Introduction of Light Detection and Ranging (LIDAR) systems have made the examination, detection and mapping of objects easier than conventional methods. Use of laser light provides accurate and precise data points in short time. LIDAR systems are used over conventional surveying methods due to their ability to provide highly accurate data and 3D images in a shorter time. Improved automated processing ability of LIDAR systems in terms of image resolutions and data processing capabilities over other technologies are the major factors that are presently driving the global LIDAR market. Research Beam Model: Research Beam Product ID: 21107 5370 USD New
Global LIDAR Market (Product type, Applications, Component, ENd-User and Geography) - Size, Share, Global Trends, Company Profiles, Demand, Insights, Segmentation and Forecast, 2013 - 2020
 
 

Global LIDAR Market (Product type, Applications, Component, ENd-User and Geography) - Size, Share, Global Trends, Company Profiles, Demand, Insights, Segmentation and Forecast, 2013 - 2020

  • Category : Semiconductor and Electronics
  • Published On : February   2015
  • Pages : 128
  • Publisher : Allied Market Research
 
 
 

Introduction of Light Detection and Ranging (LIDAR) systems have made the examination, detection and mapping of objects easier than conventional methods. Use of laser light provides accurate and precise data points in short time. LIDAR systems are used over conventional surveying methods due to their ability to provide highly accurate data and 3D images in a shorter time. Improved automated processing ability of LIDAR systems in terms of image resolutions and data processing capabilities over other technologies are the major factors that are presently driving the global LIDAR market. Other factors that are supplementing the growth of LIDAR market as a whole are rising demand of 3D imaging technology across various application areas, and the increasing adoption of aerial LIDAR systems to explore and detect places, historic details, etc. On the other hand, low awareness about the benefits of LiDAR systems and the use of expensive components in LiDAR systems viz., laser scanner, navigation system, high-resolution 3D cameras, etc. collectively increases the cost of LiDAR systems. These factors are restraining adoption of LIDAR technology and restricting the growth of the market. 

Players in the market are adopting product launch and collaborations as their key developmental strategies to meet the customer demands and increase their customer base. Partnerships would help the players to set a common technology platform and share the technological requirement. This would ultimately help the market players to enhance their product portfolio through less investment and increase their market share across various regions. The cost cutting in operations would enable the manufacturers to invest into advertisement activities and increase the awareness about the LIDAR systems across diverse industry verticals and geographies. Recently, in October 2014, Phoenix Aerial Systems collaborated with Pulse Aerospace to launch a single-rotor unmanned aerial system for Ranger LIDAR system— The Vapor 55TM. Eventually, the rise in the use of LIDAR systems across various industries would supplement the growth of global LIDAR market. 

 The global LIDAR market is segmented based on type of LIDAR systems, components used, their application, end user sectors and geography. Static or terrestrial, aerial, mobile and short range are the various types of LIDAR systems elaborated in the report. The components of LIDAR systems discussed are laser scanner, inertial navigation system, camera, GPS receiver and micro-electro-mechanical system. The report also includes corridor mapping, seismology, and exploration and detection purpose as some of the major application of LIDAR systems. End-user segment consists of LIDAR systems that are used across various industry verticals viz., defense and aerospace, civil engineering, archaeology, forestry and agriculture, mining industry and transportation. A study with respect to region is conducted to perform in-depth analysis if LIDAR technology across various geographies. The regions examined are North America, Europe, Asia-Pacific and LAMEA.

KEY BENEFITS

  • The study highlights the global LIDAR  market with current market situation and forecast the adoption of LIDAR  technology across varied industry verticals to look for the prominent investment pockets in the market 
  • Market analysis unveils the dominant aspects viz., improved automated processing of data  in LIDAR  systems, performance of LIDAR  systems as compared to other technologies, rising demand of 3D imaging, which drives the global LIDAR  market
  • Trends of the global market are outlined to determine the overall attractiveness and single out market trends to gain a stronger foothold in the market 
  • Microscopic analysis of segments is conducted to gauge the potential of the market. The segments highlight the major favorable conditions for the growth of global LIDAR  market
  • Porters five force’s model helps in analyzing the potential of buyers & suppliers with a competitive sketch of the market, which help market players in making better decisions
  • The value chain analysis of the industry provides a clear view of key intermediaries involved and elaborates their roles and value addition at every stage in the chain

