This data results from the NRSC's ongoing 1:25000 UK Aerial Photography Programme; a project designed to maintain an up to date aerial coverage of the United Kingdom, covering the complete area at least every 5 years.

The Orthoview product has been generated from vertical aerial photographs. The photographs have been orthorectified (to correct for distortion towards their edges) then mosaiced to provide a seamless dataset for the UK at a 0.5 metre resolution. This allows imagery for any area of interest to be generated without issues associated with scenes falling across multiple photographs.

In addition to its prime application in photogrammetric mapping (from updating and contouring existing maps to preparing large scale engineering plans), the data is used for environmental studies, general planning, land use and land capability, soils, pollution, forestry, mining and quarrying, housing and leisure development, agriculture, geology, water, transport and civil engineering, boundary disputes, public enquiries, etc.

The data is stored in digital form and can be supplied on either Exabyte, CD-ROM or CCT. Various hard copy forms can also be generated, including posters and photographic positives/negatives. Price lists and further information are available from the National Remote Sensing Centre (NRSC).

Note: All photography is flown to RICS Specification for Aerial Photography Issue III, see references.

Aerial Mapping System Market Outlook

The global aerial mapping system market size is estimated to reach USD 4.5 billion in 2023 and is projected to grow to USD 10.2 billion by 2032, at a compound annual growth rate (CAGR) of 9.7% during the forecast period. The primary growth drivers for this market include advancements in geospatial technology, rising demand for accurate and cost-effective location-based services, and increased governmental and commercial investments in infrastructure and urban planning.

One of the most significant growth factors in the aerial mapping system market is the rapid technological advancements in geospatial data collection and processing. Innovations in hardware, such as high-resolution cameras and LiDAR sensors, combined with sophisticated software algorithms for data analysis, have dramatically improved the accuracy and efficiency of aerial mapping. These advancements have made it possible to capture highly detailed and precise geospatial data, which is essential for a wide range of applications, from urban planning to environmental monitoring.

Increasing demand for cost-effective and accurate location-based services is another crucial factor driving market growth. As industries such as agriculture, construction, and disaster management become more reliant on precise geospatial information, the need for advanced aerial mapping systems has surged. These systems offer a significant advantage over traditional ground-based survey methods by providing comprehensive, real-time data that can be used for various decision-making processes. This trend is expected to continue as more sectors recognize the value of accurate geospatial data.

Additionally, substantial investments from both governmental and commercial entities in infrastructure and urban planning are fueling the growth of the aerial mapping system market. Governments worldwide are increasingly adopting aerial mapping technologies for city planning, infrastructure development, and environmental monitoring. In the commercial sector, industries such as real estate, mining, and utilities are leveraging aerial mapping systems for site assessment, resource management, and operational efficiency. These investments are expected to drive the market further, as they underscore the critical role of aerial mapping in modern infrastructure development.

From a regional perspective, North America holds a significant share of the aerial mapping system market, primarily due to the presence of major technology companies and extensive governmental initiatives focused on infrastructure and environmental monitoring. However, the Asia Pacific region is expected to witness the highest growth rate during the forecast period, driven by rapid urbanization, infrastructural development, and increasing adoption of advanced technologies in countries like China and India.

Component Analysis

The aerial mapping system market is segmented by components into hardware, software, and services. Hardware components, such as cameras, sensors, and drones, are essential for collecting high-resolution aerial imagery and data. The advancements in these hardware components have significantly enhanced the efficiency and accuracy of aerial mapping systems. High-resolution cameras and LiDAR sensors, for example, provide detailed and precise geospatial data, which is crucial for various applications, including urban planning and environmental monitoring.

Software components play a pivotal role in processing and analyzing the data collected by hardware. Sophisticated software algorithms can convert raw data into actionable insights, making it easier for users to interpret and utilize the information. The development of advanced data processing and analysis software has been a major driver for the market, as it allows for the efficient handling of large volumes of geospatial data. This software is essential for generating accurate maps, 3D models, and other valuable outputs from aerial imagery.

