.3.1 North America Ground-based surveying Market by Country
10.1.3.2 North America GIS Service Market by Country
10.1.3.3 North America Asset Management Market by Country
10.1.3.4 North America Aerial Surveying Market by Country
10.1.3.5 North America Others Market by Country
10.1.4 North America LiDAR Market by Component
10.1.4.1 North America Laser Scanner Market by Country
10.1.4.2 North America Navigation & Positioning System Market by Country
10.1.4.3 North America Others Market by Country
10.1.5 North America LiDAR Market by Installation Type
10.1.5.1 North America Ground-based Market by Country
10.1.5.2 North America Airborne Market by Country
10.1.6 North America LiDAR Market by Application
10.1.6.1 North America Environment Market by Country
10.1.6.2 North America Exploration Market by Country
10.1.6.3 North America Meteorology Market by Country
10.1.6.4 North America Corridor Mapping Market by Country
10.1.6.5 North America Engineering Market by Country
10.1.6.6 North America Urban Planning Market by Country
10.1.6.7 North America ADAS & Driverless Cars Market by Country
10.1.6.8 North America Others Market by Country
10.1.7 North America LiDAR Market by Country
10.1.7.1 US LiDAR Market
10.1.7.1.1 US LiDAR Market by Type
10.1.7.1.2 US LiDAR Market by Range
10.1.7.1.3 US LiDAR Market by Service
10.1.7.1.4 US LiDAR Market by Component
10.1.7.1.5 US LiDAR Market by Installation Type
10.1.7.1.6 US LiDAR Market by Application
10.1.7.2 Canada LiDAR Market
10.1.7.2.1 Canada LiDAR Market by Type
10.1.7.2.2 Canada LiDAR Market by Range
10.1.7.2.3 Canada LiDAR Market by Service
10.1.7.2.4 Canada LiDAR Market by Component
10.1.7.2.5 Canada LiDAR Market by Installation Type
10.1.7.2.6 Canada LiDAR Market by Application
10.1.7.3 Mexico LiDAR Market
10.1.7.3.1 Mexico LiDAR Market by Type
10.1.7.3.2 Mexico LiDAR Market by Range
10.1.7.3.3 Mexico LiDAR Market by Service
10.1.7.3.4 Mexico LiDAR Market by Component
10.1.7.3.5 Mexico LiDAR Market by Installation Type
10.1.7.3.6 Mexico LiDAR Market by Application
10.1.7.4 Rest of North America LiDAR Market
10.1.7.4.1 Rest of North America LiDAR Market by Type
10.1.7.4.2 Rest of North America LiDAR Market by Range
10.1.7.4.3 Rest of North America LiDAR Market by Service
10.1.7.4.4 Rest of North America LiDAR Market by Component
10.1.7.4.5 Rest of North America LiDAR Market by Installation Type
10.1.7.4.6 Rest of North America LiDAR Market by Application
10.2 Europe LiDAR Market
10.2.1 Europe LiDAR Market by Type
10.2.1.1 Europe Mechanical Market by Country
10.2.1.2 Europe Solid-state Market by Country
10.2.2 Europe LiDAR Market by Range
10.2.2.1 Europe Short Range Market by Country
10.2.2.2 Europe Medium Range Market by Country
10.2.2.3 Europe Long Range Market by Country
10.2.3 Europe LiDAR Market by Service
10.2.3.1 Europe Ground-based surveying Market by Country
10.2.3.2 Europe GIS Service Market by Country
10.2.3.3 Europe Asset Management Market by Country
10.2.3.4 Europe Aerial Surveying Market by Country
10.2.3.5 Europe Others Market by Country
10.2.4 Europe LiDAR Market by Component
10.2.4.1 Europe Laser Scanner Market by Country