KEY MARKET SEGMENTS
 
MARKET BY PRODUCT TYPE

  • Terrestrial / Static 
  • Aerial
  • Mobile
  • Short-range

MARKET BY APPLICATION

  • Corridor mapping
  • Seismology
  • Exploration and detection
  • Others

MARKET BY COMPONENTS

  • Laser
  • Inertial navigation system
  • Camera
  • Gps/Gnss receiver
  • Micro Electro Mechanical System (MEMS)

MARKET BY END-USER

  • Defense and aerospace
  • Civil Engineering
  • Archaeology
  • Forestry and Agriculture
  • Mining Industry
  • Transportation

MARKET BY GEOGRAPHY

  • North America
  • Europe
  • Asia-Pacific
  • LAMEA

TABLE OF CONTENTS

CHAPTER 1 INTRODUCTION

1.1 Report description
1.2 Key benefits
1.3 Key market segment
1.4 Research methodology

1.4.1 Secondary research
1.4.2 Primary research
1.4.3 Analyst tools and models

CHAPTER 2 EXECUTIVE SUMMARY

2.1 CXO perspectives
2.2 Market beyond: what to expect by 2025

2.2.1 Base case scenario
2.2.2 Optimistic scenario
2.2.3 Critical scenario

CHAPTER 3 MARKET OVERVIEW

3.1 Market definition and scope
3.2 Key findings

3.2.1 Top impacting factors
3.2.2 Top investment pockets
3.2.3 Top winning strategies

3.3 Value chain analysis
3.4 Porter’s five forces analysis

3.4.1 Lower threat of new entrants
3.4.2 Higher threat of substitutes
3.4.3 Higher bargaining power of supplier
3.4.4 Higher bargaining power of buyers
3.4.5 Moderate industry rivalry

3.5 Case studies
3.6 Market dynamics

3.6.1 Drivers

3.6.1.1 Automated processing in LiDAR systems
3.6.1.2 Better performance than other technologies
3.6.1.3 Rising demand for 3d imaging
3.6.1.4 Rise in demand of aerial LiDARs

3.6.2 Restraints

3.6.2.1 Expensive instruments
3.6.2.2 Lack of awareness

3.6.3 Opportunities

3.6.3.1 Newer applications needing LiDAR captured data

CHAPTER 4 GLOBAL LIGHT DETECTION AND RANGING MAKRET BY PRODUCT TYPE

4.1 Terrestrial

4.1.1 Key market trends
4.1.2 Key growth factors and opportunities
4.1.3 Competitive scenario
4.1.4 Market size and forecast

4.2 Aerial

4.2.1 Key market trends
4.2.2 Key growth factors and opportunities
4.2.3 Competitive scenario
4.2.4 Market size and forecast

4.3 Mobile

4.3.1 Key market trends
4.3.2 Key growth factors and opportunities
4.3.3 Competitive scenario
4.3.4 Market size and forecast

4.4 Short-range

4.4.1 Key market trends
4.4.2 Key growth factors and opportunities
4.4.3 Competitive scenario
4.4.4 Market size and forecast

CHAPTER 5 GLOBAL LIDAR MARKET BY COMPONENTS

5.1 Lasers

5.1.1 Key market trends
5.1.2 Competitive scenario
5.1.3 Key growth factors & opportunities
5.1.4 Market size and forecast

5.2 Inertial navigation system

5.2.1 Key market trends
5.2.2 Competitive scenario
5.2.3 Key growth factors and opportunities
5.2.4 Market size and forecast

 

5.3 Camera

5.3.1 Key market trends
5.3.2 Competitive scenario
5.3.3 Key growth factors and opportunities
5.3.1 Market size and forecast

5.4 GPS/GNSS receiver

5.4.1 Key market trends
5.4.2 Competitive scenario
5.4.3 Key growth factors and opportunities
5.4.4 Market size and forecast

5.5 Micro-electro mechanical system (MEMS)

5.5.1 Key market trends
5.5.2 Competitive scenario
5.5.3 Key growth factors and opportunities
5.5.4 Market size and forecast

