Map of the electric utility service areas in California.

This dataset shows electric utility service area boundaries for the State of Minnesota. The original source data were lines hand-drawn on county highway maps. The maps were scanned and georeferenced to serve as a background for on-screen digitizing. The utilities were then given an opportunity to review and correct the service areas. Changes filed with the Public Utilities Commission (eDockets) were also reviewed to update the areas.

This data provides graphic representation of electric company territories of New Jersey. Data was compiled using Electric Utility paper maps, all greater than 1:500,000. It is anticipated that electric company territorial boundaries will remain stable.

This feature class/shapefile represents electric power retail service territories. These are areas serviced by electric power utilities responsible for the retail sale of electric power to local customers, whether residential, industrial, or commercial. The following updates have been made since the previous release: 4 features added.

Electric Service Territories (IURC) - Shows the Electric Service Territory (EST) boundaries in Indiana, maintained by personnel of the Indiana Utility Regulatory Commission (IURC). This layer is "live" and synchronized to automatically update whenever IURC personnel establish new boundaries.The layer was created to visually represent, as accurately as possible, the electric service territories served by the regulated electric service providers in the state of Indiana, pursuant to Cause Number 42868 (Indiana Utility Regulatory Commission) to establish an online GIS mapping environment to house, edit, and display visual interpretations or electric service territory rulings filed before and ruled by the Indiana Utility Regulatory Commission. The data represented in this layer is strictly a visual aide and a best interpretation of the legally approved Electric Service Territories as ruled by the Indiana Utility Regulatory Commission (IURC). These data are not legally binding or necessarily fully representative of the legal rulings.The following is excerpted from metadata provided by the IURC: "IN THE MATTER OF THE JOINT PETITION OF ELECTRICITY SUPPLIERS FOR (1) THE ESTABLISHMENT OF THE PROCEDURES TO APPROVE SERVICE AREA BOUNDARY AGREEMENTS UNDER IC 8-1-2.3-6(2) AND SERVICE CONSENTS UNDER IC 8-1-2.3-4(A), AND (2) MODIFICATION OF THE FORM AND MAINTENANCE OF MAPS OF ASSIGNED SERVICE AREAS ESTABLISHED PURSUANT TO IC 8-1-2.3-1, ET SEQ. AND THE COMMISSION'S FEBRUARY 19, 1981 ORDER IN CAUSE NO. 36299"

Map of California electric utility service territories and balancing authorities.

The Geospatial Information Systems (GIS) market for energy and utilities is booming, projected to reach $28 billion by 2033 with an 8% CAGR. Driven by smart grids, renewable energy, and improved asset management, this report analyzes market trends, key players (Esri, Autodesk, Precisely), and regional growth opportunities. Learn more about GIS for energy & utilities!

Data compiled from California Energy Commission staff from georeferenced electric territory maps and the United States Department of Homeland Security, Homeland Infrastructure Foundation-Level Data (HIFILD), https://hifld-geoplatform.opendata.arcgis.com/datasets/geoplatform::electric-retail-service-territories-2/aboutBoundaries are approximate, for absolute territory information, contact the appropriate load serving entity.For more information on California Load Serving Entities visit this website: https://www.energy.ca.gov/data-reports/energy-almanac/california-electricity-data/electric-load-serving-entities-lses

This feature class represents electric power retail service territories. These are areas serviced by electric power utilities responsible for the retail sale of electric power to local customers, whether residential, industrial, or commercial. The following updates have been made since the previous release: 7 features added, numerous geometries improved, and geographic coverage expanded to include American Samoa, Guam, Northern Mariana Islands, and Virgin Islands.

Map of the six electric investor owned utility (IOU) areas in California:- Bear Valley Electric Service- Liberty Utilities- PacifiCorp- PG&E: Pacific Gas & Electric Company- SDG&E: San Diego Gas & Electric Company- SCE: Southern California Edison

GIS for Utilities Market Outlook

According to our latest research, the global GIS for Utilities market size in 2024 stands at USD 4.1 billion, and it is expected to reach USD 10.2 billion by 2033, growing at a robust CAGR of 10.7% during the forecast period. This remarkable growth is primarily driven by the increasing adoption of smart grid technologies, rising investments in infrastructure modernization, and the urgent need for efficient asset and network management across utility sectors. The integration of Geographic Information Systems (GIS) with utility operations is transforming the way utilities manage assets, optimize networks, and deliver customer-centric services, positioning GIS as a critical enabler of digital transformation in the utility industry.