10.2.4.2 Europe Navigation & Positioning System Market by Country
10.2.4.3 Europe Others Market by Country
10.2.5 Europe LiDAR Market by Installation Type
10.2.5.1 Europe Ground-based Market by Country
10.2.5.2 Europe Airborne Market by Country
10.2.6 Europe LiDAR Market by Application
10.2.6.1 Europe Environment Market by Country
10.2.6.2 Europe Exploration Market by Country
10.2.6.3 Europe Meteorology Market by Country
10.2.6.4 Europe Corridor Mapping Market by Country
10.2.6.5 Europe Engineering Market by Country
10.2.6.6 Europe Urban Planning Market by Country
10.2.6.7 Europe ADAS & Driverless Cars Market by Country
10.2.6.8 Europe Others Market by Country
10.2.7 Europe LiDAR Market by Country
10.2.7.1 Germany LiDAR Market
10.2.7.1.1 Germany LiDAR Market by Type
10.2.7.1.2 Germany LiDAR Market by Range
10.2.7.1.3 Germany LiDAR Market by Service
10.2.7.1.4 Germany LiDAR Market by Component
10.2.7.1.5 Germany LiDAR Market by Installation Type
10.2.7.1.6 Germany LiDAR Market by Application
10.2.7.2 UK LiDAR Market
10.2.7.2.1 UK LiDAR Market by Type
10.2.7.2.2 UK LiDAR Market by Range
10.2.7.2.3 UK LiDAR Market by Service
10.2.7.2.4 UK LiDAR Market by Component
10.2.7.2.5 UK LiDAR Market by Installation Type
10.2.7.2.6 UK LiDAR Market by Application
10.2.7.3 France LiDAR Market
10.2.7.3.1 France LiDAR Market by Type
10.2.7.3.2 France LiDAR Market by Range
10.2.7.3.3 France LiDAR Market by Service
10.2.7.3.4 France LiDAR Market by Component
10.2.7.3.5 France LiDAR Market by Installation Type
10.2.7.3.6 France LiDAR Market by Application
10.2.7.4 Russia LiDAR Market
10.2.7.4.1 Russia LiDAR Market by Type
10.2.7.4.2 Russia LiDAR Market by Range
10.2.7.4.3 Russia LiDAR Market by Service
10.2.7.4.4 Russia LiDAR Market by Component
10.2.7.4.5 Russia LiDAR Market by Installation Type
10.2.7.4.6 Russia LiDAR Market by Application
10.2.7.5 Spain LiDAR Market
10.2.7.5.1 Spain LiDAR Market by Type
10.2.7.5.2 Spain LiDAR Market by Range
10.2.7.5.3 Spain LiDAR Market by Service
10.2.7.5.4 Spain LiDAR Market by Component
10.2.7.5.5 Spain LiDAR Market by Installation Type
10.2.7.5.6 Spain LiDAR Market by Application
10.2.7.6 Italy LiDAR Market
10.2.7.6.1 Italy LiDAR Market by Type
10.2.7.6.2 Italy LiDAR Market by Range
10.2.7.6.3 Italy LiDAR Market by Service
10.2.7.6.4 Italy LiDAR Market by Component
10.2.7.6.5 Italy LiDAR Market by Installation Type
10.2.7.6.6 Italy LiDAR Market by Application
10.2.7.7 Rest of Europe LiDAR Market
10.2.7.7.1 Rest of Europe LiDAR Market by Type
10.2.7.7.2 Rest of Europe LiDAR Market by Range
10.2.7.7.3 Rest of Europe LiDAR Market by Service
10.2.7.7.4 Rest of Europe LiDAR Market by Component
10.2.7.7.5 Rest of Europe LiDAR Market by Installation Type
10.2.7.7.6 Rest of Europe LiDAR Market by Application
10.3 Asia Pacific LiDAR Market
10.3.1 Asia Pacific LiDAR Market by Type
10.3.1.1 Asia Pacific Mechanical Market by Country
10.3.1.2 Asia Pacific Solid-state Market by Country
10.3.2 Asia Pacific LiDAR Market by Range
10.3.2.1 Asia Pacific Short Range Market by Country
10.3.2.2 Asia Pacific Medium Range Market by Country
10.3.2.3 Asia Pacific Long Range Market by Country
10.3.3 Asia Pacific LiDAR Market by Service
