LiDAR in Construction Market Size - By Product (UAV, Airborne, Terrestrial), By Type (Solid-state, Mechanical), By Application (Surveying, Mapping, Elevation Modelling, Ecological Analysis), End-user & Forecast, 2022 - 2030

Report Content

Chapter 1   Methodology & Scope

1.1    Scope & definitions

1.2    Methodology and forecast parameters

1.3    COVID-19 impact

1.3.1    North America

1.3.2    Europe

1.3.3    Asia Pacific

1.3.4    Latin America

1.3.5    MEA

1.4    Regional factors

1.4.1    North America

1.4.2    Europe

1.4.3    Asia Pacific

1.4.4    Latin America

1.4.5    MEA

1.5    Data Sources

1.5.1    Secondary

1.5.2    Primary

1.6    Industry glossary

Chapter 2   Executive Summary

2.1    LiDAR in construction industry 360º synopsis, 2018 – 2030

2.2    Business trends

2.2.1    Total Addressable Market (TAM), 2023-30

2.3    Regional trends

2.4    Product trends

2.5    Type trends

2.6    Application trends

2.7    End-user trends

Chapter 3   LiDAR in Construction Industry Insights

3.1    Introduction

3.2    Impact of COVID-19 outbreak

3.2.1    North America

3.2.2    Europe

3.2.3    Asia Pacific

3.2.4    Latin America

3.2.5    MEA

3.3    Impact of Russia-Ukraine conflict

3.4    LiDAR in construction industry ecosystem analysis

3.4.1    LiDAR raw material suppliers

3.4.2    Peripheral player

3.4.3    Technology provider

3.4.4    System integrator

3.4.5    Service providers

3.4.6    Profit margin analysis

3.4.7    Vendor matrix

3.5    LiDAR evolution

3.6    Technology & innovation landscape

3.6.1    Single photon or Geiger mode systems

3.6.2    Multi Pulse-in Air

3.7    Benefits of using LiDAR across the construction industry

3.7.1    Prediction of accurate project cost

3.7.2    Accessing the sustainability of project

3.7.3    Digital Elevation Model (DEM)

3.7.4    Identifying the regulations

3.8    Use cases

3.8.1    Land surveying

3.8.2    Mining

3.8.3    Forestry and farming

3.9    Investment portfolio

3.10    News

3.10.1    North America

3.10.2    Europe

3.10.3    Asia Pacific

3.10.4    Latin America

3.10.5    MEA

3.11    Patent analysis

3.12    Regulatory landscape

3.12.1    North America.

3.12.1.1    U.S. Federal Aviation Authority (FAA)

3.12.1.2    U.S. environmental protection agency: Construction Sector (NAICS 23)

3.12.2    Europe

3.12.2.1    CE Marking regulation

3.12.2.2    Infrastructure Mapping Federal Network Agency and EU regulatory forum

3.12.2.3    EU Directive on Public Procurement (Directive 2014/24/EU)

3.12.3    Asia Pacific

3.12.3.1    National Data Sharing and Accessibility Policy, 2012 (NDSAP-2012)

3.12.3.2    Building control act: Singapore

3.12.3.3    Japan Construction Information Center Foundation (JCICF)

3.12.4    Latin America

3.12.4.1    The Brazilian National Aviation Agency (ANAC)

3.12.4.2    Mexico Commercial Drone Regulatoins

3.12.4.3    Uniform Building Code (UBC-94)-Chile

3.12.5    MEA

3.12.5.1    The General Civil Aviation Authority (GCAA)Industry impact forces

3.13    Industry impact forces

3.13.1    Growth drivers

3.13.1.1    Increasing demand for mapping

3.13.1.2    Growing demand for 3D imaging

3.13.1.3    Increasing adoption among environment & government applications

3.13.1.4    Advent of Building Information Modeling (BIM) technology

3.13.2    Industry pitfalls & challenges

3.13.2.1    Software development gap

3.13.2.2    Lack of standardization

3.14    Growth potential analysis

3.15    Porter’s analysis

3.15.1    Bargaining power of suppliers

3.15.2    Bargaining power of buyers

3.15.3    Threat of new entratnt

3.15.4    Threat of substitute

3.16    PESTEL analysis

3.16.1    Political

3.16.2    Economical

3.16.3    Social

3.16.4    Technological

3.16.5    Legal

3.16.6    Environmental

Chapter 4   Competitive Landscape

4.1    Introduction

4.2    Company market share, 2021

4.3    Competive analysis of key market players, 2021

4.3.1    Chart key

4.3.2    FARO Technologies, Inc.

4.3.3    Hexagon AB (Leica Geosystems AG)

4.3.4    Trimble Inc.

4.3.5    Topcon Positioning Systems, Inc. (Topcon Corporation)

