Singapore Terrestrial Laser Scanning Market
Tamanho do mercado em biliões de dólares
CAGR :
% 
 Período de previsão |
2024 –2031 |
 Tamanho do mercado (ano base ) | USD 51,832.65 Thousand |
 Tamanho do mercado ( Ano de previsão) | USD 75,934.39 Thousand |
 CAGR |
% |
| Principais participantes do mercado |
>Mercado de digitalização laser terrestre de Singapura, por tipo de alcance (médio alcance, longo alcance e curto alcance), oferta (hardware, serviços e software), tipo (scanner baseado em pulso, scanner baseado em fase, scanner de triangulação ótica e scanner baseado em dispositivos móveis ), Produto (Digitalização Laser Terrestre Estática e Digitalização Laser Terrestre Dinâmica), Aplicação (Arquitetura e Bim, Engenharia Civil, Topografia, Investigação e Engenharia, Forense e Outros), Utilizador Final (Infraestruturas, Petróleo e Gás , Transportes e Logística, Energia & Energia, Mineração, Silvicultura e Agricultura, Educação e Outros) - Tendências e previsões do sector para 2031.
Análise e tamanho do mercado de digitalização laser terrestre de Singapura
A crescente procura de tecnologias de modelação, mapeamento e levantamento 3D em vários setores, a crescente adoção do laser scanning terrestre nos setores da construção e das infraestruturas, a integração do laser scanning com tecnologias da indústria 4.0, como IOT, IA e computação em cloud , e o aumento das iniciativas governamentais para o desenvolvimento e digitalização de cidades inteligentes são alguns dos fatores que impulsionam o crescimento do mercado. As principais restrições que impactam o mercado incluem a estrita conformidade regulamentar e normas de segurança e o elevado custo dos sistemas e equipamentos de varrimento laser terrestre.
A Data Bridge Market Research analisa que o mercado de digitalização laser terrestre de Singapura deverá atingir os 75.934,39 milhares de dólares até 2031, face aos 51.832,65 milhares de dólares em 2023, crescendo a um CAGR de 5,1% durante o período de previsão de 2024 a 2031.
|
Métrica de reporte |
Detalhes |
|
Período de previsão |
2024 a 2031 |
|
Ano base |
2023 |
|
Anos históricos |
2022 (personalizável para 2016-2021) |
|
Unidades Quantitativas |
Receita em mil dólares |
|
Segmentos cobertos |
Tipo de alcance (médio alcance, longo alcance e curto alcance), oferta (hardware, serviços e software), tipo (scanner baseado em pulso, scanner baseado em fase, scanner de triangulação ótica e scanner baseado em dispositivos móveis), produto (laser terrestre estático Digitalização e Digitalização Terrestre Dinâmica Laser), Aplicação (Arquitetura e Bim, Engenharia Civil, Topografia, Investigação e Engenharia, Forense e Outros), Utilizador Final (Infraestruturas, Petróleo e Gás, Transportes e Logística, Energia e Energia, Mineração, Silvicultura e Agricultura, Educação e Outros) |
|
País coberto |
Cingapura |
|
Participantes do mercado abrangidos |
Leica Geosystems AG, Fugro, FARO, Carl Zeiss AG, CyberOptics, Shonan Design (S) Pte Ltd., Teledyne Geospatial., CREAFORM, Zener Meritime Solutions, Trimble Inc., Intertek Group plc, Aries Marine, Artec e RIEGL Laser Measurement Systems GmbH entre outros |
Definição de mercado
Terrestrial Laser Scanning (TLS) is a surveying technique that employs laser beams to rapidly capture highly accurate 3D data of objects or environments on the Earth's surface. It involves a laser scanner mounted on a tripod, vehicle, or aircraft, emitting laser pulses that bounce off surfaces and return to the scanner. By measuring the time taken for the laser pulses to return, along with their angle and intensity, TLS creates precise 3D point clouds representing the scanned area. These point clouds are then used for various applications like topographic mapping, construction monitoring, archaeology, forestry management, and infrastructure inspection.