10.3.3.1 Asia Pacific Ground-based surveying Market by Country
10.3.3.2 Asia Pacific GIS Service Market by Country
10.3.3.3 Asia Pacific Asset Management Market by Country
10.3.3.4 Asia Pacific Aerial Surveying Market by Country
10.3.3.5 Asia Pacific Others Market by Country
10.3.4 Asia Pacific LiDAR Market by Component
10.3.4.1 Asia Pacific Laser Scanner Market by Country
10.3.4.2 Asia Pacific Navigation & Positioning System Market by Country
10.3.4.3 Asia Pacific Others Market by Country
10.3.5 Asia Pacific LiDAR Market by Installation Type
10.3.5.1 Asia Pacific Ground-based Market by Country
10.3.5.2 Asia Pacific Airborne Market by Country
10.3.6 Asia Pacific LiDAR Market by Application
10.3.6.1 Asia Pacific Environment Market by Country
10.3.6.2 Asia Pacific Exploration Market by Country
10.3.6.3 Asia Pacific Meteorology Market by Country
10.3.6.4 Asia Pacific Corridor Mapping Market by Country
10.3.6.5 Asia Pacific Engineering Market by Country
10.3.6.6 Asia Pacific Urban Planning Market by Country
10.3.6.7 Asia Pacific ADAS & Driverless Cars Market by Country
10.3.6.8 Asia Pacific Others Market by Country
10.3.7 Asia Pacific LiDAR Market by Country
10.3.7.1 China LiDAR Market
10.3.7.1.1 China LiDAR Market by Type
10.3.7.1.2 China LiDAR Market by Range
10.3.7.1.3 China LiDAR Market by Service
10.3.7.1.4 China LiDAR Market by Component
10.3.7.1.5 China LiDAR Market by Installation Type
10.3.7.1.6 China LiDAR Market by Application
10.3.7.2 Japan LiDAR Market
10.3.7.2.1 Japan LiDAR Market by Type
10.3.7.2.2 Japan LiDAR Market by Range
10.3.7.2.3 Japan LiDAR Market by Service
10.3.7.2.4 Japan LiDAR Market by Component
10.3.7.2.5 Japan LiDAR Market by Installation Type
10.3.7.2.6 Japan LiDAR Market by Application
10.3.7.3 India LiDAR Market
10.3.7.3.1 India LiDAR Market by Type
10.3.7.3.2 India LiDAR Market by Range
10.3.7.3.3 India LiDAR Market by Service
10.3.7.3.4 India LiDAR Market by Component
10.3.7.3.5 India LiDAR Market by Installation Type
10.3.7.3.6 India LiDAR Market by Application
10.3.7.4 South Korea LiDAR Market
10.3.7.4.1 South Korea LiDAR Market by Type
10.3.7.4.2 South Korea LiDAR Market by Range
10.3.7.4.3 South Korea LiDAR Market by Service
10.3.7.4.4 South Korea LiDAR Market by Component
10.3.7.4.5 South Korea LiDAR Market by Installation Type
10.3.7.4.6 South Korea LiDAR Market by Application
10.3.7.5 Singapore LiDAR Market
10.3.7.5.1 Singapore LiDAR Market by Type
10.3.7.5.2 Singapore LiDAR Market by Range
10.3.7.5.3 Singapore LiDAR Market by Service
10.3.7.5.4 Singapore LiDAR Market by Component
10.3.7.5.5 Singapore LiDAR Market by Installation Type
10.3.7.5.6 Singapore LiDAR Market by Application
10.3.7.6 Malaysia LiDAR Market
10.3.7.6.1 Malaysia LiDAR Market by Type
10.3.7.6.2 Malaysia LiDAR Market by Range
10.3.7.6.3 Malaysia LiDAR Market by Service
10.3.7.6.4 Malaysia LiDAR Market by Component
10.3.7.6.5 Malaysia LiDAR Market by Installation Type
10.3.7.6.6 Malaysia LiDAR Market by Application
10.3.7.7 Rest of Asia Pacific LiDAR Market
10.3.7.7.1 Rest of Asia Pacific LiDAR Market by Type
10.3.7.7.2 Rest of Asia Pacific LiDAR Market by Range