4.3.6    RIEGL Laser Measurement Systems GmbH

4.4    Competive analysis of innovative market players, 2021

4.4.1    Velodyne Lidar, Inc.

4.4.2    Teledyne Technologies, Inc. (Teledyne Geospatial)

4.4.3    Ouster, Inc.

4.4.4    NV5 Global, Inc. (Quantum Spatial)

4.5    Vendor adoption matrix

4.6    Strategic outlook matrix

Chapter 5   LiDAR in Construction Market, By Product

5.1    Key trends, by product

5.2    Airborne

5.2.1    Market estimates and forecast, 2018 – 2030

5.2.2    Topographic

5.2.2.1   Market estimates and forecast, 2018 – 2030

5.2.3    Bathymetric

5.2.3.1   Market estimates and forecast, 2018 – 2030

5.3    UAV

5.3.1    Market estimates and forecast, 2018 – 2030

5.4    Terrestrial

5.4.1    Market estimates and forecast, 2018 – 2030

5.4.2    Mobile

5.4.2.1   Market estimates and forecast, 2018 – 2030

5.4.3    Static

5.4.3.1   Market estimates and forecast, 2018 – 2030

Chapter 6   LiDAR in Construction Market, By Type

6.1    Key trends, by type

6.2    Mechanical

6.2.1    Market estimates and forecast, 2018 – 2030

6.3    Solid-state

6.3.1    Market estimates and forecast, 2018 – 2030

Chapter 7   LiDAR in Construction Market, By Application

7.1    Key trends, by application

7.2    Surveying

7.2.1    Market estimates and forecast, 2018 – 2030

7.3    Mapping

7.3.1    Market estimates and forecast, 2018 – 2030

7.4    Elevation modelling

7.4.1    Market estimates and forecast, 2018 – 2030

7.5    Ecological analysis

7.5.1    Market estimates and forecast, 2018 – 2030

7.6    Others

7.6.1    Market estimates and forecast, 2018 – 2030

Chapter 8   LiDAR in Construction Market, By End-user

8.1    Key trends, by end-user

8.2    Government

8.2.1    Market estimates and forecast, 2018 – 2030

8.3    Private

8.3.1    Market estimates and forecast, 2018 – 2030

Chapter 9   LiDAR in Construction Market, By Region

9.1    Key trends by region

9.2    North America

9.2.1    Market estimates and forecast, 2018 – 2030

9.2.2    Market estimates and forecast, by product, 2018 – 2030

9.2.2.1   Market estimates and forecast, by airborne, 2018 – 2030

9.2.2.2   Market estimates and forecast, by terrestrial, 2018 – 2030

9.2.3    Market estimates and forecast, by type, 2018 – 2030

9.2.4    Market estimates and forecast, by application, 2018 – 2030

9.2.5    Market estimates and forecast, by end-user, 2018 – 2030

9.2.6    U.S.

9.2.6.1   Market estimates and forecast, 2018 – 2030

9.2.6.2   Market estimates and forecast, by product, 2018 – 2030

9.2.6.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.2.6.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.2.6.3   Market estimates and forecast, by type, 2018 – 2030

9.2.6.4   Market estimates and forecast, by application, 2018 – 2030

9.2.6.5   Market estimates and forecast, by end-user, 2018 – 2030

9.2.7    Canada

9.2.7.1   Market estimates and forecast, 2018 – 2030

9.2.7.2   Market estimates and forecast, by product, 2018 – 2030

9.2.7.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.2.7.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.2.7.3   Market estimates and forecast, by type, 2018 – 2030

9.2.7.4   Market estimates and forecast, by application, 2018 – 2030

9.2.7.5   Market estimates and forecast, by end-user, 2018 – 2030

9.3    Europe

9.3.1    Market estimates and forecast, 2018 – 2030

9.3.2    Market estimates and forecast, by product, 2018 – 2030

9.3.2.1   Market estimates and forecast, by airborne, 2018 – 2030

9.3.2.2   Market estimates and forecast, by terrestrial, 2018 – 2030

9.3.3    Market estimates and forecast, by type, 2018 – 2030

9.3.4    Market estimates and forecast, by application, 2018 – 2030

9.3.5    Market estimates and forecast, by end-user, 2018 – 2030

9.3.6    UK

9.3.6.1   Market estimates and forecast, 2018 – 2030

9.3.6.2   Market estimates and forecast, by product, 2018 – 2030

9.3.6.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.3.6.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.3.6.3   Market estimates and forecast, by type, 2018 – 2030