One of the most significant growth factors for the GIS for Utilities market is the accelerating global shift towards smart grids and advanced metering infrastructure. Utilities are under immense pressure to modernize their aging infrastructure to enhance reliability, reduce operational costs, and meet stringent regulatory requirements. GIS solutions offer comprehensive spatial analysis and visualization capabilities, enabling utilities to monitor, control, and optimize their networks in real time. This enhances outage management, improves disaster response, and streamlines maintenance activities, resulting in significant cost savings and improved service quality. Moreover, the proliferation of Internet of Things (IoT) devices and sensors within utility networks is generating vast amounts of geospatial data, further amplifying the need for robust GIS platforms to harness this information for actionable insights.

Another key driver propelling the growth of the GIS for Utilities market is the increasing emphasis on sustainability and renewable energy integration. As utilities worldwide transition towards cleaner energy sources, the complexity of grid management escalates, necessitating advanced geospatial tools to plan, monitor, and optimize distributed energy resources. GIS supports the integration of solar, wind, and other renewables by providing detailed spatial intelligence for site selection, grid connectivity, and impact assessment. Additionally, regulatory mandates for environmental compliance and resource conservation are compelling utilities to adopt GIS-based solutions for efficient water, gas, and electricity distribution, leakage detection, and resource planning. These factors collectively drive the widespread adoption of GIS across electric, water, and gas utilities.

The digital transformation wave sweeping across the utilities sector is also fueling market expansion. Utilities are increasingly leveraging GIS for customer management, mobile workforce management, and predictive maintenance, thereby enhancing operational agility and customer satisfaction. The surge in cloud-based GIS deployments is democratizing access to powerful spatial analytics, enabling even small and medium-sized utilities to harness the benefits of GIS without significant upfront investments. Furthermore, strategic collaborations between GIS vendors and utility companies, coupled with ongoing advancements in artificial intelligence and machine learning, are unlocking new use cases and driving innovation across the industry. As a result, the GIS for Utilities market is poised for sustained growth over the coming decade.

Regionally, North America continues to dominate the GIS for Utilities market, accounting for the largest share in 2024, driven by substantial investments in grid modernization, stringent regulatory frameworks, and high adoption rates of advanced technologies. Europe follows closely, supported by ambitious renewable energy targets and smart city initiatives, while the Asia Pacific region is witnessing the fastest growth, fueled by rapid urbanization, infrastructure development, and government-led digitalization programs. Latin America and the Middle East & Africa are also emerging as attractive markets, with increasing investments in utility infrastructure and growing awareness of the benefits of GIS solutions. This regional dynamism underscores the global relevance and transformative potential of GIS in the utilities sector.

In the realm of Oil and Gas GIS, the integration of geospatial technology is proving to be a game-changer for the ind

Energy and utilities data from the Alaska Energy Authority, Alaska Energy Data Gateway. Includes: - Hydroelectric - Hydrokinetic - Wind Power - Thermal Areas - Hot Springs - Sawmills - Energy Regions - Electric Utility Lines - TAPS Pipeline - Volanoes and Vents - Solar PowerSource: Alaska Energy AuthorityThis data is provided as a service in the DCRA Information Portal by the Alaska Department of Commerce, Community, and Economic Development Division of Community and Regional Affairs (SOA DCCED DCRA), Research and Analysis section. SOA DCCED DCRA Research and Analysis is not the authoritative source for this data. For more information and for questions about this data, see: Alaska Energy Data Gateway

Consumer Electrical Utilities in Alaskan communities as listed as Active in the Regulatory Commission of Alaska (RCA) Library where a relationship exists. The presented location of the Utility is mapped to the appropriate DCRA Community centroid.Source: Regulatory Commission of AlaskaThis data has been visualized in a Geographic Information Systems (GIS) format and is provided as a service in the DCRA Information Portal by the Alaska Department of Commerce, Community, and Economic Development Division of Community and Regional Affairs (SOA DCCED DCRA), Research and Analysis section. SOA DCCED DCRA Research and Analysis is not the authoritative source for this data. For more information and for questions about this data, see: Regulatory Commission of Alaska Library

November 2021

Utility Network GIS Migration Market Outlook

According to our latest research, the global Utility Network GIS Migration market size reached USD 2.04 billion in 2024, with a robust compound annual growth rate (CAGR) of 13.2% projected for the period from 2025 to 2033. By 2033, the market is anticipated to attain a value of USD 5.67 billion. The primary growth factor driving this surge is the increasing need for utilities to modernize legacy Geographic Information Systems (GIS) and integrate advanced digital mapping, asset management, and real-time data analytics to enhance operational efficiency and regulatory compliance.