Services, which include data collection, processing, analysis, and consulting, are also a significant segment of the aerial mapping system market. These services are often provided by specialized companies that have the expertise and equipment to conduct aerial surveys and produce high-quality geospatial data. The demand for these services is driven by the need for accurate and timely information for various applications, such as disaster management, environmental monitoring, and infrastructure development. Service providers play a crucial role in the market by offering end-to-end solutions, from dat

Above-ground utilities-related planimetric points digitized from aerial imagery. This is not an authoritative source for utility provider data - it is intended for reference only. Data is not regularly updated - data last updated in 2022.Other planimetric datasets available:Milwaukee County Planimetric Environmental PointsMilwaukee County Planimetric Water PolygonsMilwaukee County Planimetric Water LinesMilwaukee County Planimetric Structure PolygonsMilwaukee County Planimetric Utility PointsMilwaukee County Planimetric Transportation PolygonsMilwaukee County Planimetric Railroad SignsFor the entire Planimetric dataset, users can download the Planimetric database: Planimetric Download Note: download will begin when link is clicked

Aerial Imaging and Mapping Market Outlook

The aerial imaging and mapping market size stood at approximately USD 2.8 billion in 2023 and is anticipated to grow significantly, reaching a market size of around USD 6.1 billion by 2032, exhibiting a robust CAGR of 9.1% during the forecast period. This promising growth trajectory is primarily driven by the increasing demand for high-resolution aerial imagery and mapping solutions across various applications such as agriculture, urban planning, and infrastructure development. The growth is also supported by advancements in drone technology and the increasing integration of artificial intelligence and machine learning in mapping processes, which enhance the accuracy and utility of aerial maps.

One of the primary growth factors in the aerial imaging and mapping market is the widespread adoption of drones and unmanned aerial vehicles (UAVs) for various commercial applications. With their ability to capture high-resolution images quickly and efficiently, drones have become invaluable tools in sectors like agriculture, where they are used for monitoring crop health and optimizing irrigation. Similarly, in the construction and infrastructure sector, drones provide detailed topographical data, aiding in the planning and design phase of projects. The efficiency and cost-effectiveness of drones compared to traditional manned aircraft have significantly contributed to the expansion of the market.

The increasing importance of geographic information systems (GIS) and spatial analytics in decision-making processes is another crucial driver of market growth. Organizations across different sectors are harnessing the power of GIS to analyze and visualize spatial data, which is immensely useful in environmental monitoring, urban planning, and disaster management. The integration of aerial imagery with GIS platforms allows for more accurate and insightful analyses, driving the demand for aerial imaging services. Moreover, the advent of cloud-based GIS solutions has further facilitated the accessibility and usability of aerial mapping data, making it easier for organizations to leverage this technology for strategic planning and operational efficiency.

Technological advancements in imaging sensors and software are also playing a pivotal role in the growth of the aerial imaging and mapping market. The development of high-resolution cameras and advanced sensors capable of capturing detailed images from varying altitudes has expanded the applicability of aerial mapping. Additionally, sophisticated software solutions that process and analyze aerial data are enabling users to derive actionable insights with greater accuracy and speed. The integration of machine learning algorithms for image recognition and analysis further enhances the value proposition of aerial imaging solutions, making them indispensable tools for a wide range of industries.

The integration of Digital Elevation Model (DEM) technology has significantly enhanced the capabilities of aerial imaging and mapping. DEMs provide a 3D representation of a terrain's surface, offering detailed insights into elevation changes and topographical features. This technology is particularly beneficial in applications such as flood risk assessment, where understanding the terrain's elevation is crucial for predicting water flow and potential flood zones. By incorporating DEMs into aerial mapping processes, organizations can achieve more accurate and comprehensive analyses, supporting better decision-making in urban planning, infrastructure development, and environmental management. The ability to visualize and analyze elevation data in conjunction with high-resolution imagery further strengthens the utility of aerial mapping solutions across various sectors.

Regionally, North America currently dominates the aerial imaging and mapping market, attributed to the presence of major market players and the early adoption of advanced technologies in the region. The market here is supported by a strong regulatory framework and substantial investments in research and development. However, the Asia Pacific region is expected to witness the highest growth rate during the forecast period, driven by rapid urbanization and infrastructural development in countries like China and India. Government initiatives to promote the use of drones and UAVs for various applications are also contributing to market expansion in this region. Meanwhile, Europe remains a significant market due to its advanced technological infrastructure and the presence of key industries utilizing

This deep learning model is used to extract roads from high resolution (30 – 50 cm) aerial/satellite imagery. Road layers are useful in preparing base maps and analysis workflows for urban planning and development, change detection, infrastructure planning, and a variety of other applications.

