Geographic Information System (GIS) Market Outlook

The Geographic Information System (GIS) market is witnessing robust growth with its global market size projected to reach USD 25.7 billion by 2032, up from USD 8.7 billion in 2023, at a compound annual growth rate (CAGR) of 12.4% during the forecast period. This growth is primarily driven by the increasing integration of GIS technology across various industries to improve spatial data visualization, enhance decision-making, and optimize operations. The benefits offered by GIS in terms of accuracy, efficiency, and cost-effectiveness are convincing more sectors to adopt these systems, thereby expanding the market size significantly.

A major growth factor contributing to the GIS market expansion is the escalating demand for location-based services. As businesses across different sectors recognize the importance of spatial data analytics in driving strategic decisions, the reliance on GIS applications is becoming increasingly pronounced. The rise in IoT devices, coupled with the enhanced capabilities of AI and machine learning, has further fueled the demand for GIS solutions. These technologies enable the processing and analysis of large volumes of spatial data, thereby providing valuable insights that businesses can leverage for competitive advantage. In addition, government initiatives promoting the adoption of digital infrastructure and smart city projects are playing a crucial role in the growth of the GIS market.

The advancement in satellite imaging and remote sensing technologies is another key driver of the GIS market growth. With enhanced satellite capabilities, the precision and quality of geospatial data have significantly improved, making GIS applications more reliable and effective. The availability of high-resolution satellite imagery has opened new avenues in various sectors including agriculture, urban planning, and disaster management. Moreover, the decreasing costs of satellite data acquisition and the proliferation of drone technology are making GIS more accessible to small and medium enterprises, further expanding the market potential.

The advent of 3D Geospatial Technologies is revolutionizing the way industries utilize GIS data. By providing a three-dimensional perspective, these technologies enhance spatial analysis and visualization, offering more detailed and accurate representations of geographical areas. This advancement is particularly beneficial in urban planning, where 3D models can simulate cityscapes and infrastructure, allowing planners to visualize potential developments and assess their impact on the environment. Moreover, 3D geospatial data is proving invaluable in sectors such as construction and real estate, where it aids in site analysis and project planning. As these technologies continue to evolve, they are expected to play a pivotal role in the future of GIS, expanding its applications and driving further market growth.

Furthermore, the increasing application of GIS in environmental monitoring and management is bolstering market growth. With growing concerns over climate change and environmental degradation, GIS is being extensively used for resource management, biodiversity conservation, and natural disaster risk management. This trend is expected to continue as more organizations and governments prioritize sustainability, thereby driving the demand for advanced GIS solutions. The integration of GIS with other technologies such as big data analytics, and cloud computing is also expected to enhance its capabilities, making it an indispensable tool for environmental management.

Regionally, North America is currently leading the GIS market, driven by the widespread adoption of advanced technologies and the presence of major GIS vendors. The regionÂ’s focus on infrastructure development and smart city projects is further propelling the market growth. Europe is also witnessing significant growth owing to the increasing adoption of GIS in various industries such as agriculture and transportation. The Asia Pacific region is anticipated to exhibit the highest CAGR during the forecast period, attributed to rapid urbanization, government initiatives for digital transformation, and increasing investments in infrastructure development. In contrast, the markets in Latin America and the Middle East & Africa are growing steadily as these regions continue to explore and adopt GIS technologies.

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Geographic Information System (GIS) Software Market Outlook

The global Geographic Information System (GIS) software market size is projected to grow from USD 9.1 billion in 2023 to USD 18.5 billion by 2032, reflecting a compound annual growth rate (CAGR) of 8.5% over the forecast period. This growth is driven by the increasing application of GIS software across various sectors such as agriculture, construction, transportation, and utilities, along with the rising demand for location-based services and advanced mapping solutions.

One of the primary growth factors for the GIS software market is the widespread adoption of spatial data by various industries to enhance operational efficiency. In agriculture, for instance, GIS software plays a crucial role in precision farming by aiding in crop monitoring, soil analysis, and resource management, thereby optimizing yield and reducing costs. In the construction sector, GIS software is utilized for site selection, design and planning, and infrastructure management, making project execution more efficient and cost-effective.

Additionally, the integration of GIS with emerging technologies such as Artificial Intelligence (AI) and the Internet of Things (IoT) is significantly enhancing the capabilities of GIS software. AI-driven data analytics and IoT-enabled sensors provide real-time data, which, when combined with spatial data, results in more accurate and actionable insights. This integration is particularly beneficial in fields like smart city planning, disaster management, and environmental monitoring, further propelling the market growth.

Another significant factor contributing to the market expansion is the increasing government initiatives and investments aimed at improving geospatial infrastructure. Governments worldwide are recognizing the importance of GIS in policy-making, urban planning, and public safety, leading to substantial investments in GIS technologies. For example, the U.S. governmentÂ’s Geospatial Data Act emphasizes the development of a cohesive national geospatial policy, which in turn is expected to create more opportunities for GIS software providers.