Market Dynamics
This section deals with understanding the market drivers, advantages, opportunities, restraints, and challenges. All of this is discussed in detail below:
Drivers
- Growing Demand for 3D Modelling, Mapping, and Surveying Technologies in Various Industries
The growing demand for 3D modeling, mapping, and surveying technologies is significantly propelling Singapore's terrestrial laser scanning market across diverse sectors. In urban planning, governmental bodies utilize laser scanning to create detailed 3D models of cityscapes, aiding in infrastructure development and resource allocation. Moreover, the transportation sector leverages this technology for precisely mapping roads and railways, enhancing navigation systems, and optimizing logistics. Additionally, the environmental sector benefits from laser scanning in monitoring and managing natural resources, such as forests and coastlines, facilitating informed decision-making for conservation efforts and disaster preparedness.
- Rising Adoption of Terrestrial Laser Scanning in the Construction and Infrastructure Sectors
The adoption of Terrestrial Laser Scanning (TLS) in Singapore's construction and infrastructure sectors has surged in recent years, primarily due to its ability to enhance project efficiency, accuracy, and safety. TLS technology allows for the rapid capture of detailed 3D data of terrain, structures, and environments, enabling precise measurements and comprehensive documentation. TLS is instrumental in streamlining processes such as site planning, monitoring construction progress, and conducting as-built surveys in the construction industry. Its ability to detect deviations from design plans with high accuracy helps minimize errors and reduce costly rework, thereby driving productivity and cost-effectiveness.
Opportunities
- Technological Advancement in Terrestrial Laser Scanning
Technological advancements in terrestrial laser scanning present significant opportunities for various sectors in Singapore beyond construction. Firstly, in urban planning and management, laser scanning offers precise data for infrastructure development, transportation planning, and disaster management. Accurate 3D models generated from laser scanning can aid in optimizing city layouts, enhancing traffic flow, and preparing for natural disasters like floods or landslides. This fosters smarter, more resilient urban environments. Secondly, in environmental conservation, laser scanning facilitates detailed mapping of terrain and vegetation, aiding in biodiversity monitoring, forest management, and conservation efforts. By precisely capturing ecological features, authorities can make informed decisions regarding habitat preservation and restoration projects.
- Rise in the E-Commerce Sector of Singapore
The rise of the e-commerce sector in Singapore has significantly contributed to the growth of the Singapore Terrestrial laser scanning market. As e-commerce expands, there is a growing demand for efficient logistics and warehousing solutions to handle the increasing volume of goods. Terrestrial laser scanning technology offers precise and rapid data capture for infrastructure and facility management, which is crucial for optimizing warehouse layouts, improving inventory management, and enhancing overall operational efficiency in the e-commerce supply chain.
Restraint/Challenge
- Regulatory Compliance and Safety Standards
Regulatory compliance and safety standards are significant restraining factors for Singapore's terrestrial laser scanning market, impacting various sectors beyond construction. These regulations are designed to ensure the safety of workers, protect the environment, and maintain public health. In industries such as manufacturing and transportation, stringent regulations govern the use of equipment, namely laser scanners, due to potential hazards associated with high-intensity lasers. Compliance with these standards often requires extensive training and certification for operators, adding to the complexity and cost of adopting terrestrial laser scanning technology.
Moreover, Singapore's regulatory landscape is known for its strict adherence to international standards, which further complicates the integration of terrestrial laser scanning systems. Companies must navigate a maze of regulations and certifications to ensure their equipment meets the necessary safety and performance criteria. This can lead to delays in implementation as businesses work to ensure compliance with ever-evolving standards.