Digitizing roads from imagery is a time-consuming task and is commonly done by digitizing features manually. Deep learning models are highly capable of learning these complex semantics and can produce superior results. Use this deep learning model to automate this process and reduce the time and effort required for acquiring road layers.Using the modelFollow the guide to use the model. Before using this model, ensure that the supported deep learning libraries are installed. For more details, check Deep Learning Libraries Installer for ArcGIS.Fine-tuning the modelThis model can be fine-tuned using the Train Deep Learning Model tool. Follow the guide to fine-tune this model.Input8-bit, 3-band high resolution (30-50 cm) aerial/satellite imagery.OutputBinary raster representing road and non-road classes.Applicable geographiesThe model is expected to work well in North America.Model architectureThe model uses the MultiTaskRoadExtractor model architecture implemented in ArcGIS API for Python.Accuracy metricsThe model has an mIOU score of 0.65.Training dataThis model has been trained on an Esri proprietary road extraction dataset.Sample resultsHere are a few results from the model.

Satellite image map of Larsemann Hills, Princess Elizabeth Land, Antarctica. This map (edition 2) was produced for the Australian Antarctic Division by AUSLIG (now Geoscience Australia) Commercial, in Australia, in 1990. The map is at a scale of 1:25000, and was produced from a multispectral SPOT 1 - HRV 2 scene (WRS K278 J495), acquired 19 February 1988. It is projected on a Transverse Mercator projection, and shows glaciers/ice shelves, stations/bases, and gives some historical text information. The map has both geographical and UTM co-ordinates.

Part of the Nova Scotia Topographic Database (NSTDB), the utilities theme layer is updated and maintained from aerial photography, and verified with field inspections. Pipelines, Tanks and electrical substations are collected among other types of features. Utility feature codes and their descriptions are provided with the download in a NSTDB feature code table. Data download also available via GeoNova: https://nsgi.novascotia.ca/WSF_DDS/DDS.svc/DownloadFile?tkey=fhrTtdnDvfytwLz6&id=17 Map service view also available via GeoNova: https://nsgiwa.novascotia.ca/arcgis/rest/services/BASE/BASE_NSTDB_10k_Utilities_UT83/MapServer?f=jsapi

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GIS In Utility Industry Market Size 2025-2029

The gis in utility industry market size is forecast to increase by USD 3.55 billion, at a CAGR of 19.8% between 2024 and 2029.

The utility industry's growing adoption of Geographic Information Systems (GIS) is driven by the increasing need for efficient and effective infrastructure management. GIS solutions enable utility companies to visualize, analyze, and manage their assets and networks more effectively, leading to improved operational efficiency and customer service. A notable trend in this market is the expanding application of GIS for water management, as utilities seek to optimize water distribution and reduce non-revenue water losses. However, the utility GIS market faces challenges from open-source GIS software, which can offer cost-effective alternatives to proprietary solutions. These open-source options may limit the functionality and support available to users, necessitating careful consideration when choosing a GIS solution. To capitalize on market opportunities and navigate these challenges, utility companies must assess their specific needs and evaluate the trade-offs between cost, functionality, and support when selecting a GIS provider. Effective strategic planning and operational execution will be crucial for success in this dynamic market.

What will be the Size of the GIS In Utility Industry Market during the forecast period?

Explore in-depth regional segment analysis with market size data - historical 2019-2023 and forecasts 2025-2029 - in the full report.
Request Free SampleThe Global Utilities Industry Market for Geographic Information Systems (GIS) continues to evolve, driven by the increasing demand for advanced data management and analysis solutions. GIS services play a crucial role in utility infrastructure management, enabling asset management, data integration, project management, demand forecasting, data modeling, data analytics, grid modernization, data security, field data capture, outage management, and spatial analysis. These applications are not static but rather continuously unfolding, with new patterns emerging in areas such as energy efficiency, smart grid technologies, renewable energy integration, network optimization, and transmission lines. Spatial statistics, data privacy, geospatial databases, and remote sensing are integral components of this evolving landscape, ensuring the effective management of utility infrastructure. Moreover, the adoption of mobile GIS, infrastructure planning, customer service, asset lifecycle management, metering systems, regulatory compliance, GIS data management, route planning, environmental impact assessment, mapping software, GIS consulting, GIS training, smart metering, workforce management, location intelligence, aerial imagery, construction management, data visualization, operations and maintenance, GIS implementation, and IoT sensors is transforming the industry. The integration of these technologies and services facilitates efficient utility infrastructure management, enhancing network performance, improving customer service, and ensuring regulatory compliance. The ongoing evolution of the utilities industry market for GIS reflects the dynamic nature of the sector, with continuous innovation and adaptation to meet the changing needs of utility providers and consumers.