Geographic Information System Analytics is becoming increasingly pivotal in transforming raw geospatial data into actionable insights. By employing sophisticated analytical tools, GIS Analytics allows organizations to visualize complex spatial relationships and patterns, enhancing decision-making processes across various sectors. For instance, in urban planning, GIS Analytics can identify optimal locations for new infrastructure projects by analyzing population density, traffic patterns, and environmental constraints. Similarly, in the utility sector, it aids in asset management by predicting maintenance needs and optimizing resource allocation. The ability to integrate GIS Analytics with other data sources, such as demographic and economic data, further amplifies its utility, making it an indispensable tool for strategic planning and operational efficiency.

Regionally, North America holds the largest share of the GIS software market, driven by technological advancements and high adoption rates across various sectors. Europe follows closely, with significant growth attributed to the increasing use of GIS in environmental monitoring and urban planning. The Asia Pacific region is anticipated to witness the highest growth rate during the forecast period, fueled by rapid urbanization, infrastructure development, and government initiatives in countries like China and India.

Component Analysis

The GIS software market is segmented into software and services, each playing a vital role in meeting the diverse needs of end-users. The software segment encompasses various types of GIS software, including desktop GIS, web GIS, and mobile GIS. Desktop GIS remains the most widely used, offering comprehensive tools for spatial analysis, data management, and visualization. Web GIS, on the other hand, is gaining traction due to its accessibility and ease of use, allowing users to access GIS capabilities through a web browser without the need for extensive software installations.

Mobile GIS is another crucial aspect of the software segment, providing field-based solutions for data collection, asset management, and real-time decision making. With the increasing use of smartphones and tablets, mobile GIS applications are becoming indispensable for sectors such as utilities, transportation, and

In Module 2 Lesson 1, we will take a deeper dive into Geographic Information Systems (GIS) technology. We'll explore different types of GIS data, the importance of data attributes and queries, data symbolization, and ways to access GIS technology.

Utility GIS Market Outlook

According to our latest research, the global Utility GIS market size reached USD 2.65 billion in 2024, and is projected to grow at a robust CAGR of 10.2% during the forecast period, reaching an estimated USD 6.23 billion by 2033. The market’s expansion is primarily fueled by the increasing need for efficient infrastructure management, the proliferation of smart grid initiatives, and the growing adoption of digital mapping technologies across electric, water, gas, and telecommunication utilities. As per our latest research, the surge in infrastructure modernization projects globally and the integration of advanced geospatial analytics into utility operations are key factors propelling this market forward.

One of the principal growth drivers of the Utility GIS market is the escalating demand for real-time asset and network management within utility sectors. As utilities face mounting pressure to optimize resource allocation and reduce operational costs, Geographic Information Systems (GIS) have become indispensable tools for visualizing, analyzing, and managing spatial data. Utilities are leveraging GIS platforms to monitor asset health, track outages, and streamline maintenance activities, which enhances service reliability and minimizes downtime. The ability of GIS to integrate with other enterprise systems, such as SCADA and ERP, further amplifies its value proposition, driving widespread adoption across both developed and emerging markets.

Another significant factor contributing to market growth is the global trend towards smart grid and infrastructure modernization. Governments and private sector entities are investing heavily in digital solutions that support sustainable urban development and resilient utility networks. GIS technologies play a crucial role in planning, monitoring, and optimizing smart grids by providing real-time geospatial intelligence. This enables utilities to improve disaster response, forecast demand, and manage distributed energy resources more effectively. Furthermore, the integration of GIS with IoT devices and cloud computing is enabling more scalable and flexible solutions, which is particularly attractive for utilities looking to future-proof their operations.

The rising focus on regulatory compliance and environmental sustainability is also catalyzing the adoption of Utility GIS solutions. Regulatory bodies worldwide are mandating stricter reporting and transparency standards for utility operations, especially in areas related to environmental impact and resource usage. GIS platforms enable utilities to track compliance metrics, monitor environmental risks, and generate detailed reports with spatial context. This not only helps utilities meet regulatory requirements but also supports their sustainability goals by identifying areas for efficiency improvements and resource conservation. The growing emphasis on reducing carbon footprints and enhancing water and energy conservation further underscores the strategic importance of GIS in the utility sector.

Regionally, North America continues to dominate the Utility GIS market, owing to its advanced utility infrastructure, high adoption of smart technologies, and supportive regulatory frameworks. However, Asia Pacific is emerging as the fastest-growing region, driven by rapid urbanization, significant investments in utility modernization, and increasing government initiatives to improve infrastructure resilience. Europe is also witnessing steady growth due to stringent environmental regulations and the ongoing transition towards renewable energy sources. Latin America and the Middle East & Africa are gradually catching up, supported by infrastructure development projects and the need for efficient utility management in resource-constrained environments.