9.3.6.4   Market estimates and forecast, by application, 2018 – 2030

9.3.6.5   Market estimates and forecast, by end-user, 2018 – 2030

9.3.7    Germany

9.3.7.1   Market estimates and forecast, 2018 – 2030

9.3.7.2   Market estimates and forecast, by product, 2018 – 2030

9.3.7.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.3.7.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.3.7.3   Market estimates and forecast, by type, 2018 – 2030

9.3.7.4   Market estimates and forecast, by application, 2018 – 2030

9.3.7.5   Market estimates and forecast, by end-user, 2018 – 2030

9.3.8    France

9.3.8.1   Market estimates and forecast, 2018 – 2030

9.3.8.2   Market estimates and forecast, by product, 2018 – 2030

9.3.8.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.3.8.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.3.8.3   Market estimates and forecast, by type, 2018 – 2030

9.3.8.4   Market estimates and forecast, by application, 2018 – 2030

9.3.8.5   Market estimates and forecast, by end-user, 2018 – 2030

9.3.9    Italy

9.3.9.1   Market estimates and forecast, 2018 – 2030

9.3.9.2   Market estimates and forecast, by product, 2018 – 2030

9.3.9.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.3.9.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.3.9.3   Market estimates and forecast, by type, 2018 – 2030

9.3.9.4   Market estimates and forecast, by application, 2018 – 2030

9.3.9.5   Market estimates and forecast, by end-user, 2018 – 2030

9.3.10    Spain

9.3.10.1    Market estimates and forecast, 2018 – 2030

9.3.10.2    Market estimates and forecast, by product, 2018 – 2030

9.3.10.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.3.10.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.3.10.3    Market estimates and forecast, by type, 2018 – 2030

9.3.10.4    Market estimates and forecast, by application, 2018 – 2030

9.3.10.5    Market estimates and forecast, by end-user, 2018 – 2030

9.3.11    Netherlands

9.3.11.1    Market estimates and forecast, 2018 – 2030

9.3.11.2    Market estimates and forecast, by product, 2018 – 2030

9.3.11.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.3.11.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.3.11.3    Market estimates and forecast, by type, 2018 – 2030

9.3.11.4    Market estimates and forecast, by application, 2018 – 2030

9.3.11.5    Market estimates and forecast, by end-user, 2018 – 2030

9.4    Asia Pacific

9.4.1    Market estimates and forecast, 2018 – 2030

9.4.2    Market estimates and forecast, by product, 2018 – 2030

9.4.2.1   Market estimates and forecast, by airborne, 2018 – 2030

9.4.2.2   Market estimates and forecast, by terrestrial, 2018 – 2030

9.4.3    Market estimates and forecast, by type, 2018 – 2030

9.4.4    Market estimates and forecast, by application, 2018 – 2030

9.4.5    Market estimates and forecast, by end-user, 2018 – 2030

9.4.6    China

9.4.6.1   Market estimates and forecast, 2018 – 2030

9.4.6.2   Market estimates and forecast, by product, 2018 – 2030

9.4.6.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.4.6.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.4.6.3   Market estimates and forecast, by type, 2018 – 2030

9.4.6.4   Market estimates and forecast, by application, 2018 – 2030

9.4.6.5   Market estimates and forecast, by end-user, 2018 – 2030

9.4.7    India

9.4.7.1   Market estimates and forecast, 2018 – 2030

9.4.7.2   Market estimates and forecast, by product, 2018 – 2030

9.4.7.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.4.7.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.4.7.3   Market estimates and forecast, by type, 2018 – 2030

9.4.7.4   Market estimates and forecast, by application, 2018 – 2030

9.4.7.5   Market estimates and forecast, by end-user, 2018 – 2030

9.4.8    Japan

9.4.8.1   Market estimates and forecast, 2018 – 2030

9.4.8.2   Market estimates and forecast, by product, 2018 – 2030

9.4.8.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.4.8.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.4.8.3   Market estimates and forecast, by type, 2018 – 2030