How is this GIS In Utility Industry Industry segmented?

The gis in utility industry industry research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD million' for the period 2025-2029, as well as historical data from 2019-2023 for the following segments. ProductSoftwareDataServicesDeploymentOn-premisesCloudGeographyNorth AmericaUSCanadaEuropeFranceGermanyRussiaMiddle East and AfricaUAEAPACChinaIndiaJapanSouth AmericaBrazilRest of World (ROW).

By Product Insights

The software segment is estimated to witness significant growth during the forecast period.In the utility industry, Geographic Information Systems (GIS) play a pivotal role in optimizing operations and managing infrastructure. Utilities, including electricity, gas, water, and telecommunications providers, utilize GIS software for asset management, infrastructure planning, network performance monitoring, and informed decision-making. The GIS software segment in the utility industry encompasses various solutions, starting with fundamental GIS software that manages and analyzes geographical data. Additionally, utility companies leverage specialized software for field data collection, energy efficiency, smart grid technologies, distribution grid design, renewable energy integration, network optimization, transmission lines, spatial statistics, data privacy, geospatial databases, GIS services, project management, demand forecasting, data modeling, data analytics, grid modernization, data security, field data capture, outage ma

This map layers shows areas in Columbus where the installation of new overhead utilities is contrary to City legislation. Existing overhead utilities do not have to be removed in these areas.

Germany Satellite Imagery Services Market size was valued at USD 1.43 Billion in 2024 and is expected to reach USD 3.28 Billion by 2032, growing at a CAGR of 10.9% from 2026 to 2032.Germany Satellite Imagery Services Market: Definition/ OverviewSatellite imagery services involve the use of satellite technology to capture detailed images of the Earth's surface. These services use various types of satellites equipped with advanced sensors to collect data across different spectrums, such as visible light, infrared, and radar. The resulting imagery is used to monitor environmental changes, track weather patterns, and provide accurate mapping and geospatial data for various industries.Application of satellite imagery services is vast and spans multiple sectors. In agriculture, it helps monitor crop health and land use, while in environmental conservation, it tracks deforestation and natural disasters. These services are also critical in urban planning, disaster response, and military operations, providing real-time or historical images for decision-making. Additionally, satellite imagery plays a crucial role in climate studies, helping scientists track global warming trends and the impact of climate change on ecosystems.

This data results from the NRSC's ongoing 1:25000 UK Aerial Photography Programme; a project designed to maintain an up to date aerial coverage of the United Kingdom, covering the complete area at least every 5 years.

These vertical aerial photographs are taken with a large camera mounted in the floor of an aeroplane flying in a series of pre-planned flight lines. The images overlap by 60% along the flight line to allow for stereoscopic (3D) viewing. There is a 25% overlap between flight lines.

In addition to their prime application in photogrammetric mapping (from updating and contouring existing maps to preparing large scale engineering plans), air photos are used for environmental studies, general planning, land use and land capability, soils, pollution, forestry, mining and quarrying, housing and leisure development, agriculture, geology, water, transport and civil engineering, boundary disputes, public enquiries, etc.

The data is stored mainly as colour photographic negatives and can be supplied as both digital and photographic products (positive or negative). To find out what imagery is available for a specific area, a cover search can be performed free of charge. Price lists and further information about cover searches are available, on request, from the National Remote Sensing Centre (NRSC).

Note: All photography is flown to RICS Specification for Aerial Photography Issue III, see references.

This archive contains aerial photography of UK boroughs (towns/cities) and counties. The scale of the photographs depends to some extent on the borough/county, but is predominantly 1:5000 for towns/cities and 1:10000 for complete counties.