10.3.7.7.3 Rest of Asia Pacific LiDAR Market by Service
10.3.7.7.4 Rest of Asia Pacific LiDAR Market by Component
10.3.7.7.5 Rest of Asia Pacific LiDAR Market by Installation Type
10.3.7.7.6 Rest of Asia Pacific LiDAR Market by Application
10.4 LAMEA LiDAR Market
10.4.1 LAMEA LiDAR Market by Type
10.4.1.1 LAMEA Mechanical Market by Country
10.4.1.2 LAMEA Solid-state Market by Country
10.4.2 LAMEA LiDAR Market by Range
10.4.2.1 LAMEA Short Range Market by Country
10.4.2.2 LAMEA Medium Range Market by Country
10.4.2.3 LAMEA Long Range Market by Country
10.4.3 LAMEA LiDAR Market by Service
10.4.3.1 LAMEA Ground-based surveying Market by Country
10.4.3.2 LAMEA GIS Service Market by Country
10.4.3.3 LAMEA Asset Management Market by Country
10.4.3.4 LAMEA Aerial Surveying Market by Country
10.4.3.5 LAMEA Others Market by Country
10.4.4 LAMEA LiDAR Market by Component
10.4.4.1 LAMEA Laser Scanner Market by Country
10.4.4.2 LAMEA Navigation & Positioning System Market by Country
10.4.4.3 LAMEA Others Market by Country
10.4.5 LAMEA LiDAR Market by Installation Type
10.4.5.1 LAMEA Ground-based Market by Country
10.4.5.2 LAMEA Airborne Market by Country
10.4.6 LAMEA LiDAR Market by Application
10.4.6.1 LAMEA Environment Market by Country
10.4.6.2 LAMEA Exploration Market by Country
10.4.6.3 LAMEA Meteorology Market by Country
10.4.6.4 LAMEA Corridor Mapping Market by Country
10.4.6.5 LAMEA Engineering Market by Country
10.4.6.6 LAMEA Urban Planning Market by Country
10.4.6.7 LAMEA ADAS & Driverless Cars Market by Country
10.4.6.8 LAMEA Others Market by Country
10.4.7 LAMEA LiDAR Market by Country
10.4.7.1 Brazil LiDAR Market
10.4.7.1.1 Brazil LiDAR Market by Type
10.4.7.1.2 Brazil LiDAR Market by Range
10.4.7.1.3 Brazil LiDAR Market by Service
10.4.7.1.4 Brazil LiDAR Market by Component
10.4.7.1.5 Brazil LiDAR Market by Installation Type
10.4.7.1.6 Brazil LiDAR Market by Application
10.4.7.2 Argentina LiDAR Market
10.4.7.2.1 Argentina LiDAR Market by Type
10.4.7.2.2 Argentina LiDAR Market by Range
10.4.7.2.3 Argentina LiDAR Market by Service
10.4.7.2.4 Argentina LiDAR Market by Component
10.4.7.2.5 Argentina LiDAR Market by Installation Type
10.4.7.2.6 Argentina LiDAR Market by Application
10.4.7.3 UAE LiDAR Market
10.4.7.3.1 UAE LiDAR Market by Type
10.4.7.3.2 UAE LiDAR Market by Range
10.4.7.3.3 UAE LiDAR Market by Service
10.4.7.3.4 UAE LiDAR Market by Component
10.4.7.3.5 UAE LiDAR Market by Installation Type
10.4.7.3.6 UAE LiDAR Market by Application
10.4.7.4 Saudi Arabia LiDAR Market
10.4.7.4.1 Saudi Arabia LiDAR Market by Type
10.4.7.4.2 Saudi Arabia LiDAR Market by Range
10.4.7.4.3 Saudi Arabia LiDAR Market by Service
10.4.7.4.4 Saudi Arabia LiDAR Market by Component
10.4.7.4.5 Saudi Arabia LiDAR Market by Installation Type
10.4.7.4.6 Saudi Arabia LiDAR Market by Application
10.4.7.5 South Africa LiDAR Market
10.4.7.5.1 South Africa LiDAR Market by Type
10.4.7.5.2 South Africa LiDAR Market by Range
10.4.7.5.3 South Africa LiDAR Market by Service
10.4.7.5.4 South Africa LiDAR Market by Component
10.4.7.5.5 South Africa LiDAR Market by Installation Type
10.4.7.5.6 South Africa LiDAR Market by Application
10.4.7.6 Nigeria LiDAR Market