Component Analysis

The Component segment of the Utility GIS market is broadly categorized into Software, Services, and Hardware. Software remains the largest contributor to market reve

This dataset may be a mix of two years and is updated as the data is released for each county. For example, one county may have data from 2014 while a neighboring county may have had a more recent release of 2016 data. For specific years, please check the service that specifies the year, i.e. California Important Farmland: 2016.Established in 1982, Government Code Section 65570 mandates FMMP to biennially report on the conversion of farmland and grazing land, and to provide maps and data to local government and the public.The Farmland Mapping and Monitoring Program (FMMP) provides data to decision makers for use in planning for the present and future use of California's agricultural land resources. The data is a current inventory of agricultural resources. This data is for general planning purposes and has a minimum mapping unit of ten acres.

The Geographic Information Systems (GIS) platform market is poised for substantial growth, projected to reach an estimated market size of $XXX million in 2025, with a Compound Annual Growth Rate (CAGR) of XX% expected throughout the forecast period of 2025-2033. This robust expansion is primarily driven by the increasing demand for sophisticated data visualization, spatial analysis, and location-based services across a multitude of sectors. The government and utilities sector is a significant contributor, leveraging GIS for infrastructure management, urban planning, resource allocation, and emergency response. Commercial applications are also rapidly adopting GIS for customer analytics, supply chain optimization, real estate development, and targeted marketing. The proliferation of web-enabled GIS solutions, including Web Map Services, is democratizing access to geospatial data and tools, fostering innovation and wider adoption beyond traditional GIS professionals. Desktop GIS continues to hold its ground for complex analytical tasks, but the trend towards cloud-based and mobile GIS solutions is accelerating, offering greater flexibility and scalability. Key trends shaping the GIS platform market include the integration of Artificial Intelligence (AI) and Machine Learning (ML) for advanced spatial analytics and predictive modeling, the growing importance of real-time data processing and streaming, and the rise of open-source GIS solutions challenging established players. The increasing availability of high-resolution satellite imagery and IoT sensor data further fuels the need for powerful GIS platforms. However, certain restraints might temper this growth, such as the initial cost of implementation for some advanced solutions, a potential shortage of skilled GIS professionals, and data privacy concerns associated with extensive location data collection. The market is characterized by intense competition among established global players and emerging innovators, all vying to capture market share by offering comprehensive, user-friendly, and technologically advanced GIS solutions. This comprehensive report delves into the dynamic Geographic Information Systems (GIS) Platform market, providing in-depth analysis and forecasts from 2019 to 2033, with a base year of 2025. The study meticulously examines market concentration, key trends, regional dominance, product insights, and the driving forces and challenges shaping this vital industry. We project the market to reach values in the tens of millions and hundreds of millions of dollars across various segments.

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The files linked to this reference are the geospatial data created as part of the completion of the baseline vegetation inventory project for the NPS park unit. Current format is ArcGIS file geodatabase but older formats may exist as shapefiles. We converted the photointerpreted data into a format usable in a geographic information system (GIS) by employing three fundamental processes: (1) orthorectify, (2) digitize, and (3) develop the geodatabase. All digital map automation was projected in Universal Transverse Mercator (UTM), Zone 16, using the North American Datum of 1983 (NAD83). Orthorectify: We orthorectified the interpreted overlays by using OrthoMapper, a softcopy photogrammetric software for GIS. One function of OrthoMapper is to create orthorectified imagery from scanned and unrectified imagery (Image Processing Software, Inc., 2002). The software features a method of visual orientation involving a point-and-click operation that uses existing orthorectified horizontal and vertical base maps. Of primary importance to us, OrthoMapper also has the capability to orthorectify the photointerpreted overlays of each photograph based on the reference information provided. Digitize: To produce a polygon vector layer for use in ArcGIS (Environmental Systems Research Institute [ESRI], Redlands, California), we converted each raster-based image mosaic of orthorectified overlays containing the photointerpreted data into a grid format by using ArcGIS. In ArcGIS, we used the ArcScan extension to trace the raster data and produce ESRI shapefiles. We digitally assigned map-attribute codes (both map-class codes and physiognomic modifier codes) to the polygons and checked the digital data against the photointerpreted overlays for line and attribute consistency. Ultimately, we merged the individual layers into a seamless layer. Geodatabase: At this stage, the map layer has only map-attribute codes assigned to each polygon. To assign meaningful information to each polygon (e.g., map-class names, physiognomic definitions, links to NVCS types), we produced a feature-class table, along with other supportive tables and subsequently related them together via an ArcGIS Geodatabase. This geodatabase also links the map to other feature-class layers produced from this project, including vegetation sample plots, accuracy assessment (AA) sites, aerial photo locations, and project boundary extent. A geodatabase provides access to a variety of interlocking data sets, is expandable, and equips resource managers and researchers with a powerful GIS tool.

Utility GIS Data Quality Services Market Outlook

According to our latest research, the global Utility GIS Data Quality Services market size reached USD 1.29 billion in 2024, with a robust growth trajectory marked by a CAGR of 10.7% from 2025 to 2033. By the end of the forecast period, the market is projected to attain a value of USD 3.13 billion by 2033. This growth is primarily driven by the increasing need for accurate spatial data, the expansion of smart grid initiatives, and the rising complexity of utility network infrastructures worldwide.