These vertical aerial photographs are taken with a large camera mounted in the floor of an aeroplane flying in a series of pre-planned flight lines. The images overlap by 60% along the flight line to allow for stereoscopic (3D) viewing. There is a 25% overlap between flight lines.

In addition to their prime application in photogrammetric mapping (from updating and contouring existing maps to preparing large scale engineering plans), air photos are used for environmental studies, general planning, land use and land capability, soils, pollution, forestry, mining and quarrying, housing and leisure development, agriculture, geology, water, transport and civil engineering, boundary disputes, public enquiries, etc.

The data is stored mainly as colour photographic negatives and can be supplied as both digital and photographic products (positive or negative). To find out what imagery is available for a specific area, a cover search can be performed free of charge. Price lists and further information about cover searches are available, on request, from the National Remote Sensing Centre (NRSC).

Note: All photography is flown to RICS Specification for Aerial Photography Issue III, see references.

According to Cognitive Market Research, the global Aerial Imaging Market size will be USD 3,642.8 million in 2025. It will expand at a compound annual growth rate (CAGR) of 16.80% from 2025 to 2033.

North America held the major market share for more than 37% of the global revenue with a market size of USD 1056.41 million in 2025 and will grow at a compound annual growth rate (CAGR) of 14.6% from 2025 to 2033.
Europe accounted for a market share of over 29% of the global revenue with a market size of USD 874.27 million.
APAC held a market share of around 24% of the global revenue with a market size of USD 1347.84 million in 2025 and will grow at a compound annual growth rate (CAGR) of 18.8% from 2025 to 2033.
South America has a market share of more than 3.8% of the global revenue with a market size of USD 138.43 million in 2025 and will grow at a compound annual growth rate (CAGR) of 15.8% from 2025 to 2033.
Middle East had a market share of around 4% of the global revenue and was estimated at a market size of USD 145.71 million in 2025 and will grow at a compound annual growth rate (CAGR) of 16.1% from 2025 to 2033.
Africa had a market share of around 2.2% of the global revenue and was estimated at a market size of USD 80.14 million in 2025 and will grow at a compound annual growth rate (CAGR) of 16.5% from 2025 to 2033.
Geospatial Technology is the fastest growing segment of the Aerial Imaging Market industry

Market Dynamics of Aerial Imaging Market

Key Drivers for Aerial Imaging Market

Increased Use in Urban Planning and Infrastructure Development Is Expected To Boost Market Growth

Aerial imaging has become an indispensable tool in urban planning and infrastructure development, enabling planners, engineers, and government agencies to visualize large geographic areas in high detail. With the rise of smart city initiatives and rapid urban expansion, decision-makers require up-to-date, accurate spatial data to plan road networks, utilities, residential zones, and public spaces. Aerial imagery provides real-time insights into land use patterns, terrain features, and existing infrastructure conditions, allowing for better-informed decisions and early identification of potential issues such as flood-prone zones or congestion hotspots. In August 2024, the Union Cabinet approved 12 additional greenfield cities spanning ~25,975 acres with a combined investment of ?28,602?crore and 939,416 potential jobs. Furthermore, during construction and development phases, aerial imaging helps monitor project progress, assess compliance with designs, and detect deviations or safety risks without disrupting work on the ground.

https://www.pib.gov.in/PressReleseDetailm.aspx?PRID=2086347”/

Advancements in Camera and Sensor Technology To Boost Market Growth

Advancements in camera and sensor technology have played a pivotal role in transforming the aerial imaging market, enabling more accurate, detailed, and efficient data capture than ever before. Modern aerial imaging systems now feature ultra-high-resolution cameras capable of capturing images with sub-centimeter accuracy, significantly enhancing the quality of topographic and geographic data. These innovations have opened new possibilities for industries like precision agriculture, urban planning, construction monitoring, and environmental analysis. Multispectral and hyperspectral sensors are now being integrated into aerial platforms, allowing users to capture data beyond the visible spectrum. This capability is particularly valuable in applications such as vegetation health analysis, mineral exploration, and water quality monitoring. In addition, LiDAR (Light Detection and Ranging) sensors are increasingly being deployed on drones and aircraft to generate high-density, 3D elevation models, even in forested or rugged terrains where traditional imaging struggles.

