Asia-Pacific LiDAR Market by Product Types (Terrestrial/Static, Aerial, Mobile, Short Range), Component (Laser, Inertial Navigation System, Camera, GPS/GNSS Receiver, Microelectromechanical System) and Users (Aerospace & Defense, Civil Engineering, Archaeology, Forestry & Agriculture, Mining, Transportation) - Opportunity Analysis and Industry Forecast, 2015 - 2022
Light detection and ranging (LiDAR) systems enable easier examination, detection, and mapping of objects in comparison to the conventional techniques. These systems are increasingly employed over conventional survey methods as they provide accurate data and 3D images at a faster rate. LiDAR systems have replaced conventional surveying methods and statistical analysis due to the in-depth analysis requirement in different application areas. The widespread awareness about the advantages of LiDAR in different industry verticals is a major factor that drives the Asia-Pacific LiDAR market. Countries, such as China, Japan and South Korea amongst others, are using LiDAR technology in civil engineering and forestry applications. Furthermore, Government initiatives have a positive impact on the adoption of the LiDAR technology in different application areas. This further supplements the growth and creates opportunities for the players to enhance their market reach.
Strategies such as product launch, acquisitions, joint ventures, and partnerships are expected to help the market players set a common technology platform and share the technological requirements, which in turn, would enhance their product portfolio and increase their market share across Asia-Pacific. Cost cutting in operations is expected to assist the manufacturers to invest into advertisement and increase awareness about LiDAR systems across diverse industry verticals. In addition, increased use of LiDAR systems across various industries supported by favorable government initiatives, is expected to fuel the growth of the Asia-Pacific LiDAR market. For instance, in February 2015, the Indian road ministry announced the mandatory use of LiDAR system to conduct a feasibility check for all the highway projects in India.
The Asia-Pacific LiDAR market is segmented based on the type, component, application, end user, and country. Static or terrestrial, aerial, mobile, and short range are the various types of LiDAR systems. The components of LiDAR systems include laser scanner, inertial navigation system, camera, GPS/GNSS receiver, and microelectromechanical system. Based on application, the market is segmented into corridor mapping, seismology, exploration & detection, and others. The end user segment includes industries such as defense & aerospace, civil engineering, archaeology, forestry & agriculture, mining industry, and transportation. Geographically, the market is divided into China, Japan, India, South Korea, and rest of Asia-Pacific.
POTENTIAL BENEFITS FOR STAKEHOLDERS:
The market is segmented on the basis of type, component, application, end user and country as follows:
BY PRODUCT TYPE
Strategies such as product launch, acquisitions, joint ventures, and partnerships are expected to help the market players set a common technology platform and share the technological requirements, which in turn, would enhance their product portfolio and increase their market share across Asia-Pacific. Cost cutting in operations is expected to assist the manufacturers to invest into advertisement and increase awareness about LiDAR systems across diverse industry verticals. In addition, increased use of LiDAR systems across various industries supported by favorable government initiatives, is expected to fuel the growth of the Asia-Pacific LiDAR market. For instance, in February 2015, the Indian road ministry announced the mandatory use of LiDAR system to conduct a feasibility check for all the highway projects in India.
The Asia-Pacific LiDAR market is segmented based on the type, component, application, end user, and country. Static or terrestrial, aerial, mobile, and short range are the various types of LiDAR systems. The components of LiDAR systems include laser scanner, inertial navigation system, camera, GPS/GNSS receiver, and microelectromechanical system. Based on application, the market is segmented into corridor mapping, seismology, exploration & detection, and others. The end user segment includes industries such as defense & aerospace, civil engineering, archaeology, forestry & agriculture, mining industry, and transportation. Geographically, the market is divided into China, Japan, India, South Korea, and rest of Asia-Pacific.
POTENTIAL BENEFITS FOR STAKEHOLDERS:
- The study highlights the Asia-Pacific LiDAR market with current trends and estimates the adoption of this technology across varied industry verticals to analyze the prominent investment pockets.
- Microscopic analysis of segments is conducted to gauge the potential of the market and highlight the favorable conditions for its growth.
- Porters five force’s model helps analyze the potential of buyers & suppliers, with a competitive outlook, which assists key players in decision-making.
- Value chain analysis provides a clear view of key intermediaries involved and elaborates their roles and value addition at every stage.