9.4.8.4   Market estimates and forecast, by application, 2018 – 2030

9.4.8.5   Market estimates and forecast, by end-user, 2018 – 2030

9.4.9    South Korea

9.4.9.1   Market estimates and forecast, 2018 – 2030

9.4.9.2   Market estimates and forecast, by product, 2018 – 2030

9.4.9.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.4.9.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.4.9.3   Market estimates and forecast, by type, 2018 – 2030

9.4.9.4   Market estimates and forecast, by application, 2018 – 2030

9.4.9.5   Market estimates and forecast, by end-user, 2018 – 2030

9.4.10    Australia

9.4.10.1    Market estimates and forecast, 2018 – 2030

9.4.10.2    Market estimates and forecast, by product, 2018 – 2030

9.4.10.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.4.10.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.4.10.3    Market estimates and forecast, by type, 2018 – 2030

9.4.10.4    Market estimates and forecast, by application, 2018 – 2030

9.4.10.5    Market estimates and forecast, by end-user, 2018 – 2030

9.5    Latin America

9.5.1    Market estimates and forecast, 2018 – 2030

9.5.2    Market estimates and forecast, by product, 2018 – 2030

9.5.2.1   Market estimates and forecast, by airborne, 2018 – 2030

9.5.2.2   Market estimates and forecast, by terrestrial, 2018 – 2030

9.5.3    Market estimates and forecast, by type, 2018 – 2030

9.5.4    Market estimates and forecast, by application, 2018 – 2030

9.5.5    Market estimates and forecast, by end-user, 2018 – 2030

9.5.6    Brazil

9.5.6.1   Market estimates and forecast, 2018 – 2030

9.5.6.2   Market estimates and forecast, by product, 2018 – 2030

9.5.6.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.5.6.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.5.6.3   Market estimates and forecast, by type, 2018 – 2030

9.5.6.4   Market estimates and forecast, by application, 2018 – 2030

9.5.6.5   Market estimates and forecast, by end-user, 2018 – 2030

9.5.7    Mexico

9.5.7.1   Market estimates and forecast, 2018 – 2030

9.5.7.2   Market estimates and forecast, by product, 2018 – 2030

9.5.7.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.5.7.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.5.7.3   Market estimates and forecast, by type, 2018 – 2030

9.5.7.4   Market estimates and forecast, by application, 2018 – 2030

9.5.7.5   Market estimates and forecast, by end-user, 2018 – 2030

9.5.8    Argentina

9.5.8.1   Market estimates and forecast, 2018 – 2030

9.5.8.2   Market estimates and forecast, by product, 2018 – 2030

9.5.8.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.5.8.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.5.8.3   Market estimates and forecast, by type, 2018 – 2030

9.5.8.4   Market estimates and forecast, by application, 2018 – 2030

9.5.8.5   Market estimates and forecast, by end-user, 2018 – 2030

9.6    MEA

9.6.1    Market estimates and forecast, 2018 – 2030

9.6.2    Market estimates and forecast, by product, 2018 – 2030

9.6.2.1   Market estimates and forecast, by airborne, 2018 – 2030

9.6.2.2   Market estimates and forecast, by terrestrial, 2018 – 2030

9.6.3    Market estimates and forecast, by type, 2018 – 2030

9.6.4    Market estimates and forecast, by application, 2018 – 2030

9.6.5    Market estimates and forecast, by end-user, 2018 – 2030

9.6.6    Saudi Arabia

9.6.6.1   Market estimates and forecast, 2018 – 2030

9.6.6.2   Market estimates and forecast, by product, 2018 – 2030

9.6.6.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.6.6.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.6.6.3   Market estimates and forecast, by type, 2018 – 2030

9.6.6.4   Market estimates and forecast, by application, 2018 – 2030

9.6.6.5   Market estimates and forecast, by end-user, 2018 – 2030

9.6.7    UAE

9.6.7.1   Market estimates and forecast, 2018 – 2030

9.6.7.2   Market estimates and forecast, by product, 2018 – 2030

9.6.7.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.6.7.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.6.7.3   Market estimates and forecast, by type, 2018 – 2030