One of the key growth drivers for the Utility Network GIS Migration market is the accelerating pace of digital transformation across utility sectors such as electricity, water, gas, and telecommunications. Utilities are under immense pressure to improve service reliability, reduce operational costs, and comply with evolving regulatory frameworks. The migration from traditional GIS platforms to next-generation utility network GIS solutions enables organizations to leverage spatial analytics, automate workflows, and support the integration of smart grid technologies. The proliferation of distributed energy resources, IoT devices, and the need for advanced outage management systems have further intensified the demand for robust and scalable GIS migration strategies. Utilities are increasingly prioritizing the modernization of their spatial data infrastructure to ensure seamless data flow, improve asset tracking, and enhance customer engagement, thereby fueling market expansion.

Another significant growth factor is the rising adoption of cloud-based GIS solutions, which offer utilities unparalleled flexibility, scalability, and cost-effectiveness. Cloud deployment models enable utilities to efficiently manage and analyze vast volumes of spatial and non-spatial data without the burden of maintaining on-premises infrastructure. This shift not only reduces capital expenditure but also accelerates the deployment of new functionalities and ensures rapid disaster recovery. Moreover, cloud-based GIS platforms facilitate real-time collaboration among field and office teams, enabling faster decision-making and improving response times during emergencies. The growing emphasis on sustainability, grid modernization, and the integration of renewable energy sources is prompting utilities to invest in cloud-enabled GIS migration projects to future-proof their operations and achieve long-term operational excellence.

The increasing regulatory focus on data accuracy, cybersecurity, and interoperability is also propelling the Utility Network GIS Migration market. Regulatory bodies worldwide are mandating utilities to maintain precise and up-to-date spatial data for effective asset management, outage response, and infrastructure planning. As a result, utilities are compelled to migrate from outdated GIS systems to advanced platforms that offer robust data governance, security, and integration capabilities. The need to comply with standards such as the Common Information Model (CIM) and industry-specific regulations is driving utilities to adopt sophisticated GIS migration strategies. Furthermore, the emergence of advanced technologies such as artificial intelligence, machine learning, and big data analytics is enabling utilities to extract deeper insights from spatial data, optimize maintenance schedules, and proactively address infrastructure vulnerabilities, thereby fostering market growth.

From a regional perspective, North America continues to dominate the Utility Network GIS Migration market, accounting for the largest share in 2024, followed closely by Europe and Asia Pacific. The rapid modernization of utility infrastructure, extensive deployment of smart grids, and the presence of leading GIS solution providers have positioned North America at the forefront of market growth. In Europe, stringent regulatory mandates and the push for sustainable energy transition are driving significant investments in GIS migration projects. Meanwhile, the Asia Pacific region is witnessing the fastest growth, fueled by large-scale infrastructure development, urbanization, and increasing government initiatives to improve utility services. The Middle East & Africa and Latin America are also emerging as promising markets, supported by ongoing digitalization efforts and investments in utility infrastructure upgrades.

Component Analysis

Geospatial data about Arkansas Electric Utility Territory. Export to CAD, GIS, PDF, CSV and access via API.

Utility GIS Field Data Collection Market Outlook

According to our latest research, the Utility GIS Field Data Collection market size reached USD 1.72 billion in 2024 globally, driven by rapid digital transformation across utility sectors and increasing demand for real-time data insights. The market is expected to expand at a robust CAGR of 13.1% from 2025 to 2033, reaching a forecasted value of USD 5.06 billion by 2033. This impressive growth trajectory is underpinned by the rising need for efficient asset management, regulatory compliance, and the integration of advanced geospatial technologies into utility operations, as per our comprehensive analysis.

The primary growth factor for the Utility GIS Field Data Collection market is the accelerating adoption of smart grid technologies and digital infrastructure upgrades by utility providers worldwide. Utilities are increasingly leveraging Geographic Information Systems (GIS) to streamline field operations, improve asset visibility, and enhance decision-making processes. The proliferation of IoT devices and mobile data collection platforms has further amplified the demand for GIS-based field data solutions, enabling utilities to capture, process, and analyze spatial data with unprecedented accuracy and speed. This shift is particularly pronounced in regions with aging infrastructure, where the need for modernization and operational efficiency is paramount. Additionally, regulatory mandates for accurate asset documentation and environmental compliance are compelling utilities to invest in advanced GIS field data collection tools.