Restraint Factor for the Aerial Imaging Market

High Equipment and Operational Costs, Will Limit Market Growth

One of the major restraints facing the aerial imaging market is the high cost associated with equipment procurement and operational deployment. Advanced aerial imaging systems require investment in high-resolution cameras, multispectral or hyperspectral sensors, LiDAR units, and sophisticated GPS and inertial navigation systems. These components, especially when integrated into crewed aircraft or high-end drones, can significantly increase the upfront capi...

Part of the Nova Scotia Topographic Database (NSTDB), the utilities theme layer is updated and maintained from aerial photography, and verified with field inspections. Pipelines, Tanks and electrical substations are collected among other types of features. Utility feature codes and their descriptions are provided with the download in a NSTDB feature code table. Data download also available via GeoNova: https://nsgi.novascotia.ca/WSF_DDS/DDS.svc/DownloadFile?tkey=fhrTtdnDvfytwLz6&id=17 Map service view also available via GeoNova: https://nsgiwa.novascotia.ca/arcgis/rest/services/BASE/BASE_NSTDB_10k_Utilities_UT83/MapServer?f=jsapi

Polygon Feature Class - It was originally captured as part of the 1995 Aerial Imagery project completed by Kimball.

Commercial Mapping Services Market Outlook

The global commercial mapping services market size was valued at approximately USD 17.5 billion in 2023 and is projected to reach around USD 31.7 billion by 2032, growing at a compound annual growth rate (CAGR) of 6.7% during the forecast period from 2024 to 2032. The market growth is primarily driven by increasing urbanization, advancements in geospatial technologies, and the growing demand for infrastructure development and environmental monitoring.

A significant growth factor for the commercial mapping services market is the rapid urbanization taking place worldwide. As cities expand and new urban areas are developed, the need for accurate and up-to-date maps becomes crucial for urban planning, infrastructure development, and efficient resource management. This expansion necessitates comprehensive mapping services to plan roads, utilities, residential areas, and commercial spaces effectively. Additionally, governments and private sectors are increasingly investing in smart city initiatives, further driving the demand for precise mapping services to ensure seamless integration of various urban components.

Technological advancements and innovations in geospatial technologies, such as Geographic Information Systems (GIS), remote sensing, and satellite imagery, are propelling the commercial mapping services market. These technologies enable more accurate and detailed mapping, allowing for better decision-making and planning. The integration of artificial intelligence (AI) and machine learning (ML) with geospatial technologies has also enhanced the ability to analyze and interpret spatial data, providing deeper insights and predictive capabilities. Consequently, industries such as construction, transportation, and utilities are increasingly adopting these advanced mapping solutions to optimize their operations and improve efficiency.

Environmental monitoring and disaster management applications are also contributing to the growth of the commercial mapping services market. With rising concerns about climate change, natural disasters, and environmental degradation, there is a growing need for accurate mapping and monitoring of environmental conditions. Commercial mapping services provide essential data for tracking changes in land use, forest cover, water bodies, and other environmental parameters. This information is vital for developing sustainable policies, managing natural resources, and responding effectively to natural disasters. Governments, environmental organizations, and research institutions rely heavily on commercial mapping services for these purposes.

The emergence of UTM Service (Unmanned Traffic Management) is becoming increasingly relevant in the commercial mapping services market. As the use of drones and unmanned aerial vehicles (UAVs) expands across various sectors, the need for efficient traffic management systems is paramount. UTM Service facilitates the safe and organized integration of drones into national airspace systems, ensuring that they can operate alongside manned aircraft without causing disruptions. This service is crucial for applications such as aerial mapping, where drones are used to capture high-resolution images and data. By providing real-time traffic information and flight planning capabilities, UTM Service enhances the efficiency and safety of drone operations, making it an indispensable component of modern mapping services.

Regionally, North America is expected to hold a significant share of the commercial mapping services market, driven by the presence of major technology companies, high adoption of advanced geospatial technologies, and substantial investments in infrastructure development. Europe follows closely, with a strong emphasis on environmental sustainability and smart city initiatives. The Asia Pacific region is anticipated to witness the highest growth rate due to rapid urbanization, infrastructure expansion, and increasing government initiatives for smart cities. Latin America and the Middle East & Africa are also expected to contribute to market growth, albeit at a slower pace, as these regions gradually adopt advanced mapping technologies and invest in infrastructure projects.