The market is segmented on the basis of type, component, application, end user and country as follows:
BY PRODUCT TYPE
- Terrestrial/Static
- Aerial
- Mobile
- Short Range
- Laser
- Inertial Navigation System
- Camera
- GPS/GNSS Receiver
- Microelectromechanical System (MEMS)
- Corridor Mapping
- Seismology
- Exploration & Detection
- Others
- Aerospace & Defense
- Civil Engineering
- Archaeology
- Forestry & Agriculture
- Mining
- Transportation
- China
- India
- Japan
- South Korea
- Rest of Asia-Pacific
- Airborne Hydrography AB
- Faro Technologies Inc.
- Leica Geosystems Inc. (Hexagon)
- 3D Laser Mapping Inc.
- RIEGL Laser Measurement Systems GmbH
- Aerometric Inc.
- Optech Inc. (Teledyne Technologies)
- Quanergy Systems, Inc.
- Raymetrics S.A.
- Saab Group
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
CHAPTER 3 MARKET OVERVIEW
3.1 Market definition and scope
3.2 Key findings
3.2.1 Top factors impacting the market
3.2.2 Top winning strategies
3.2.3 Top investment pockets
3.3 Value chain analysis
3.4 Porter’s five forces analysis
3.4.1 Moderate bargaining power of suppliers due to large number of suppliers and low switching cost
3.4.2 Moderate bargaining power of buyers due to high demand, availability of substitutes, and limited players that provide quality product
3.4.3 Cost-effective substitutes and high costs of industry products have led to high threat of substitutes
3.4.4 Higher capital investments and government regulations have led to low threat of new entrants
3.4.5 Presence of numerous players, low switching cost increases the competition among rivalries
3.5 Drivers
3.5.1 Increasing use of drones in agriculture, cartography, and corridor mapping
3.5.2 Automated processing in LiDAR System leads to enhanced efficiency
3.5.3 Rising demand for 3D imaging in emerging countries
3.5.4 Technological superiority than other technologies
3.6 Restraint
3.6.1 High cost of LiDAR equipment
3.6.2 Lack of awareness
3.7 Opportunity
3.7.1 Growing adoption of autonomous vehicles in emerging countries of Asia-Pacific
CHAPTER 4 ASIA-PACIFIC LIDAR MARKET, BY PRODUCT TYPE
4.1 Terrestrial
4.1.1 Key market trends
4.1.2 Key growth factors and opportunities
4.1.3 Market size and forecast
4.2 Aerial
4.2.1 Key market trends
4.2.2 Key growth factors and opportunities
4.2.3 Market size and forecast
4.3 Mobile
4.3.1 Key market trends
4.3.2 Key growth factors and opportunities
4.3.3 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 Market size and forecast
CHAPTER 5 ASIA-PACIFIC LIDAR MARKET, BY COMPONENT
5.1 Lasers
5.1.1 Key market trends
5.1.2 Key growth factors & opportunities
5.1.3 Market size & forecast
5.2 Inertial navigation system
5.2.1 Key market trends
5.2.2 Key growth factors & opportunities
5.2.3 Market size & forecast
5.3 Camera
5.3.1 Key market trends
5.3.2 Key growth factors & opportunities
5.3.3 Market size & forecast
5.4 GPS/GNSS receiver
5.4.1 Key market trends
5.4.2 Key growth factors & opportunities
5.4.3 Market size & forecast
5.5 Microelectromechanical system (MEMS)
5.5.1 Key market trends
5.5.2 Key growth factors & opportunities
5.5.1 Market size & forecast
CHAPTER 6 ASIA-PACIFIC LIDAR MARKET, BY APPLICATION
6.1 Corridor mapping
6.1.1 Key market trends
6.1.2 Key growth factors and opportunities
6.1.3 Market size and forecast
6.2 Seismology
6.2.1 Key market trends
6.2.2 Key growth factors and opportunities
6.2.3 Market size and forecast
6.3 Exploration and detection
6.3.1 Key market trends
6.3.2 Key growth factors and opportunities
6.3.3 Market size and forecast
6.4 Others