9.6.7.4   Market estimates and forecast, by application, 2018 – 2030

9.6.7.5   Market estimates and forecast, by end-user, 2018 – 2030

9.6.8    South Africa

9.6.8.1   Market estimates and forecast, 2018 – 2030

9.6.8.2   Market estimates and forecast, by product, 2018 – 2030

9.6.8.2.1    Market estimates and forecast, by airborne, 2018 – 2030

9.6.8.2.2    Market estimates and forecast, by terrestrial, 2018 – 2030

9.6.8.3   Market estimates and forecast, by type, 2018 – 2030

9.6.8.4   Market estimates and forecast, by application, 2018 – 2030

9.6.8.5   Market estimates and forecast, by end-user, 2018 – 2030

Chapter 10   Company Profiles

10.1    Beijing SureStar Technology Co. Ltd.

10.1.1    Business Overview

10.1.2    Financial Data

10.1.3    Product Landscape

10.1.4    Go-to-market strategy

10.1.5    SWOT Analysis

10.2    Cepton

10.2.1    Business Overview

10.2.2    Financial Data

10.2.3    Product Landscape

10.2.4    Go-to-market strategy

10.2.5    SWOT Analysis

10.3    Continental AG

10.3.1    Business Overview

10.3.2    Financial Data

10.3.3    Product Landscape

10.3.4    Go-to-market strategy

10.3.5    SWOT Analysis

10.4    Faro Technologies

10.4.1    Business Overview

10.4.2    Financial Data

10.4.3    Product Landscape

10.4.4    Go-to-market strategy

10.4.5    SWOT Analysis

10.5    Firmatek

10.5.1    Business Overview

10.5.2    Financial Data

10.5.3    Product Landscape

10.5.4    Go-to-market strategy

10.5.5    SWOT Analysis

10.6    Genesys International Corporation Limited

10.6.1    Business Overview

10.6.2    Financial Data

10.6.3    Product Landscape

10.6.4    Go-to-market strategy

10.6.5    SWOT Analysis

10.7    Geokno

10.7.1    Business Overview

10.7.2    Financial Data

10.7.3    Product Landscape

10.7.4    Go-to-market strategy

10.7.5    SWOT Analysis

10.8    GeoSLAM

10.8.1    Business Overview

10.8.2    Financial Data

10.8.3    Product Landscape

10.8.4    Go-to-market strategy

10.8.5    SWOT Analysis

10.9    Hexagon

10.9.1    Business Overview

10.9.2    Financial Data

10.9.3    Product Landscape

10.9.4    Go-to-market strategy

10.9.5    SWOT Analysis

10.10    NV5 Inc. (Quantum Spatial)

10.10.1    Business Overview

10.10.2    Financial Data

10.10.3    Product Landscape

10.10.4    Go-to-market strategy

10.10.5    SWOT Analysis

10.11    Outster

10.11.1    Business Overview

10.11.2    Financial Data

10.11.3    Product Landscape

10.11.4    Go-to-market strategy

10.11.5    SWOT Analysis

10.12    Phoenix LiDAR Systems

10.12.1    Business Overview

10.12.2    Financial Data

10.12.3    Product Landscape

10.12.4    Go-to-market strategy

10.12.5    SWOT Analysis

10.13    Quanergy Systems Inc.

10.13.1    Business Overview

10.13.2    Financial Data

10.13.3    Product Landscape

10.13.4    Go-to-market strategy

10.13.5    SWOT Analysis

10.14    Redtail LiDAR

10.14.1    Business Overview

10.14.2    Financial Data

10.14.3    Product Landscape

10.14.4    Go-to-market strategy

10.14.5    SWOT Analysis

10.15    Riegl

10.15.1    Business Overview

10.15.2    Financial Data

10.15.3    Product Landscape

10.15.4    Go-to-market strategy

10.15.5    SWOT Analysis

10.16    Sick AG

10.16.1    Business Overview

10.16.2    Financial Data

10.16.3    Product Landscape

10.16.4    Go-to-market strategy

10.16.5    SWOT Analysis

10.17    TELEDYNE TECHNOLOGIES

10.17.1    Business Overview

10.17.2    Financial Data

10.17.3    Product Landscape

10.17.4    Go-to-market strategy

10.17.5    SWOT Analysis

10.18    Topcon Positioning System

10.18.1    Business Overview

10.18.2    Financial Data

10.18.3    Product Landscape

10.18.4    Go-to-market strategy

10.18.5    SWOT Analysis

10.19    Trimble Inc.

10.19.1    Business Overview

10.19.2    Financial Data

10.19.3    Product Landscape

10.19.4    Go-to-market strategy

10.19.5    SWOT Analysis

10.20    Velodyne

10.20.1    Business Overview

10.20.2    Financial Data

10.20.3    Product Landscape

10.20.4    Go-to-market strategy

10.20.5    SWOT Analysis

10.21    Yellow Scan

10.21.1    Business Overview

10.21.2    Financial Data

10.21.3    Product Landscape

10.21.4    Go-to-market strategy

10.21.5    SWOT Analysis