The primary growth factor propelling the Utility GIS Data Quality Services market is the surging adoption of Geographic Information Systems (GIS) for utility asset management and network optimization. Utilities are increasingly relying on GIS platforms to ensure seamless operations, improved decision-making, and regulatory compliance. However, the effectiveness of these platforms is directly linked to the quality and integrity of the underlying data. With the proliferation of IoT devices and the integration of real-time data sources, the risk of data inconsistencies and inaccuracies has risen, making robust data quality services indispensable. Utilities are investing heavily in data cleansing, validation, and enrichment to mitigate operational risks, reduce outages, and enhance customer satisfaction. This trend is expected to continue, as utilities recognize the strategic importance of data-driven operations in an increasingly digital landscape.

Another significant driver is the global movement towards smart grids and digital transformation across the utility sector. As utilities modernize their infrastructure, they are deploying advanced metering infrastructure (AMI) and integrating distributed energy resources (DERs), which generate vast volumes of spatial and non-spatial data. Ensuring the accuracy, consistency, and completeness of this data is crucial for optimizing grid performance, minimizing losses, and enabling predictive maintenance. The need for real-time analytics and advanced network management further amplifies the demand for high-quality GIS data. Additionally, regulatory mandates for accurate reporting and asset traceability are compelling utilities to prioritize data quality initiatives. These factors collectively create a fertile environment for the growth of Utility GIS Data Quality Services, as utilities strive to achieve operational excellence and regulatory compliance.

Technological advancements and the rise of cloud-based GIS solutions are also fueling market expansion. Cloud deployment offers utilities the flexibility to scale data quality services, access advanced analytics, and collaborate across geographies. This has democratized access to sophisticated GIS data quality tools, particularly for mid-sized and smaller utilities that previously faced budgetary constraints. Moreover, the integration of artificial intelligence (AI) and machine learning (ML) in data quality solutions is enabling automated data cleansing, anomaly detection, and predictive analytics. These innovations are not only reducing manual intervention but also enhancing the accuracy and reliability of utility GIS data. As utilities continue to embrace digital transformation, the demand for cutting-edge data quality services is expected to surge, driving sustained market growth throughout the forecast period.

Utility GIS plays a pivotal role in supporting the digital transformation of the utility sector. By leveraging Geographic Information Systems, utilities can achieve a comprehensive understanding of their network infrastructures, enabling more efficient asset management and network optimization. The integration of Utility GIS with advanced data quality services ensures that utilities can maintain high standards of data accuracy and integrity, which are essential for effective decision-making and regulatory compliance. As utilities continue to modernize their operations and embrace digital technologies, the role of Utility GIS in facilitating seamless data integration and real-time analytics becomes increasingly critical. This not only enhances operational efficiency but also supports the strategic goals of sustainability and resilience in utility management.

Regionally, North America leads the Utility GIS Data Quality Services market, accounting for the largest share in 2024, followed closely by

Established in 1982, Government Code Section 65570 mandates FMMP to biennially report on the conversion of farmland and grazing land, and to provide maps and data to local government and the public.The Farmland Mapping and Monitoring Program (FMMP) provides data to decision makers for use in planning for the present and future use of California's agricultural land resources. The data is a current inventory of agricultural resources. This data is for general planning purposes and has a minimum mapping unit of ten acres.

This paper underlines the task characteristics of the emergency management life cycle. Moreover, the characteristics of three ubiquitous technologies including RFID, handheld computers and GIS are discussed and further used as a criterion to evaluate their potential for emergency management tasks. Built on a rather loose interpretation of Task-technology Fit model, a conceptual model presented in this paper advocates that a technology that offers better features for task characteristics is more likely to be adopted in emergency management. Empirical findings presented in this paper reveal the significance of task characteristics and their role in evaluating the suitability of three ubiquitous technologies before their actual adoption in emergency management.

[Metadata] Description: Lands Classified as Important Agricultural Lands by the State Land Use Commission as of October, 2020. Source: Important Agricultural Lands boundaries were compiled by the State Land Use Commission. Revised by the Hawaii Statewide GIS Program, October, 2020 (added DR19-66, Haleiwa, Oahu). The Important Agricultural Lands depicted in these files are not official and are merely representations for presentation purposes only. An official designation of Important Agricultural Lands may be obtained through the State Land Use Commission. Criteria for the classification of Important Agricultural Lands can be found in Chapter 205-44, Hawaii Revised Statutes: (https://www.capitol.hawaii.gov/hrscurrent/Vol04_Ch0201-0257/HRS0205/HRS_0205-0044.htm)For additional information, please refer to complete metadata at https://files.hawaii.gov/dbedt/op/gis/data/imp_ag_lands.pdf or contact Hawaii Statewide GIS Program, Office of Planning and Sustainable Development, State of Hawaii; PO Box 2359, Honolulu, Hi. 96804; (808) 587-2846; email: gis@hawaii.gov; Website: https://planning.hawaii.gov/gis.