6.4.1 Key market trends
6.4.2 Key growth factors and opportunities
6.4.3 Market size and forecast
CHAPTER 7 ASIA-PACIFIC LIDAR MARKET, BY END-USER
7.1 Introduction
7.2 Civil engineering
7.2.1 Key market trends
7.2.2 Key drivers & opportunities
7.2.3 Market size & forecast
7.3 Archaeology
7.3.1 Key market trends
7.3.2 Key drivers & opportunities
7.3.3 Market size & forecast
7.4 Mining
7.4.1 Key market trends
7.4.2 Key drivers & opportunities
7.4.3 Market size & forecast
7.5 Transportation
7.5.1 Key market trends
7.5.2 Key drivers & opportunities
7.5.3 Market size & forecast
7.6 Defense & Aerospace
7.6.1 Key market trends
7.6.2 Key drivers & opportunities
7.6.3 Market size & forecast
7.7 Forestry & agriculture
7.7.1 Key market trends
7.7.2 Key drivers & opportunities
7.7.3 Market size & forecast
CHAPTER 8 ASIA-PACIFIC LIDAR MARKET, BY COUNTRY
8.1 China
8.1.1 Key market trends
8.1.2 Key drivers and opportunities
8.1.3 Market size and forecast
8.2 Japan
8.2.1 Key market trends
8.2.2 Key drivers and opportunities
8.2.3 Market size and forecast
8.3 India
8.3.1 Key market trends
8.3.2 Key drivers and opportunities
8.3.3 Market size and forecast
8.4 South Korea
8.4.1 Key market trends
8.4.2 Key drivers and opportunities
8.4.3 Market size and forecast
8.5 Rest of Asia-Pacific
8.5.1 Key market trends
8.5.2 Key drivers and opportunities
8.5.3 Market size and forecast
CHAPTER 9 COMPANY PROFILE
9.1 Airborne Hydrography AB
9.1.1 Company overview
9.1.2 Key strategies & developments
9.1.3 SWOT analysis
9.2 Faro Technologies Inc.
9.2.1 Company overview
9.2.2 Business performance
9.2.3 Key strategies & developments
9.2.4 SWOT analysis
9.3 Leica Geosystems Inc. (Hexagon)
9.3.1 Company overview
9.3.2 Business performance
9.3.3 Key strategies & developments
9.3.4 SWOT analysis
9.4 3D Laser Mapping Inc.
9.4.1 Company overview
9.4.2 SWOT analysis
9.5 RIEGL Laser Measurement Systems GmbH
9.5.1 Company overview
9.5.2 Key strategies & developments
9.5.3 SWOT analysis
9.6 Aerometric Inc.
9.6.1 Company overview
9.6.2 SWOT analysis
9.7 Optech Inc. (Teledyne Technologies)
9.7.1 Company overview
9.7.2 Business performance
9.7.3 Key strategies & developments
9.7.4 SWOT analysis
9.8 Quanergy Systems, Inc.
9.8.1 Company overview
9.8.2 Key strategies & developments
9.8.3 SWOT analysis
9.9 Raymetrics S.A.
9.9.1 Company overview
9.9.2 Key strategies & developments
9.9.3 SWOT analysis
9.10 Saab Group
9.10.1 Company overview
9.10.2 Business performance
9.10.3 Key strategies & developments
9.10.4 SWOT analysis
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
CHAPTER 3 MARKET OVERVIEW
3.1 Market definition and scope
3.2 Key findings
3.2.1 Top factors impacting the market
3.2.2 Top winning strategies
3.2.3 Top investment pockets
3.3 Value chain analysis
3.4 Porter’s five forces analysis
3.4.1 Moderate bargaining power of suppliers due to large number of suppliers and low switching cost
3.4.2 Moderate bargaining power of buyers due to high demand, availability of substitutes, and limited players that provide quality product
3.4.3 Cost-effective substitutes and high costs of industry products have led to high threat of substitutes
3.4.4 Higher capital investments and government regulations have led to low threat of new entrants
3.4.5 Presence of numerous players, low switching cost increases the competition among rivalries
3.5 Drivers
3.5.1 Increasing use of drones in agriculture, cartography, and corridor mapping
3.5.2 Automated processing in LiDAR System leads to enhanced efficiency
3.5.3 Rising demand for 3D imaging in emerging countries