10.4.7.6.1 Nigeria LiDAR Market by Type
10.4.7.6.2 Nigeria LiDAR Market by Range
10.4.7.6.3 Nigeria LiDAR Market by Service
10.4.7.6.4 Nigeria LiDAR Market by Component
10.4.7.6.5 Nigeria LiDAR Market by Installation Type
10.4.7.6.6 Nigeria LiDAR Market by Application
10.4.7.7 Rest of LAMEA LiDAR Market
10.4.7.7.1 Rest of LAMEA LiDAR Market by Type
10.4.7.7.2 Rest of LAMEA LiDAR Market by Range
10.4.7.7.3 Rest of LAMEA LiDAR Market by Service
10.4.7.7.4 Rest of LAMEA LiDAR Market by Component
10.4.7.7.5 Rest of LAMEA LiDAR Market by Installation Type
10.4.7.7.6 Rest of LAMEA LiDAR Market by Application
Chapter 11. Company Profiles
11.1 Sick AG
11.1.1 Company Overview
11.1.2 Financial Analysis
11.1.3 Segmental and Regional Analysis
11.1.4 Research & Development Expense
11.1.5 Recent strategies and developments:
11.1.5.1 Partnerships, Collaborations, and Agreements:
11.1.5.2 Product Launches and Product Expansions:
11.1.6 SWOT Analysis
11.2 FARO Technologies, Inc.
11.2.1 Company Overview
11.2.2 Financial Analysis
11.2.3 Regional Analysis
11.2.4 Research & Development Expense
11.2.5 Recent strategies and developments:
11.2.5.1 Acquisition and Mergers:
11.3 Teledyne Optech, Inc. (Teledyne Technologies Incorporated)
11.3.1 Company Overview
11.3.2 Financial Analysis
11.3.3 Segmental and Regional Analysis
11.3.4 Recent strategies and developments:
11.3.4.1 Product Launches and Product Expansions:
11.4 Trimble, Inc.
11.4.1 Company Overview
11.4.2 Financial Analysis
11.4.3 Segmental and Regional Analysis
11.4.4 Research & Development Expense
11.4.4.1 Product Launches and Product Expansions:
11.5 Hexagon AB (Leica Geosystems AG)
11.5.1 Company Overview
11.5.2 Financial Analysis
11.5.3 Regional & Segmental Analysis
11.5.4 Research & Development Expenses
11.5.5 Recent strategies and developments:
11.5.5.1 Partnerships, Collaborations, and Agreements:
11.5.5.2 Product Launches and Product Expansions:
11.6 NV5 Global, Inc.
11.6.1 Company Overview
11.6.2 Financial Analysis
11.6.3 Segmental and Regional Analysis
11.6.4 Recent strategies and developments:
11.6.4.1 Acquisition and Mergers:
11.7 YellowScans
11.7.1 Company Overview
11.7.2 Recent strategies and developments:
11.7.2.1 Partnerships, Collaborations, and Agreements:
11.8 SureStar
11.8.1 Company Overview
11.8.2 Recent strategies and developments:
11.8.2.1 Partnerships, Collaborations, and Agreements:
11.9 GeoDigital
11.9.1 Company Overview
11.10. RIEGL Laser Measurement Systems GmbH
11.10.1 Company Overview
Companies Mentioned
- Sick AG
- FARO Technologies, Inc.
- Teledyne Optech, Inc.
- Trimble, Inc.
- Hexagon AB (Leica Geosystems AG)
- NV5 Global, Inc.
- YellowScans
- SureStar
- GeoDigital
- RIEGL Laser Measurement Systems GmbH
Methodology
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Table Information
| Report Attribute | Details |
|---|---|
| No. of Pages | 361 |
| Published | January 2023 |
| Forecast Period | 2021 - 2028 |
| Estimated Market Value ( USD | $ 1106.7 Million |
| Forecasted Market Value ( USD | $ 3545.4 Million |
| Compound Annual Growth Rate | 18.4% |
| Regions Covered | Global |
| No. of Companies Mentioned | 10 |