CHAPTER 6 GLOBAL LIDAR MAREKET, BY APPLICATION

6.1 Corridor mapping

6.1.1 Market size and forecast

6.2 Seismology

6.2.1 Market size and forecast

6.3 Exploration and detection

6.3.1 Market size and forecast

6.4 Others

6.4.1 Market size and forecast

CHAPTER 7 GLOBAL LIDAR MARKET, BY END USER

7.1 Defense and aerospace

7.1.1 Market size and forecast

7.2 Civil engineering

7.2.1 Market size and forecast

7.3 Archaeology

7.3.1 Market size and forecast

7.4 Forestry and agriculture

7.4.1 Market size and forecast

7.5 Mining industry

7.5.1 Market size and forecast

7.6 Transportation

7.6.1 Market size and forecast

CHAPTER 8 GLOBAL LIDAR MARKET BY GEOGRAPHY

8.1 North America

8.1.1 Key market trends
8.1.2 Competitive scenario
8.1.3 Key growth factors and opportunities
8.1.4 Market size and forecast

8.2 Europe

8.2.1 Key market trends
8.2.2 Competitive Scenario
8.2.3 Key growth factors and opportunities
8.2.4 Market size and forecast

8.3 Asia-Pacific

8.3.1 Key market trends
8.3.2 Competitive scenario
8.3.3 Key growth factors and opportunities
8.3.4 Market size and forecast

8.4 LAMEA

8.4.1 Key market trends
8.4.2 Competitive scenario
8.4.3 Key growth factors and opportunities
8.4.4 Market size and forecast

CHAPTER 9 COMPANY PROFILE

9.1 Airborne Hydrography Ab (Hexagon)

9.1.1 Company overview
9.1.2 Company snapshot
9.1.3 Business performance
9.1.4 Key strategies and developments
9.1.5 SWOT analysis of Airborne Hydrography Ab

9.2 LEOSPHERE

9.2.1 Company overview
9.2.2 Company snapshot
9.2.3 Key strategies and developments
9.2.4 SWOT analysis of Leosphere

9.3 Faro Technology

9.3.1 Company overview
9.3.2 Company snapshot
9.3.3 Business performance
9.3.4 Key strategies and developments
9.3.5 SWOT analysis of Faro Technologies Inc.

9.4 Leica Geosystems (Hexagon)

9.4.1 Company overview
9.4.2 Company snapshot
9.4.3 Business performance
9.4.4 Key strategies and developments
9.4.5 SWOT analysis of Leica Geosystems Inc. (Hexagon)

9.5 3D Laser Mapping.

9.5.1 Company overview
9.5.2 Company snapshot
9.5.3 SWOT analysis of 3D Laser Mapping Inc.

9.6 Firmatek

9.6.1 Company overview
9.6.2 Company snapshot
9.6.3 SWOT analysis of Firmatek

9.7 RIEGL Laser Measurement Systems.

9.7.1 Company overview
9.7.2 Company snapshot
9.7.3 SWOT analysis of RIEGL Laser measurement systems

9.8 Aerometric Inc.

9.8.1 Company overview
9.8.2 Company snapshot
9.8.3 SWOT analysis of Aerometric Inc.

9.9 Mira Solutions

9.9.1 Company overview
9.9.2 Company snapshot
9.9.3 SWOT analysis of Mira Solutions

9.10 Intermap Technologies Inc.

9.10.1 Company overview
9.10.2 Company snapshot
9.10.3 Business performance
9.10.4 Key strategies and developments
9.10.5 SWOT analysis of INTERMAP TECHNOLOGIES Inc.

9.11 Optech Inc. (Teledyne Technologies)

9.11.1 Company overview
9.11.2 Company snapshot
9.11.3 Business performance
9.11.4 Key strategies and developments
9.11.5 SWOT analysis of Optech Inc.