3.5.4 Technological superiority than other technologies
3.6 Restraint
3.6.1 High cost of LiDAR equipment
3.6.2 Lack of awareness
3.7 Opportunity
3.7.1 Growing adoption of autonomous vehicles in emerging countries of Asia-Pacific
CHAPTER 4 ASIA-PACIFIC LIDAR MARKET, BY PRODUCT TYPE
4.1 Terrestrial
4.1.1 Key market trends
4.1.2 Key growth factors and opportunities
4.1.3 Market size and forecast
4.2 Aerial
4.2.1 Key market trends
4.2.2 Key growth factors and opportunities
4.2.3 Market size and forecast
4.3 Mobile
4.3.1 Key market trends
4.3.2 Key growth factors and opportunities
4.3.3 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 Market size and forecast
CHAPTER 5 ASIA-PACIFIC LIDAR MARKET, BY COMPONENT
5.1 Lasers
5.1.1 Key market trends
5.1.2 Key growth factors & opportunities
5.1.3 Market size & forecast
5.2 Inertial navigation system
5.2.1 Key market trends
5.2.2 Key growth factors & opportunities
5.2.3 Market size & forecast
5.3 Camera
5.3.1 Key market trends
5.3.2 Key growth factors & opportunities
5.3.3 Market size & forecast
5.4 GPS/GNSS receiver
5.4.1 Key market trends
5.4.2 Key growth factors & opportunities
5.4.3 Market size & forecast
5.5 Microelectromechanical system (MEMS)
5.5.1 Key market trends
5.5.2 Key growth factors & opportunities
5.5.1 Market size & forecast
CHAPTER 6 ASIA-PACIFIC LIDAR MARKET, BY APPLICATION
6.1 Corridor mapping
6.1.1 Key market trends
6.1.2 Key growth factors and opportunities
6.1.3 Market size and forecast
6.2 Seismology
6.2.1 Key market trends
6.2.2 Key growth factors and opportunities
6.2.3 Market size and forecast
6.3 Exploration and detection
6.3.1 Key market trends
6.3.2 Key growth factors and opportunities
6.3.3 Market size and forecast
6.4 Others
6.4.1 Key market trends
6.4.2 Key growth factors and opportunities
6.4.3 Market size and forecast
CHAPTER 7 ASIA-PACIFIC LIDAR MARKET, BY END-USER
7.1 Introduction
7.2 Civil engineering
7.2.1 Key market trends
7.2.2 Key drivers & opportunities
7.2.3 Market size & forecast
7.3 Archaeology
7.3.1 Key market trends
7.3.2 Key drivers & opportunities
7.3.3 Market size & forecast
7.4 Mining
7.4.1 Key market trends
7.4.2 Key drivers & opportunities
7.4.3 Market size & forecast
7.5 Transportation
7.5.1 Key market trends
7.5.2 Key drivers & opportunities
7.5.3 Market size & forecast
7.6 Defense & Aerospace
7.6.1 Key market trends
7.6.2 Key drivers & opportunities
7.6.3 Market size & forecast
7.7 Forestry & agriculture
7.7.1 Key market trends
7.7.2 Key drivers & opportunities
7.7.3 Market size & forecast
CHAPTER 8 ASIA-PACIFIC LIDAR MARKET, BY COUNTRY
8.1 China
8.1.1 Key market trends
8.1.2 Key drivers and opportunities
8.1.3 Market size and forecast
8.2 Japan
8.2.1 Key market trends
8.2.2 Key drivers and opportunities
8.2.3 Market size and forecast
8.3 India
8.3.1 Key market trends
8.3.2 Key drivers and opportunities
8.3.3 Market size and forecast
8.4 South Korea
8.4.1 Key market trends
8.4.2 Key drivers and opportunities
8.4.3 Market size and forecast
8.5 Rest of Asia-Pacific
8.5.1 Key market trends
8.5.2 Key drivers and opportunities
8.5.3 Market size and forecast
CHAPTER 9 COMPANY PROFILE
9.1 Airborne Hydrography AB
9.1.1 Company overview
9.1.2 Key strategies & developments
9.1.3 SWOT analysis
9.2 Faro Technologies Inc.
9.2.1 Company overview
9.2.2 Business performance
9.2.3 Key strategies & developments
9.2.4 SWOT analysis
9.3 Leica Geosystems Inc. (Hexagon)
9.3.1 Company overview
9.3.2 Business performance
9.3.3 Key strategies & developments
9.3.4 SWOT analysis
9.4 3D Laser Mapping Inc.