The global geospatial data market is poised for significant expansion, projected to reach $3,788 million and grow at a Compound Annual Growth Rate (CAGR) of 6.1% during the forecast period of 2025-2033. This robust growth is propelled by an increasing demand for location-based intelligence across diverse industries. Key drivers include the proliferation of IoT devices generating vast amounts of location data, advancements in satellite imagery and remote sensing technologies, and the growing adoption of AI and machine learning for analyzing complex geospatial datasets. The enterprise sector is emerging as a dominant application segment, leveraging geospatial data for enhanced decision-making in areas such as logistics, urban planning, real estate, and natural resource management. Furthermore, government agencies are increasingly utilizing this data for public safety, infrastructure development, and environmental monitoring. The market is characterized by a bifurcated segmentation between vector data, representing discrete geographic features, and raster data, depicting continuous phenomena like elevation or temperature. Both segments are experiencing healthy growth, driven by specialized applications and analytical needs. Emerging trends include the rise of real-time geospatial data streams, the increasing importance of high-resolution imagery, and the integration of AI-powered analytics to extract deeper insights. However, challenges such as data privacy concerns, high infrastructure costs for data acquisition and processing, and the need for skilled professionals to interpret and utilize the data effectively may pose some restraints. Despite these hurdles, the overwhelming benefits of actionable location intelligence are expected to drive sustained market expansion, with North America and Europe currently leading in adoption, followed closely by the rapidly growing Asia Pacific region. This in-depth report delves into the dynamic and rapidly evolving Geospatial Data Provider market, offering a comprehensive analysis from the historical period of 2019-2024 through to a robust forecast extending to 2033. With the Base Year and Estimated Year set at 2025, the report provides an up-to-the-minute snapshot and a forward-looking perspective on this critical industry. The market size, valued in the millions, is meticulously dissected across various segments, companies, and industry developments.

Snapshot img { margin: 10px !important; } About GIS

A GIS is a system or a set of tools used to interpret business and geospatial data. It integrates hardware, software, and data for processing business and geographically referenced data. This system digitizes the received geospatial data and processes them to provide the desired output. GIS is used across various sectors, such as Natural Resources, Utilities, Federal Government, Communication and Telecom, Military/Law Enforcement, and Others, for various purposes such as disaster management, finding location details, viewing maps, marketing, designing facilities, and others. TechNavio's analysts forecast the GIS market in the Telecommunication industry to grow at a CAGR of 10.89 percent over the period 2013-2018.

Covered in this Report The GIS market in the Telecommunication industry can be divided into three product segments: Software, Data, and Services. TechNavio's report, the GIS Market in the Telecommunication Industry 2014-2018, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the global region; it also covers the GIS market landscape and its growth prospects in the coming years. The report also includes a discussion of the key vendors operating in this market.

Key Vendors • Esri • Hexagon • MacDonald, Dettwiler and Associates

Other Prominent Vendors • Autodesk • Bentley Systems • Digital Globe • GE Energy • Pitney Bowes

Key Market Driver • Increase in the Need for Real-time Knowledge on Network Structure • For a full, detailed list, view our report

Key Market Challenge • Growing Popularity of Open-source Software • For a full, detailed list, view our report

Key Market Trend • Increased Usage of GIS in Broadcasting • For a full, detailed list, view our report

Key Questions Answered in this Report • What will the market size be in 2018 and what will the growth rate be? • What are the key market trends? • What is driving this market? • What are the challenges to market growth? • Who are the key vendors in this market space? • What are the market opportunities and threats faced by the key vendors? • What are the strengths and weaknesses of the key vendors

This article uses a multiscale approach for assessing landscape changes in one of the world’s biodiversity hotspots in Brazil, the Rio Doce State Park (PERD). In this article, we assess land use changes over a 30 year period. Our results show that, while inside the park landscape changes were minimal, in the park buffer zone human induced changes are steadily rising due to an increase in eucalyptus plantations and urban sprawl that grew by 4% and 1.9%, respectively. Agricultural land has been reduced by 6.35%, but there are trends that a form of welcome forest transition has been occurring. We report an increase in native forests from 40,588 ha in 1985 to 45,690 ha in 2015. The analysis of human impacts in the study area delivers very different results when varying the pixel size from 25 ha to 900 m2. The former shows a very high level of human influence while the latter reveals small but vital patches of native forest offering hopeful opportunities for sustainable natural resource management in this critical biome. Our work stresses the importance of better targeted policy making and sympathetic land use management of buffer zones of protected areas. Currently, such zones suffer from many development pressures and often experience contradictory policy frameworks which encourage a clash between biodiversity conservation and intensive agro husbandry production. Highlights: • We characterize land use transitions in a hotspot of biodiversity in Brazil. • Analysis at finer resolution show that there is still hope for forest recovery. • For instilling sustainable forest transitions there is the need for fresh governance.