Recent Developments
- In February 2024, Leica Geosystems AG - Part of Hexagon and John Deere joined forces to introduce SmartGrade with Leica technology, revolutionizing the construction sector. This partnership combines John Deere's robust equipment with Leica Geosystems' advanced positioning solutions, enhancing productivity and safety on job sites worldwide. By integrating cutting-edge technology, the partnership aims to streamline operations and empower construction professionals with efficient, precise, and sustainable workflows
- In February 2024, Fugro pioneering 2D ultra-ultra-high resolution (UUHR) surveys earned them the geophysical survey contract for the Dutch Doordewind offshore wind farm zone, part of the Netherlands' Offshore Wind Energy Roadmap 2030. Their innovative technology, deployed via the Fugro Pioneer vessel, provides unparalleled data quality, aiding in precise ground modeling and geotechnical planning. This success underscores Fugro's commitment to supporting Singapore energy transitions and strengthens its position in the offshore market
- In January 2024, FARO collaborated with RFK Racing, an eight-time NASCAR champion, to establish the FARO technology center. This collaboration equips RFK with cutting-edge 3D metrology hardware and software for meticulous part inspection, enhancing performance and compliance with NASCAR regulations. The collaboration underscores FARO's commitment to excellence and innovation in racing, facilitating faster insights and superior car production for a competitive edge
- In February 2023, CARL ZEISS AG recently unveiled the T-SCAN hawk 2, a cutting-edge handheld 3D laser scanner boasting metrology-grade precision and user-friendly design. With its innovative satellite mode for extended range scanning, intuitive interface, and seamless transition between tasks, it caters to diverse industries. Paired with GOM Inspect software, it enhances inspection capabilities, positioning ZEISS as a leader in portable metrology solutions, empowering users across industrial sectors
- In March 2020, CyberOptics introduced Multi-Reflection Suppression (MRS)-enabled 3D MX3000 Final Vision Inspection (FVI) system for memory modules to extend its inspection capabilities from 2D to 3D. With dual high-resolution MRS sensors, the 3D MX3000 system offers precise dual-sided inspection, effectively doubling productivity. This innovation boosts CyberOptics' competitiveness through enhanced inspection solutions, driving customer satisfaction and profitability
Singapore Terrestrial Laser Scanning Market Scope
The Singapore terrestrial laser scanning market is segmented into six notable segments, on the basis of range type, offering, type, product, application and end user. The growth amongst these segments will help you analyze meagre growth segments in the industries and provide the users with a valuable market overview and market insights to help them make strategic decisions for identifying core market applications.
Range Type
- Intervalo médio
- Longo alcance
- Curto alcance
Com base no tipo de alcance, o mercado de varrimento laser terrestre de Singapura está segmentado em médio, longo alcance e curto alcance.
Oferta
- Hardware
- Serviços
- Software
Com base na oferta, o mercado de digitalização laser terrestre de Singapura está segmentado em hardware, serviços e software.
Tipo
- Scanner baseado em pulso
- Scanner baseado em fase
- Scanner de triangulação óptica
- Scanner baseado em dispositivos móveis
Com base no tipo, o mercado de digitalização laser terrestre de Singapura está segmentado em scanner baseado em pulso, scanner baseado em fase, scanner de triangulação ótica e scanner baseado em dispositivos móveis.
Produto
- Varredura a laser terrestre estática
- Varrimento a Laser Terrestre Dinâmico
Com base no produto, o mercado de varrimento laser terrestre de Singapura está segmentado em varrimento laser terrestre estático e varrimento laser terrestre dinâmico.
Aplicação
- Arquitetura e BIM
- Engenharia Civil
- Topografia
- Investigação e Engenharia
- Perícia
- Outros
Com base na aplicação, o mercado de digitalização laser terrestre de Singapura está segmentado em arquitetura e BIM, engenharia civil, topografia, investigação e engenharia, ciência forense, entre outros.
Utilizador final
- Infraestrutura
- Petróleo e Gás
- Transporte e Logística
- Potência e Energia
- Mineração
- Silvicultura e Agricultura
- Educação
- Outros
Com base no utilizador final, o mercado de digitalização laser terrestre de Singapura está segmentado em infraestruturas, petróleo e gás, transporte e logística, energia e energia, mineração, silvicultura e agricultura, educação, entre outros .
Cenário competitivo e análise da quota de mercado de digitalização laser terrestre de Singapura
O panorama competitivo do mercado de digitalização laser terrestre de Singapura fornece detalhes dos concorrentes. Os detalhes incluídos incluem uma visão geral da empresa, finanças da empresa, receitas geradas, potencial de mercado, investimento em investigação e desenvolvimento e novas iniciativas de mercado. Os dados fornecidos acima estão apenas relacionados com o foco das empresas relacionado com o mercado de varrimento a laser terrestre de Singapura.
Alguns dos principais players que operam no mercado de digitalização laser terrestre de Singapura são a Leica Geosystems AG, Fugro, FARO, Carl Zeiss AG, CyberOptics, Shonan Design (S) Pte Ltd., Teledyne Geospatial., CREAFORM, Zener Meritime Solutions, Trimble Inc. , Intertek Group plc, Aries Marine, Artec e RIEGL Laser Measurement Systems GmbH, entre outros.