9.4.1 Company overview
9.4.2 SWOT analysis
9.5 RIEGL Laser Measurement Systems GmbH
9.5.1 Company overview
9.5.2 Key strategies & developments
9.5.3 SWOT analysis
9.6 Aerometric Inc.
9.6.1 Company overview
9.6.2 SWOT analysis
9.7 Optech Inc. (Teledyne Technologies)
9.7.1 Company overview
9.7.2 Business performance
9.7.3 Key strategies & developments
9.7.4 SWOT analysis
9.8 Quanergy Systems, Inc.
9.8.1 Company overview
9.8.2 Key strategies & developments
9.8.3 SWOT analysis
9.9 Raymetrics S.A.
9.9.1 Company overview
9.9.2 Key strategies & developments
9.9.3 SWOT analysis
9.10 Saab Group
9.10.1 Company overview
9.10.2 Business performance
9.10.3 Key strategies & developments
9.10.4 SWOT analysis
LIST OF TABLES
TABLE 1 ASIA-PACIFIC LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 2 PROPERTIES OF LIDAR SENSOR
TABLE 3 COMPARISION BETWEEN LIDAR AND RADAR
TABLE 4 PROPERTIES OF LIDAR SENSOR
TABLE 5 ASIA-PACIFIC LIDAR MARKET REVENUE BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 6 ASIA-PACIFIC TERRESTRIAL LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 7 ASIA-PACIFIC AERIAL LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 8 ASIA-PACIFIC MOBILE LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 9 ASIA-PACIFIC SHORT-RANGE LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 10 ASIA-PACIFIC: LIDAR MARKET REVENUE, BY COMPONENTS, 2015-2022 ($THOUSAND)
TABLE 11 ASIA-PACIFIC LIDAR LASER COMPONENT MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 12 ASIA-PACIFIC LIDAR INERTIAL NAVIGATION SYSTEM COMPONENT MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 13 ASIA-PACIFIC LIDAR CAMERA COMPONENT MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 14 ASIA-PACIFIC LIDAR GNS/GPSS RECEIVER MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 15 ASIA-PACIFIC LIDAR MICROELECTROMECHANICAL SYSTEM (MEMS) MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOSUAND)
TABLE 16 ASIA-PACIFIC LIDAR MARKET REVENUE BY APPLICATION 2015–2022 ($THOUSAND)
TABLE 17 ASIA-PACIFIC CORRIDOR MAPPING LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 18 ASIA-PACIFIC SEISMOLOGY LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 19 ASIA-PACIFC EXPLORATION AND DETECTION LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 20 ASIA-PACIFIC OTHER APPLICATION LADAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 21 ASIA-PACIFIC LIDAR MARKET REVENUE BY END USER, 2015–2022 ($THOUSAND)
TABLE 22 ASIA-PACIFIC CIVIL ENGINEERING LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 23 ASIA-PACIFIC ARCHEOLOGY LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 24 ASIA-PACIFIC MINING LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 25 ASIA-PACIFIC TRANSPORTATION LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 26 ASIA-PACIFIC DEFENSE & AEROSPACE LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 27 ASIA-PACIFIC FORESTRY & AGRICULTURE LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 29 CHINA LIDAR MARKET REVENUE, BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 30 JAPAN LIDAR MARKET REVENUE, BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 31 INDIA LIDAR MARKET REVENUE, BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 32 SOUTH KOREA LIDAR MARKET REVENUE, BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 33 REST OF ASIA-PACIFIC LIDAR MARKET REVENUE, BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 34 AIRBORNE HYDROGRAPHY AB - COMPANY SNAPSHOT