To help hungry residents find food and other resources amid the coronavirus pandemic, city and county governments — like Allegheny County, Pennsylvania — are using geographic information systems, better known as GIS, to advertise locations of local food banks and distribution centers._Communities around the world are taking strides in mitigating the threat that COVID-19 (coronavirus) poses. Geography and location analysis have a crucial role in better understanding this evolving pandemic.When you need help quickly, Esri can provide data, software, configurable applications, and technical support for your emergency GIS operations. Use GIS to rapidly access and visualize mission-critical information. Get the information you need quickly, in a way that’s easy to understand, to make better decisions during a crisis.Esri’s Disaster Response Program (DRP) assists with disasters worldwide as part of our corporate citizenship. We support response and relief efforts with GIS technology and expertise.More information...

Enterprise GIS Market Outlook

According to our latest research, the global Enterprise GIS market size reached USD 8.4 billion in 2024, reflecting the rapid adoption of geospatial technologies across various sectors. The market is expected to grow at a robust CAGR of 11.2% during the forecast period, reaching a projected value of USD 24.1 billion by 2033. This remarkable growth is primarily driven by the increasing need for real-time geographic data, advancements in cloud-based GIS solutions, and the rising integration of GIS with emerging technologies such as IoT, AI, and big data analytics.

One of the most significant growth factors for the Enterprise GIS market is the expanding requirement for spatial data analytics in decision-making processes across industries. As organizations strive to enhance operational efficiency and resource allocation, the demand for advanced mapping and spatial analysis tools has surged. Enterprises in sectors like utilities, government, transportation, and oil & gas are leveraging GIS platforms for asset management, infrastructure planning, and disaster management. The ability of Enterprise GIS to provide actionable insights through real-time data visualization and predictive analytics is proving invaluable for both public and private sector entities, thereby fueling market expansion.

Another key driver is the technological evolution of GIS platforms, particularly the shift towards cloud-based deployment models. Cloud-based Enterprise GIS solutions offer scalable, flexible, and cost-effective alternatives to traditional on-premises systems. This transition enables organizations to manage vast geospatial datasets, collaborate across distributed teams, and integrate GIS capabilities with other enterprise applications. The proliferation of mobile devices and IoT sensors is further augmenting the adoption of cloud GIS, as it facilitates seamless data collection, sharing, and analysis from remote locations. The result is a significant boost in the operational agility and responsiveness of enterprises, which is accelerating the adoption of Enterprise GIS solutions globally.

The increasing regulatory emphasis on sustainable development, urban planning, and environmental monitoring is also contributing to the growth of the Enterprise GIS market. Governments and regulatory bodies worldwide are mandating the use of spatial data for land management, infrastructure development, and resource conservation. This regulatory push is compelling organizations to invest in robust GIS platforms that can support compliance, reporting, and long-term planning. Furthermore, the integration of artificial intelligence and machine learning with GIS is enabling predictive modeling and automation, which are critical for proactive decision-making in dynamic environments. These factors collectively underscore the strategic importance of Enterprise GIS in driving digital transformation and resilience across industries.

From a regional perspective, North America continues to dominate the Enterprise GIS market, accounting for the largest revenue share in 2024. The region’s leadership is attributed to the presence of major GIS vendors, advanced IT infrastructure, and high adoption rates across government and utility sectors. Meanwhile, Asia Pacific is emerging as the fastest-growing region, propelled by rapid urbanization, infrastructure investments, and government initiatives promoting smart cities and digital governance. Europe also holds a significant share, driven by stringent environmental regulations and the increasing adoption of geospatial technologies in sectors such as transportation and telecommunications. Latin America and the Middle East & Africa are witnessing steady growth, supported by investments in infrastructure modernization and resource management.

Component Analysis

The Enterprise GIS market by component is segmented into software, hardware, and services, each playing a pivotal role in the overall ecosystem. The software segment current

Snapshot img { margin: 10px !important; } US GIS In Utility Industry Market Size 2025-2029

The US gis in utility industry market size is forecast to increase by USD 593.0 million at a CAGR of 18.2% between 2024 and 2029.

A critical driver for the gis in utility industry is the urgent need to modernize aging infrastructure. A substantial portion of energy and water networks has surpassed its operational lifespan, creating significant risks to reliability and increasing costs. Geographic information system technology provides an indispensable platform for addressing these issues, serving as a core component of strategic asset management and operational intelligence. Utilities are creating comprehensive, geospatially accurate digital inventories of all assets, from utility poles to subterranean pipes, which is fundamental for implementing sophisticated predictive maintenance programs. The integration of AI and machine learning with foundational GISs is a primary trend, shifting the technology from a passive system of record to an active, intelligent platform for proactive operational management. This fusion unlocks deeper insights from vast spatial and temporal datasets, addressing pressures to enhance grid reliability and optimize expenditures.The core value of this technological evolution lies in transforming reactive maintenance cycles into predictive ones through advanced geographic information system analytics market applications. By analyzing historical outage data, weather patterns, and asset conditions, AI algorithms can forecast potential failure points, allowing for the strategic allocation of resources to address vulnerabilities before they escalate. However, a formidable challenge confronting the market is the immense complexity associated with data integration and system interoperability. Utilities have historically operated in functional silos, leading to a proliferation of disparate IT and OT systems, many of which are legacy platforms not designed for seamless communication. Consolidating varied datasets from these sources into a single, cohesive, and authoritative GIS platform to create a single source of truth is fraught with technical and organizational hurdles, including issues with data formats, accuracy standards, and the absence of enterprise-wide data governance.