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Índice
1 INTRODUCTION
1.1 OBJECTIVES OF THE STUDY
1.2 MARKET DEFINITION
1.3 OVERVIEW OF SINGAPORE TERRESTRIAL LASER SCANNING MARKET
1.4 CURRENCY AND PRICING
1.5 LIMITATIONS
1.6 MARKETS COVERED
2 MARKET SEGMENTATION
2.1 MARKETS COVERED
2.2 GEOGRAPHICAL SCOPE
2.3 YEARS CONSIDERED FOR THE STUDY
2.4 DBMR TRIPOD DATA VALIDATION MODEL
2.5 PRIMARY INTERVIEWS WITH KEY OPINION LEADERS
2.6 DBMR MARKET POSITION GRID
2.7 MULTIVARIATE MODELING
2.8 RANGE TYPE TIMELINE CURVE
2.9 MARKET INDUSTRY COVERAGE GRID
2.1 SECONDARY SOURCES
2.11 ASSUMPTIONS
2.12 EXECUTIVE SUMMARY
3 PREMIUM INSIGHTS
3.1 PATENT ANALYSIS
3.1.1 LASER SCANNER
3.1.2 DISTANCE MEASURING DEVICE
3.1.3 HANDHELD LASER DISTANCE METER
3.1.4 COMBINED POINT CLOUD GENERATION USING A STATIONARY LASER SCANNER
3.1.5 REALITY CAPTURE WITH A LASER SCANNER AND A CAMERA
3.2 TECHNOLOGICAL TRENDS
3.2.1 ADOPTION OF MOBILE LIGHT DETECTION AND RANGING (LIDAR) SYSTEMS:
3.2.2 INTEGRATION OF LIDAR WITH IMAGERY MAPPING
3.2.3 CREATION OF 3D DIGITAL MODELS:
3.2.4 FOCUS ON MUNICIPAL OPERATIONS:
3.2.5 RECOGNITION OF INNOVATION AND ACHIEVEMENTS:
3.3 CASE STUDY
3.4 VALUE CHAIN ANALYSIS
3.5 PRICING ANALYSIS
3.6 LEICA GEOSYSTEMS SCANNER COMPARISON WITH PROMINENT BRANDS
3.7 REGULATORY STANDARDS AND GUIDELINES
4 MARKET OVERVIEW
4.1 DRIVERS
4.1.1 GROWING DEMAND FOR 3D MODELLING, MAPPING AND SURVEYING TECHNOLOGIES IN VARIOUS INDUSTRIES
4.1.2 RISING DEMAND OF TERRESTRIAL LASER SCANNING IN THE CONSTRUCTION AND INFRASTRUCTURE ACTIVITIES
4.1.3 INTEGRATION OF LASER SCANNING WITH INDUSTRY 4.0 TECHNOLOGIES SUCH AS IOT, AI AND CLOUD COMPUTING
4.1.4 GROWTH IN DIGITIZATION AND SMART CITIES DEVELOPMENT
4.2 RESTRAINTS
4.2.1 REGULATORY COMPLIANCE AND SAFETY STANDARDS
4.2.2 HIGH COST ASSOCIATED WITH TERRESTRIAL LASER SCANNING SYSTEMS AND ITS EQUIPMENTS
4.3 OPPORTUNITIES
4.3.1 TECHNOLOGICAL ADVANCEMENT IN TERRESTRIAL LASER SCANNING
4.3.2 RISE IN THE E-COMMERCE SECTOR OF SINGAPORE DRIVING THE SALES OF TERRESTRIAL LASER SCANNER
4.3.3 STRATEGIC PARTNERSHIP AND COLLABORATION FOR TERRESTRIAL LASER SCANNING
4.4 CHALLENGES
4.4.1 COMPLEXITY OF DATA PROCESSING AND DATA SECURITY
4.4.2 COMPETITION FROM OTHER ALTERNATIVE TECHNOLOGIES
5 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY RANGE TYPE
5.1 OVERVIEW
5.2 MID-RANGE
5.3 LONG RANGE
5.4 SHORT RANGE
6 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY OFFERING
6.1 OVERVIEW
6.2 HARDWARE
6.2.1 LASER SCANNERS
6.2.2 INERTIAL MEASUREMENT SYSTEMS
6.2.3 DIGITAL CAMERAS
6.2.4 GPS/POSITIONING SYSTEMS
6.2.5 INTERFACE DEVICES
6.2.6 WIRELESS LAN ANTENNAS
6.2.7 OTHERS
6.3 SERVICES
6.4 SOFTWARE
7 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY TYPE
7.1 OVERVIEW
7.2 PULSE BASED SCANNER
7.3 PHASE BASED SCANNER
7.4 OPTICAL TRIANGULATION SCANNER
7.5 MOBILE BASED SCANNER
8 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY PRODUCT
8.1 OVERVIEW
8.2 STATIC TERRESTRIAL LASER SCANNING
8.3 DYNAMIC TERRESTRIAL LASER SCANNING