TABLE 35 FARO TECHNOLOGY INC. - COMPANY SNAPSHOT
TABLE 36 LEICA GEOSYSTEMS INC. (HEXAGON) - COMPANY SNAPSHOT
TABLE 37 3D LASER MAPPING INC. – COMPANY SNAPSHOT
TABLE 38 RIEGL LASER MEASUREMENT SYSTEMS GMBH - COMPANY SNAPSHOT
TABLE 39 AEROMETRIC INC. - COMPANY SNAPSHOT
TABLE 40 OPTECH INC. BUSINESS SNAPSHOT
TABLE 41 QUANERGY SYSTEMS, INC.-COMPANY SNAPSHOT
TABLE 42 RAYMETRICS S.A. - COMPANY SNAPSHOT
TABLE 43 SAAB GROUP - COMPANY SNAPSHOT
TABLE 1 ASIA-PACIFIC LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 2 PROPERTIES OF LIDAR SENSOR
TABLE 3 COMPARISION BETWEEN LIDAR AND RADAR
TABLE 4 PROPERTIES OF LIDAR SENSOR
TABLE 5 ASIA-PACIFIC LIDAR MARKET REVENUE BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 6 ASIA-PACIFIC TERRESTRIAL LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 7 ASIA-PACIFIC AERIAL LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 8 ASIA-PACIFIC MOBILE LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 9 ASIA-PACIFIC SHORT-RANGE LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 10 ASIA-PACIFIC: LIDAR MARKET REVENUE, BY COMPONENTS, 2015-2022 ($THOUSAND)
TABLE 11 ASIA-PACIFIC LIDAR LASER COMPONENT MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 12 ASIA-PACIFIC LIDAR INERTIAL NAVIGATION SYSTEM COMPONENT MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 13 ASIA-PACIFIC LIDAR CAMERA COMPONENT MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 14 ASIA-PACIFIC LIDAR GNS/GPSS RECEIVER MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 15 ASIA-PACIFIC LIDAR MICROELECTROMECHANICAL SYSTEM (MEMS) MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOSUAND)
TABLE 16 ASIA-PACIFIC LIDAR MARKET REVENUE BY APPLICATION 2015–2022 ($THOUSAND)
TABLE 17 ASIA-PACIFIC CORRIDOR MAPPING LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 18 ASIA-PACIFIC SEISMOLOGY LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 19 ASIA-PACIFC EXPLORATION AND DETECTION LIDAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 20 ASIA-PACIFIC OTHER APPLICATION LADAR MARKET REVENUE BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 21 ASIA-PACIFIC LIDAR MARKET REVENUE BY END USER, 2015–2022 ($THOUSAND)
TABLE 22 ASIA-PACIFIC CIVIL ENGINEERING LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 23 ASIA-PACIFIC ARCHEOLOGY LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 24 ASIA-PACIFIC MINING LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 25 ASIA-PACIFIC TRANSPORTATION LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 26 ASIA-PACIFIC DEFENSE & AEROSPACE LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 27 ASIA-PACIFIC FORESTRY & AGRICULTURE LIDAR MARKET REVENUE, BY COUNTRY, 2015–2022 ($THOUSAND)
TABLE 29 CHINA LIDAR MARKET REVENUE, BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 30 JAPAN LIDAR MARKET REVENUE, BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 31 INDIA LIDAR MARKET REVENUE, BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 32 SOUTH KOREA LIDAR MARKET REVENUE, BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 33 REST OF ASIA-PACIFIC LIDAR MARKET REVENUE, BY PRODUCT TYPE, 2015–2022 ($THOUSAND)