What will be the size of the US 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.
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Market activities are shaped by an ongoing push toward digital transformation, where gis in utility industry serves as a foundational technology. The development of advanced analytical capabilities is a constant focus, with organizations seeking to leverage geospatial data analysis for more effective strategic planning and operational control. The evolution of smart grid technologies and the need for more sophisticated management of distributed energy resources are continually influencing platform requirements. This includes the need for better network asset management and integration with systems like enterprise asset management and supervisory control data acquisition. The utility monitoring system landscape is also in flux, with new sensor technologies providing richer data streams.The applications of geographic information system analytics market tools are expanding beyond traditional mapping, touching on everything from pipeline integrity management to broadband deployment mapping. There is a persistent effort to refine methods for field data collection and remote asset inspection, using technologies like high-resolution aerial imagery. These patterns reflect a dynamic interplay between technological capability and operational necessity, as utilities adapt to new regulatory demands and customer expectations. The focus is shifting toward creating a unified, real-time view of the entire network, supported by robust data governance and interoperability protocols.

How is this market segmented?

The market 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. ProductServicesSoftwareDataDeploymentOn-premisesCloudProduct typeElectric power utilitiesWater and wastewater utilitiesGas utilitiesTelecommunication utilitiesTypeInvestor-ownedPublic-ownedCooperativesGeographyNorth AmericaUS

By Product Insights

The services segment is estimated to witness significant growth during the forecast period.

The services segment is essential for the successful deployment and operation of GIS technology within a utility's complex environment. It encompasses the specialized human expertise needed for consulting, implementation, data services, and managed services. These prof

Burc Kayahan will talk about the methodological issues in analyzing the distribution of environmental hazards with a particular focus on the importance of conducting a Geographical Information System (GIS) analysis using multiple levels (Census, Pollution, and Geographical) of data.