LIST OF TABLES

TABLE 1  LIDAR MARKET REVENUE BY GEOGRAPHY, 2013–2020 ($ MILLION)
TABLE 2  LIDAR BASE CASE SCENARIO MARKET REVENUE BY GEOGRAPHY, 2020–2025 ($ MILLION)
TABLE 3  LIDAR OPTIMISTIC CASE SCENARIO MARKET REVENUE BY GEOGRAPHY, 2020–2025 ($ MILLION)
TABLE 4  LIDAR CRITICAL CASE SCENARIO MARKET REVENUE BY GEOGRAPHY, 2020-2025 ($ MILLION)
TABLE 5  GLOBAL LIGHT DETECTION AND RANGING MARKET REVENUE BY PRODUCT TYPE, 2013-2020 ($ MILLION)
TABLE 6  GLOBAL TERRESTRIAL LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY, 2013-2020 ($ MILLION)
TABLE 7  GLOBAL AERIAL LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY, 2013-2020 ($ MILLION)
TABLE 8  GLOBAL MOBILE LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY, 2013-2020 ($ MILLION)
TABLE 9  GLOBAL SHORT-RANGE LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY, 2013-2020 ($ MILLION)
TABLE 10  GLOBAL LIGHT DETECTION AND RANGING MARKET REVENUE BY COMPONENTS 2013-2020 ($ MILLION)
TABLE 11  GLOBAL LIDAR LASER COMPONENT MARKET REVENUE BY REGION 2013-2020 ($ MILLION)
TABLE 12  GLOBAL LIDAR INERTIAL NAVIGATION SYSTEM COMPONENT MARKET REVENUE BY REGION 2013-2020 ($ MILLION)
TABLE 13  GLOBAL LIDAR CAMERA COMPONENT MARKET REVENUE BY REGION 2013-2020 ($ MILLION)
TABLE 14  GLOBAL LIDAR GNS/GPSS RECEIVER MARKET REVENUE BY REGION 2013-2020 ($ MILLION)
TABLE 15  GLOBAL LIDAR MICRO ELCTRO MECHANICAL SYSTEM (MEMS) MARKET REVENUE BY REGION 2013-2020 ($ MILLION)
TABLE 16  GLOBAL LIGHT DETECTION AND RANGING MARKET REVENUE BY APPLICATION 2013-2020 ($ MILLION)
TABLE 17  GLOBAL CORRIDOR MAPPING LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY 2013-2020 ($ MILLION)
TABLE 18  GLOBAL SEISMOLOGY LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY 2013-2020 ($ MILLION)
TABLE 19  GLOBAL EXPLORATION AND DETECTION LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY 2013-2020 ($ MILLION)
TABLE 20  GLOBAL OTHER APPLICATION LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY 2013-2020 ($ MILLION)
TABLE 21  GLOBAL LIGHT DETECTION AND RANGING MARKET REVENUE BY END USER, 2013-2020 ($ MILLION)
TABLE 22  GLOBAL DEFENSE AND AEROSPACE LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY, 2013-2020 ($ MILLION)
TABLE 23  GLOBAL CIVIL ENGINEERING LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY, 2013-2020 ($ MILLION)
TABLE 24  GLOBAL ARCHAEOLOGY LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY, 2013-2020 ($ MILLION)
TABLE 25  GLOBAL FORESTRY AND AGRICULTURE LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY, 2013-2020 ($ MILLION)
TABLE 26  GLOBAL MINING INDUSTRY LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY, 2013-2020 ($ MILLION)
TABLE 27  GLOBAL TRANSPORATION LIGHT DETECTION AND RANGING MARKET REVENUE BY GEOGRAPHY, 2013-2020 ($ MILLION)
TABLE 28  NORTH AMERICAN LIGHT DETECTION AND RANGING MARKET REVENUE BY END USER, 2013-2020 ($ MILLION)
TABLE 29  EUROPEAN LIGHT DETECTION AND RANGING MARKET REVENUE BY END USER, 2013-2020 ($ MILLION)
TABLE 30  ASIA PACIFIC LIGHT DETECTION AND RANGING MARKET REVENUE BY END USER, 2013-2020 ($ MILLION)
TABLE 31  LAMEA LIGHT DETECTION AND RANGING MARKET REVENUE BY END USER, 2013-2020 ($ MILLION)
TABLE 32  AIRBORNE HYDROGRAPHY AB SNAPSHOT
TABLE 33  LEOSPHERE SNAPSHOT
TABLE 34  FARO TECHNOLOGY SNAPSHOT
TABLE 35  LEICA GEOSYSTEMS (HEXAGON)
TABLE 36  3D LASER MAPPING SNAPSHOT
TABLE 37  FIRMATEC SNAPSHOT
TABLE 38  RIEGL LASER MEASUREMENT SYSTEMS. SNAPSHOT
TABLE 39  AEROMETRIC INC. SNAPSHOT
TABLE 40  MIRA SOLUTIONS SNAPSHOT
TABLE 41  INTERMAP TECHNOLOGIES INC. SNAPSHOT
TABLE 42  OPTECH INC. SNAPSHOT