9 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY APPLICATION
9.1 OVERVIEW
9.2 ARCHITECTURE & BIM
9.3 CIVIL ENGINEERING
9.4 SURVEYING
9.4.1 TOPOGRAPHICAL SURVEY
9.4.2 MINING SURVEY
9.4.3 MONITORING SURVEY
9.4.4 CITY MODELING SURVEY
9.4.5 FORESTRY & AGRICULTURAL SURVEY
9.4.6 ARCHAEOLOGICAL SURVEY
9.5 RESEARCH & ENGINEERING
9.6 FORENSICS
9.7 OTHERS
10 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY END USER
10.1 OVERVIEW
10.2 INFRASTRUCTURE
10.2.1 HARDWARE
10.2.2 SERVICES
10.2.3 SOFTWARE
10.3 OIL & GAS
10.3.1 HARDWARE
10.3.2 SERVICES
10.3.3 SOFTWARE
10.4 TRANSPORTATION & LOGISTICS
10.4.1 HARDWARE
10.4.2 SERVICES
10.4.3 SOFTWARE
10.5 POWER & ENERGY
10.5.1 HARDWARE
10.5.2 SERVICES
10.5.3 SOFTWARE
10.6 MINING
10.6.1 HARDWARE
10.6.2 SERVICES
10.6.3 SOFTWARE
10.7 FORESTRY & AGRICULTURE
10.7.1 HARDWARE
10.7.2 SERVICES
10.7.3 SOFTWARE
10.8 EDUCATION
10.8.1 HARDWARE
10.8.2 SERVICES
10.8.3 SOFTWARE
10.9 OTHERS
10.9.1 HARDWARE
10.9.2 SERVICES
10.9.3 SOFTWARE
11 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, COMPANY LANDSCAPE
11.1 COMPANY SHARE ANALYSIS: SINGAPORE
12 SWOT ANALYSIS
13 COMPANY PROFILE
13.1 LEICA GEOSYSTEMS AG - PART OF HEXAGON
13.1.1 COMPANY SNAPSHOT
13.1.2 REVENUE ANALYSIS
13.1.3 PRODUCT PORTFOLIO
13.1.4 RECENT DEVELOPMENTS
13.2 FUGRO
13.2.1 COMPANY SNAPSHOT
13.2.2 REVENUE ANALYSIS
13.2.3 SERVICE PORTFOLIO
13.2.4 RECENT DEVELOPMENTS
13.3 FARO
13.3.1 COMPANY SNAPSHOT
13.3.2 REVENUE ANALYSIS
13.3.3 SERVICE PORTFOLIO
13.3.4 RECENT DEVELOPMENTS
13.4 CARL ZEISS AG
13.4.1 COMPANY SNAPSHOT
13.4.2 PRODUCT PORTFOLIO
13.4.3 RECENT DEVELOPMENTS
13.5 CYBEROPTICS
13.5.1 COMPANY SNAPSHOT
13.5.2 PRODUCT PORTFOLIO
13.5.3 RECENT DEVELOPMENTS
13.6 ARIES E-SOLUTIONS
13.6.1 COMPANY SNAPSHOT
13.6.2 PRODUCT PORTFOLIO
13.6.3 RECENT DEVELOPMENTS
13.7 ARTEC EUROPE
13.7.1 COMPANY SNAPSHOT
13.7.2 PRODUCT PORTFOLIO
13.7.3 RECENT DEVELOPMENTS
13.8 CREAFORM (A SUBSIDIARY OF AMETEK)
13.8.1 COMPANY SNAPSHOT
13.8.2 REVENUE ANALYSIS
13.8.3 PRODUCT PORTFOLIO
13.8.4 RECENT DEVELOPMENTS
13.9 INTERTEK GROUP PLC
13.9.1 COMPANY SNAPSHOT
13.9.2 REVENUE ANALYSIS
13.9.3 SERVICE PORTFOLIO
13.9.4 RECENT DEVELOPMENTS
13.1 RIEGL LASER MEASUREMENT SYSTEMS GMBH
13.10.1 COMPANY SNAPSHOT
13.10.2 PRODUCT PORTFOLIO
13.10.3 RECENT DEVELOPMENTS
13.11 SHONAN DESIGN (S) PTE LTD.
13.11.1 COMPANY SNAPSHOT
13.11.2 PRODUCT PORTFOLIO
13.11.3 RECENT DEVELOPMENTS
13.12 TELEDYNE GEOSPATIAL (A SUBSIDIARY OF TELEDYNE TECHNOLOGIES)
13.12.1 COMPANY SNAPSHOT
13.12.2 REVENUE ANALYSIS
13.12.3 PRODUCT PORTFOLIO
13.12.4 RECENT DEVELOPMENTS
13.13 TRIMBLE INC.
13.13.1 COMPANY SNAPSHOT
13.13.2 REVENUE ANALYSIS
13.13.3 PRODUCT PORTFOLIO
13.13.4 RECENT DEVELOPMENTS
13.14 ZENER MERITIME SOLUTIONS
13.14.1 COMPANY SNAPSHOT
13.14.2 SERVICE PORTFOLIO
13.14.3 RECENT DEVELOPMENTS
14 QUESTIONNAIRE
15 RELATED REPORTS
Lista de Tabela
TABLE 1 PRICE RANGE OF TERRESTRIAL LASER SCANNERS
TABLE 2 PRICING RANGE OF TERRESTRIAL LASER SCANNERS