TABLE 34 AIRBORNE HYDROGRAPHY AB - COMPANY SNAPSHOT
TABLE 35 FARO TECHNOLOGY INC. - COMPANY SNAPSHOT
TABLE 36 LEICA GEOSYSTEMS INC. (HEXAGON) - COMPANY SNAPSHOT
TABLE 37 3D LASER MAPPING INC. – COMPANY SNAPSHOT
TABLE 38 RIEGL LASER MEASUREMENT SYSTEMS GMBH - COMPANY SNAPSHOT
TABLE 39 AEROMETRIC INC. - COMPANY SNAPSHOT
TABLE 40 OPTECH INC. BUSINESS SNAPSHOT
TABLE 41 QUANERGY SYSTEMS, INC.-COMPANY SNAPSHOT
TABLE 42 RAYMETRICS S.A. - COMPANY SNAPSHOT
TABLE 43 SAAB GROUP - COMPANY SNAPSHOT
LIST OF FIGURES
FIG. 1 TOP IMPACTING FACTORS
FIG. 2 TOP WINNING STRATEGIES IN ASIA-PACIFIC LIDAR MARKET, 2015
FIG. 3 TOP WINNING STRATEGIES IN ASIA-PACIFIC LIDAR MARKET
FIG. 4 TOP INVESTMENT POCKETS
FIG. 5 VALUE CHAIN ANALYSIS OF ASIA-PACIFIC LIDAR MARKET
FIG. 6 PORTER’S FIVE FORCES MODEL
FIG. 7 ENHANCED EFFICIENCY OF LIDAR SENSOR
FIG. 8 AIRBORNE HYDROGRAPHY AB - SWOT ANALYSIS
FIG. 9 REVENUE GENERATED BY FARO TECHNOLOGIES INC., 2013–2015 ($MILLION)
FIG. 10 REVENUE OF FARO TECHNOLOGIES INC. IN PERCENTAGE, BY GEOGRAPHY, 2015
FIG. 11 FARO TECHNOLOGIES INC. - SWOT ANALYSIS
FIG. 12 REVENUE GENERATED BY LEICA GEOSYSTEMS INC. (HEXAGON), 2013–2015 ($MILLION)
FIG. 13 REVENUE OF LEICA GEOSYSTEMS INC. (HEXAGON) IN PERCENTAGE, BY GEOGRAPHY (2015)
FIG. 14 LEICA GEOSYSTEMS INC. (HEXAGON) - SWOT ANALYSIS
FIG. 15 3D LASER MAPPING INC. - SWOT ANALYSIS
FIG. 16 RIEGL LASER MEASUREMENT SYSTEMS GMBH - SWOT ANALYSIS
FIG. 17 AEROMETRIC INC. - SWOT ANALYSIS
FIG. 18 REVENUE GENERATED BY TELEDYNE TECHNOLOGIES
FIG. 19 REVENUE OF TELEDYNE TECHNOLOGIES IN PERCENTAGE, BY SEGMENT, 2015
FIG. 20 OPTECH INC. - SWOT ANALYSIS
FIG. 21 QUANERGY SYSTEMS, INC. - SWOT ANALYSIS
FIG. 22 RAYMETRICS S.A. - SWOT ANALYSIS
FIG. 23 SAAB GROUP: SALES, 2012–2015 ($MILLION)
FIG. 24 SAAB GROUP: SALES, BY DIVISION, 2015 (%)
FIG. 25 SAAB GROUP: SALES, BY GEOGRAPHY, 2015 (%)
FIG. 26 SAAB GROUP - SWOT ANALYSIS
FIG. 1 TOP IMPACTING FACTORS
FIG. 2 TOP WINNING STRATEGIES IN ASIA-PACIFIC LIDAR MARKET, 2015
FIG. 3 TOP WINNING STRATEGIES IN ASIA-PACIFIC LIDAR MARKET
FIG. 4 TOP INVESTMENT POCKETS
FIG. 5 VALUE CHAIN ANALYSIS OF ASIA-PACIFIC LIDAR MARKET
FIG. 6 PORTER’S FIVE FORCES MODEL
FIG. 7 ENHANCED EFFICIENCY OF LIDAR SENSOR
FIG. 8 AIRBORNE HYDROGRAPHY AB - SWOT ANALYSIS
FIG. 9 REVENUE GENERATED BY FARO TECHNOLOGIES INC., 2013–2015 ($MILLION)
FIG. 10 REVENUE OF FARO TECHNOLOGIES INC. IN PERCENTAGE, BY GEOGRAPHY, 2015
FIG. 11 FARO TECHNOLOGIES INC. - SWOT ANALYSIS
FIG. 12 REVENUE GENERATED BY LEICA GEOSYSTEMS INC. (HEXAGON), 2013–2015 ($MILLION)
FIG. 13 REVENUE OF LEICA GEOSYSTEMS INC. (HEXAGON) IN PERCENTAGE, BY GEOGRAPHY (2015)
FIG. 14 LEICA GEOSYSTEMS INC. (HEXAGON) - SWOT ANALYSIS
FIG. 15 3D LASER MAPPING INC. - SWOT ANALYSIS
FIG. 16 RIEGL LASER MEASUREMENT SYSTEMS GMBH - SWOT ANALYSIS
FIG. 17 AEROMETRIC INC. - SWOT ANALYSIS
FIG. 18 REVENUE GENERATED BY TELEDYNE TECHNOLOGIES
FIG. 19 REVENUE OF TELEDYNE TECHNOLOGIES IN PERCENTAGE, BY SEGMENT, 2015
FIG. 20 OPTECH INC. - SWOT ANALYSIS
FIG. 21 QUANERGY SYSTEMS, INC. - SWOT ANALYSIS
FIG. 22 RAYMETRICS S.A. - SWOT ANALYSIS
FIG. 23 SAAB GROUP: SALES, 2012–2015 ($MILLION)
FIG. 24 SAAB GROUP: SALES, BY DIVISION, 2015 (%)
FIG. 25 SAAB GROUP: SALES, BY GEOGRAPHY, 2015 (%)
FIG. 26 SAAB GROUP - SWOT ANALYSIS