Service Type Analysis

The geospatial mapping segment is a major contributor to the commercial mapping services market. Geospatial mapping involves the collection and analysis of geographic data to create detailed maps and models of the Earth's surface. This segment caters

This archive contains 1:10000 scale vertical aerial photography scenes of Nigeria.

These vertical aerial photographs are taken with a large camera mounted in the floor of an aeroplane flying in a series of pre-planned flight lines. The images overlap by 60% along the flight line to allow for stereoscopic (3D) viewing. There is a 25% overlap between flight lines.

In addition to their prime application in photogrammetric mapping (from updating and contouring existing maps to preparing large scale engineering plans), air photos are used for environmental studies, general planning, land use and land capability, soils, pollution, forestry, mining and quarrying, housing and leisure development, agriculture, geology, water, transport and civil engineering, boundary disputes, public enquiries, etc.

The data is stored mainly as colour photographic negatives and can be supplied as both digital and photographic products (positive or negative). To find out what imagery is available for a specific area, a cover search can be performed free of charge. Price lists and further information about cover searches are available, on request, from the National Remote Sensing Centre (NRSC).

Note: All photography is flown to RICS Specification for Aerial Photography Issue III, see references.

description: The Electric Substation geospatial data layer contains point features representing transmission substations and some distribution substations in California. These substations are fed by electric transmission lines and are used to step-up and step-down the voltage of electricity being carried by the lines, or simply to connect together various lines and maintain reliability of supply. These substations can be located on the surface within fenced enclosures, within special purpose buildings, on rooftops (in urban environments), or underground. A substation feature is also used to represent a location where one transmission line "taps" into another. The transmission line, substation and power plant mapping database were started in 1990 by the CEC GIS staff. The final project was completed in October 2010. The enterprise GIS system on CEC's critical infrastructure database was lead by GIS Unit in November 2014 and was implemented in May 2016. The data was derived from utility companies and USGS topographic map, Some of the data was rectified from GE and Platts substation geospatial data. The sources for the substation point digitizing are including sub-meter resolution of Digital Globe, Bing, Google, ESRI and NAIP aerial imageries, with scale at least 1:10,000. Occasionally, USGS Topographic map, Google Street View and Bing Bird's Eye are used to verify the precise location of a facility.; abstract: The Electric Substation geospatial data layer contains point features representing transmission substations and some distribution substations in California. These substations are fed by electric transmission lines and are used to step-up and step-down the voltage of electricity being carried by the lines, or simply to connect together various lines and maintain reliability of supply. These substations can be located on the surface within fenced enclosures, within special purpose buildings, on rooftops (in urban environments), or underground. A substation feature is also used to represent a location where one transmission line "taps" into another. The transmission line, substation and power plant mapping database were started in 1990 by the CEC GIS staff. The final project was completed in October 2010. The enterprise GIS system on CEC's critical infrastructure database was lead by GIS Unit in November 2014 and was implemented in May 2016. The data was derived from utility companies and USGS topographic map, Some of the data was rectified from GE and Platts substation geospatial data. The sources for the substation point digitizing are including sub-meter resolution of Digital Globe, Bing, Google, ESRI and NAIP aerial imageries, with scale at least 1:10,000. Occasionally, USGS Topographic map, Google Street View and Bing Bird's Eye are used to verify the precise location of a facility.

This archive contains aerial photography of the Cayman Islands.

These vertical aerial photographs are taken with a large camera mounted in the floor of an aeroplane flying in a series of pre-planned flight lines. The images overlap by 60% along the flight line to allow for stereoscopic (3D) viewing. There is a 25% overlap between flight lines.

In addition to their prime application in photogrammetric mapping (from updating and contouring existing maps to preparing large scale engineering plans), air photos are used for environmental studies, general planning, land use and land capability, soils, pollution, forestry, mining and quarrying, housing and leisure development, agriculture, geology, water, transport and civil engineering, boundary disputes, public enquiries, etc.

The data is stored mainly as colour photographic negatives and can be supplied as both digital and photographic products (positive or negative). To find out what imagery is available for a specific area, a cover search can be performed free of charge. Price lists and further information about cover searches are available, on request, from the National Remote Sensing Centre (NRSC).

Note: All photography is flown to RICS Specification for Aerial Photography Issue III, see references.