TABLE 3 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY RANGE TYPE, 2022-2031 (USD THOUSAND)
TABLE 4 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY OFFERING, 2022-2031 (USD THOUSAND)
TABLE 5 SINGAPORE HARDWARE IN TERRESTRIAL LASER SCANNING MARKET, BY TYPE, 2022-2031 (USD THOUSAND)
TABLE 6 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY TYPE, 2022-2031 (USD THOUSAND)
TABLE 7 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY PRODUCT, 2022-2031 (USD THOUSAND)
TABLE 8 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY APPLICATION, 2022-2031 (USD THOUSAND)
TABLE 9 SINGAPORE SURVEYING IN TERRESTRIAL LASER SCANNING MARKET, BY TYPE, 2022-2031 (USD THOUSAND)
TABLE 10 SINGAPORE TERRESTRIAL LASER SCANNING MARKET, BY END USER, 2022-2031 (USD THOUSAND)
TABLE 11 SINGAPORE INFRASTRUCTURE IN TERRESTRIAL LASER SCANNING MARKET, BY OFFERING, 2022-2031 (USD THOUSAND)
TABLE 12 SINGAPORE OIL & GAS IN TERRESTRIAL LASER SCANNING MARKET, BY OFFERING, 2022-2031 (USD THOUSAND)
TABLE 13 SINGAPORE TRANSPORTATION & LOGISTICS IN TERRESTRIAL LASER SCANNING MARKET, BY OFFERING, 2022-2031 (USD THOUSAND)
TABLE 14 SINGAPORE POWER & ENERGY IN TERRESTRIAL LASER SCANNING MARKET, BY OFFERING, 2022-2031 (USD THOUSAND)
TABLE 15 SINGAPORE MINING IN TERRESTRIAL LASER SCANNING MARKET, BY OFFERING, 2022-2031 (USD THOUSAND)
TABLE 16 SINGAPORE FORESTRY & AGRICULTURE IN TERRESTRIAL LASER SCANNING MARKET, BY OFFERING, 2022-2031 (USD THOUSAND)
TABLE 17 SINGAPORE EDUCATION IN TERRESTRIAL LASER SCANNING MARKET, BY OFFERING, 2022-2031 (USD THOUSAND)
TABLE 18 SINGAPORE OTHERS IN TERRESTRIAL LASER SCANNING MARKET, BY OFFERING, 2022-2031 (USD THOUSAND)
Lista de Figura
FIGURE 1 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: SEGMENTATION
FIGURE 2 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: DATA TRIANGULATION
FIGURE 3 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: DROC ANALYSIS
FIGURE 4 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: REGIONAL VS COUNTRY MARKET ANALYSIS
FIGURE 5 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: COMPANY RESEARCH ANALYSIS
FIGURE 6 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: INTERVIEW DEMOGRAPHICS
FIGURE 7 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: DBMR MARKET POSITION GRID
FIGURE 8 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: SEGMENTATION
FIGURE 9 GROWING DEMAND FOR 3D MODELLING, MAPPING AND SURVEYING TECHNOLOGIES IN VARIOUS INDUSTRIES IS EXPECTED TO DRIVE THE MARKET GROWTH IN THE FORECAST PERIOD 2024-2031
FIGURE 10 MID RANGE IS EXPECTED TO ACCOUNT FOR THE LARGEST SHARE OF THE SINGAPORE TERRESTRIAL LASER SCANNING MARKET IN 2024 & 2031
FIGURE 11 VALUE CHAIN FOR TERRESTRIAL LASER SCANNING MARKET
FIGURE 12 BRAND COMPARISON
FIGURE 13 DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES OF THE SINGAPORE TERRESTRIAL LASER SCANNING MARKET
FIGURE 14 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: BY RANGE TYPE, 2023