LIST OF FIGURES

FIG. 1  TOP IMPACTING FACTORS, BASE CASE (2020-2025)
FIG. 2  TOP IMPACTING FACTORS, OPTIMISTIC CASE (2020-2025)
FIG. 3  TOP IMPACTING FACTORS, CRITICAL CASE (2020-2025)
FIG. 4  TOP IMPACTING FACTORS
FIG. 5  TOP INVESTMENT POCKETS
FIG. 6  TOP WINNING STRATEGIES IN LIDAR MARKET
FIG. 7  TOP WINNING STRATEGIES IN LIDAR MARKET BY LEADING PLAYERS
FIG. 8  LIDAR MARKET’S VALUE CHAIN
FIG. 9  PORTER’S FIVE FORCES MODEL
FIG. 10  U.S MILITARY EXPENDITURE COMPARED TO OTHER COUNTRIES (PERCENTAGE)
FIG. 11  EUROPE GNSS DEVICE SHIPMENTS COMPARED TO NORTH AMERICA. AND REST OF THE WORLD
FIG. 12  REVENUE GENERATED BY AIRBORNE HYDROGRAPHY AB ($ MILLION, 2011 – 2013)
FIG. 13  SWOT ANALYSIS OF AIRBORNE HYDROGRAPHY AB
FIG. 14  SWOT ANALYSIS OF LEOSPHERE
FIG. 15  REVENUE GENERATED BY FARO TECHNOLOGY ($ MILLION, 2011 – 2013)
FIG. 16  REVENUE OF FARO TECHNOLOGY IN PERCENTAGE BY GEOGRAPHY 2013
FIG. 17  SWOT ANALYSIS OF FARO TECHNOLOGIES INC.
FIG. 18  REVENUE GENERATED BY HEXAGON ($ MILLION, 2011 – 2013)
FIG. 19  REVENUE OF HEXAGON IN PERCENTAGE BY GEOGRAPHY (2013)
FIG. 20  SWOT ANALYSIS OF LEICA GEOSYSTEMS INC. (HEXAGON)
FIG. 21  SWOT ANALYSIS OF 3D LASER MAPPING INC.
FIG. 22  SWOT ANALYSIS OF FIRMATEK
FIG. 23  SWOT ANALYSIS OF RIEGL LASER MEASUREMENT SYSTEMS
FIG. 24  SWOT ANALYSIS OF AEROMETRIC INC.
FIG. 25  SWOT ANALYSIS OF MIRA SOLUTIONS
FIG. 26  REVENUE GENERATED BY INTERMAP TECHNOLOGIES INC. ($ MILLION, 2011 – 2013)
FIG. 27  REVENUE OF INTERMAP TECHNOLOGIES INC. IN PERCENTAGE BY GEOGRAPHY, 2013
FIG. 28  REVENUE OF INTERMAP TECHNOLOGIES INC. IN PERCENTAGE BY SEGMENT, 2013
FIG. 29  SWOT ANALYSIS OF INTERMAP TECHNOLOGIES INC.
FIG. 30  REVENUE GENERATED BY TELEDYNE TECHNOLOGIES
FIG. 31  REVENUE OF TELEDYNE TECHNOLOGIES IN PERCENTAGE BY SEGMENT 2013
FIG. 32  REVENUE OF TELEDYNE TECHNOLOGIES IN PERCENTAGE BY GEOGRAPHY 2013
FIG. 33  SWOT ANALYSIS OF OPTECH INC.

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