Links to recordings of the Integrated Services Program and 9-1-1 & Geospatial Services Bureau webinar series, including NG9-1-1 GIS topics such as: data preparation; data provisioning and maintenance; boundary best practices; and extract, transform, and load (ETL). Offerings include:Topic: Virginia Next Generation 9-1-1 Dashboard and Resources Update Description: Virginia recently updated the NG9-1-1 Dashboard with some new tabs and information sources and continues to develop new resources to assist the GIS data work. This webinar provides an overview of changes, a demonstration of new functionality, and a guide to finding and using new resources that will benefit Virginia public safety and GIS personnel with roles in their NG9-1-1 projects. Wednesday 16 June 2021. Recording available at: https://vimeo.com/566133775Topic: Emergency Service Boundary GIS Data Layers and Functions in your NG9-1-1 PSAP Description: Law, Fire, and Emergency Medical Service (EMS) Emergency Service Boundary (ESB) polygons are required elements of the NENA NG9-1-1 GIS data model stack that indicate which agency is responsible for primary response. While this requirement must be met in your Virginia NG9-1-1 deployment with AT&T and Intrado, there are quite a few ways you could choose to implement these polygons. PSAPs and their GIS support must work together to understand how this information will come into a NG9-1-1 i3 PSAP and how it will replace traditional ESN information in order to make good choices while implementing these layers. This webinar discusses:the function of ESNs in your legacy 9-1-1 environment, the role of ESBs in NG9-1-1, and how ESB information appears in your NG9-1-1 PSAP. Wednesday, 22 July 2020. Recording available at: https://vimeo.com/441073056#t=360sTopic: "The GIS Folks Handle That": What PSAP Professionals Need to Know about the GIS Project Phase of Next Generation 9-1-1 DeploymentDescription: Next Generation 9-1-1 (NG9-1-1) brings together the worlds of emergency communication and spatial data and mapping. While it may be tempting for PSAPs to outsource cares and concerns about road centerlines and GIS data provisioning to 'the GIS folks', GIS staff are crucial to the future of emergency call routing and location validation. Data required by NG9-1-1 usually builds on data that GIS staff already know and use for other purposes, so the transition requires them to learn more about PSAP operations and uses of core data. The goal of this webinar is to help the PSAP and GIS worlds come together by explaining the role of the GIS Project in the Virginia NG9-1-1 Deployment Steps, exploring how GIS professionals view NG9-1-1 deployment as a project, and fostering a mutual understanding of how GIS will drive NG9-1-1. 29 January 2020. Recording available at: https://vimeo.com/showcase/9791882/video/761225474Topic: Getting Your GIS Data from Here to There: Processes and Best Practices for Extract, Transform and Load (ETL) Description: During the fall of 2019, VITA-ISP staff delivered workshops on "Tools and Techniques for Managing the Growing Role of GIS in Enterprise Software." This session presents information from the workshops related to the process of extracting, transforming, and loading data (ETL), best practices for ETL, and methods for data schema comparison and field mapping as a webinar. These techniques and skills assist GIS staff with their growing role in Next Generation 9-1-1 but also apply to many other projects involving the integration and maintenance of GIS data. 19 February 2020. Recording available at: https://vimeo.com/showcase/9791882/video/761225007Topic: NG9-1-1 GIS Data Provisioning and MaintenanceDescription: VITA ISP pleased to announce an upcoming webinar about the NG9-1-1 GIS Data Provisioning and Maintenance document provided by Judy Doldorf, GISP with the Fairfax County Department of Information Technology and RAC member. This document was developed by members of the NG9-1-1 GIS workgroup within the VITA Regional Advisory Council (RAC) and is intended to provide guidance to local GIS and PSAP authorities on the GIS datasets and associated GIS to MSAG/ALI validation and synchronization required for NG9-1-1 services. The document also provides guidance on geospatial call routing readiness and the short- and long-term GIS data maintenance workflow procedures. In addition, some perspective and insight from the Fairfax County experience in GIS data preparation for the AT&T and West solution will be discussed in this webinar. 31 July 2019. Recording available at: https://vimeo.com/showcase/9791882/video/761224774Topic: NG9-1-1 Deployment DashboardDescription: I invite you to join us for a webinar that will provide an overview of our NG9-1-1 Deployment Dashboard and information about other online ISP resources. The ISP website has been long criticized for being difficult to use and find information. The addition of the Dashboard and other changes to the website are our attempt to address some of these concerns and provide an easier way to find information especially as we undertake NG9-1-1 deployment. The Dashboard includes a status map of all Virginia PSAPs as it relates to the deployment of NG9-1-1, including the total amount of funding requested by the localities and awards approved by the 9-1-1 Services Board. During this webinar, Lyle Hornbaker, Regional Coordinator for Region 5, will navigate through the dashboard and provide tips on how to more effectively utilize the ISP website. 12 June 2019. Recording not currently available. Please see the Virginia Next Generation 9-1-1 Dashboard and Resources Update webinar recording from 16 June 2021. Topic: PSAP Boundary Development Tools and Process RecommendationDescription: This webinar will be presented by Geospatial Program Manager Matt Gerike and VGIN Coordinator Joe Sewash. With the release of the PSAP boundary development tools and PSAP boundary segment compilation guidelines on the VGIN Clearinghouse in March, this webinar demonstrates the development tools, explains the process model, and discusses methods, tools, and resources available for you as you work to complete PSAP boundary segments with your neighbors. 15 May 2019. Recording available at: https://www.youtube.com/watch?v=kI-1DkUQF9Q&feature=youtu.beTopic: NG9-1-1 Data Preparation - Utilizing VITA's GIS Data Report Card ToolDescription: This webinar, presented by VGIN Coordinator Joe Sewash, Geospatial Program Manager Matt Gerike, and Geospatial Analyst Kenny Brevard will provide an overview of the first version of the tools that were released on March 25, 2019. These tools will allow localities to validate their GIS data against the report card rules, the MSAG and ALI checks used in previous report cards, and the analysis listed in the NG9-1-1 migration proposal document. We will also discuss the purpose of the tools, input requirements, initial configuration, how to run them, and how to make sense of your results. 10 April 2019. Recording available at: https://vimeo.com/showcase/9791882/video/761224495Topic: NG9-1-1 PSAP Boundary Best Practice WebinarDescription: During the months of November and December, VITA ISP staff hosted regional training sessions about best practices for PSAP boundaries as they relate to NG9-1-1. These sessions were well attended and very interactive, therefore we feel the need to do a recap and allow those that may have missed the training to attend a makeup session. 30 January 2019. Recording not currently available. Please see the PSAP Boundary Development Tools and Process Recommendation webinar recording from 15 May 2019.Topic: NG9-1-1 GIS Overview for ContractorsDescription: The Commonwealth of Virginia has started its migration to next generation 9-1-1 (NG9-1-1). This migration means that there will be a much greater reliance on geographic information (GIS) to locate and route 9-1-1 calls. VITA ISP has conducted an assessment of current local GIS data and provided each locality with a report. Some of the data from this report has also been included in the localities migration proposal, which identifies what data issues need to be resolved before the locality can migrate to NG9-1-1. Several localities in Virginia utilize a contractor to maintain their GIS data. This webinar is intended for those contractors to review the data in the report, what is included in the migration proposal and how they may be called on to assist the localities they serve. It will still ultimately be up to each locality to determine whether they engage a contractor for assistance, but it is important for the contractor community to understand what is happening and have an opportunity to ask questions about the intent and goals. This webinar will provide such an opportunity. 22 August 2018. Recording not currently available. Please contact us at NG911GIS@vdem.virginia.gov if you are interested in this content.