FIGURE 15 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: BY OFFERING, 2023
FIGURE 16 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: BY TYPE, 2023
FIGURE 17 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: BY PRODUCT, 2023
FIGURE 18 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: BY APPLICATION, 2023
FIGURE 19 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: BY END USER, 2023
FIGURE 20 SINGAPORE TERRESTRIAL LASER SCANNING MARKET: COMPANY SHARE 2023 (%)
Metodologia de Investigação
A recolha de dados e a análise do ano base são feitas através de módulos de recolha de dados com amostras grandes. A etapa inclui a obtenção de informações de mercado ou dados relacionados através de diversas fontes e estratégias. Inclui examinar e planear antecipadamente todos os dados adquiridos no passado. Da mesma forma, envolve o exame de inconsistências de informação observadas em diferentes fontes de informação. Os dados de mercado são analisados e estimados utilizando modelos estatísticos e coerentes de mercado. Além disso, a análise da quota de mercado e a análise das principais tendências são os principais fatores de sucesso no relatório de mercado. Para saber mais, solicite uma chamada de analista ou abra a sua consulta.
A principal metodologia de investigação utilizada pela equipa de investigação do DBMR é a triangulação de dados que envolve a mineração de dados, a análise do impacto das variáveis de dados no mercado e a validação primária (especialista do setor). Os modelos de dados incluem grelha de posicionamento de fornecedores, análise da linha de tempo do mercado, visão geral e guia de mercado, grelha de posicionamento da empresa, análise de patentes, análise de preços, análise da quota de mercado da empresa, normas de medição, análise global versus regional e de participação dos fornecedores. Para saber mais sobre a metodologia de investigação, faça uma consulta para falar com os nossos especialistas do setor.
Personalização disponível
A Data Bridge Market Research é líder em investigação formativa avançada. Orgulhamo-nos de servir os nossos clientes novos e existentes com dados e análises que correspondem e atendem aos seus objetivos. O relatório pode ser personalizado para incluir análise de tendências de preços de marcas-alvo, compreensão do mercado para países adicionais (solicite a lista de países), dados de resultados de ensaios clínicos, revisão de literatura, mercado remodelado e análise de base de produtos . A análise de mercado dos concorrentes-alvo pode ser analisada desde análises baseadas em tecnologia até estratégias de carteira de mercado. Podemos adicionar quantos concorrentes necessitar de dados no formato e estilo de dados que procura. A nossa equipa de analistas também pode fornecer dados em tabelas dinâmicas de ficheiros Excel em bruto (livro de factos) ou pode ajudá-lo a criar apresentações a partir dos conjuntos de dados disponíveis no relatório.