Another significant growth catalyst is the surge in investments toward renewable energy integration and the modernization of water, gas, and electric utility networks. As utilities transition towards sustainable energy sources and smart distribution systems, the complexity of managing diverse assets and networks has increased substantially. GIS field data collection solutions provide utilities with the ability to map, monitor, and maintain these assets in real-time, reducing downtime and operational costs. The growing emphasis on predictive maintenance, driven by AI and machine learning algorithms, is also fueling the adoption of GIS-enabled field data collection for proactive infrastructure management. Furthermore, the ongoing urbanization and expansion of utility networks in emerging economies are creating new opportunities for market players.

The evolution of cloud computing and mobile technologies is reshaping how utilities approach field data collection. Cloud-based GIS platforms offer scalability, flexibility, and cost-effectiveness, making them attractive for both large and small utility providers. The integration of advanced analytics, real-time data synchronization, and remote collaboration features is enhancing the value proposition of GIS field data solutions. Moreover, the increasing focus on customer-centric services, such as outage management and service restoration, is driving utilities to adopt GIS-based field data collection for improved responsiveness and service quality. As digital transformation accelerates across the sector, the market is witnessing a surge in partnerships and collaborations between technology vendors and utility companies, further propelling growth.

Regionally, North America leads the Utility GIS Field Data Collection market owing to substantial investments in smart grid projects, stringent regulatory frameworks, and the presence of major technology providers. Europe follows closely, driven by ambitious sustainability targets and modernization initiatives in the utility sector. The Asia Pacific region is emerging as a high-growth market, supported by rapid urbanization, infrastructure expansion, and increasing adoption of digital technologies by utilities in countries such as China, India, and Japan. Latin America and the Middle East & Africa are also witnessing steady growth, albeit from a smaller base, as utilities in these regions embark on digital transformation journeys to enhance operational efficiency and service delivery.

Component Analysis

The component segment of the Utility GIS Field Data Collection market is broadly categorized into software, hardware, and services, each playing a pivotal role in supporting the digital transformation of utility operations. Software solutions form the backbone of GIS field data collection, offering advanced functionalities such a

Utility GIS Market Outlook

According to our latest research, the global Utility GIS market size reached USD 3.1 billion in 2024 and is expected to grow at a robust CAGR of 10.2% during the forecast period, reaching approximately USD 7.5 billion by 2033. The market’s expansion is primarily driven by the increasing adoption of geographic information systems (GIS) for efficient utility asset management, network optimization, and regulatory compliance across electric, water, gas, and telecommunication utilities. This growth trajectory is underpinned by the digital transformation of utility infrastructure and the rising need for real-time spatial data analytics.

The growth of the Utility GIS market is fueled by the accelerating integration of digital technologies within utility operations worldwide. Utilities are increasingly leveraging GIS solutions to enhance grid reliability, optimize asset performance, and support decision-making processes. With aging infrastructure and the growing complexity of utility networks, GIS platforms provide a comprehensive spatial view that enables predictive maintenance, efficient outage management, and streamlined regulatory reporting. Furthermore, the proliferation of smart grid initiatives and the integration of IoT sensors are generating massive geospatial datasets, which utility companies are harnessing through GIS for actionable insights and enhanced service delivery. The demand for advanced mapping, real-time monitoring, and data-driven planning is expected to intensify, further propelling market growth.

Another significant growth factor for the Utility GIS market is the increasing focus on sustainability and renewable energy integration. Utilities are under pressure to modernize their infrastructure to accommodate distributed energy resources, such as solar and wind, while maintaining grid stability and regulatory compliance. GIS solutions play a pivotal role in planning and managing these transitions by providing spatial intelligence for site selection, network expansion, and environmental impact assessment. Additionally, governments and regulatory bodies worldwide are mandating stricter asset management and reporting standards, compelling utilities to adopt robust GIS platforms. These factors, combined with rising investments in smart city projects and digital twins, are creating substantial opportunities for the Utility GIS market.

The ongoing shift towards cloud-based GIS solutions is another key driver shaping the Utility GIS market landscape. Cloud deployment offers utilities enhanced scalability, cost-efficiency, and remote accessibility, enabling seamless collaboration across geographically dispersed teams. This is particularly beneficial for utilities operating in multiple regions or those undertaking large-scale infrastructure upgrades. The adoption of cloud GIS also supports integration with other enterprise systems, such as ERP and asset management platforms, further enhancing operational efficiency. As utilities continue to embrace digital transformation and smart infrastructure, the demand for flexible, cloud-enabled GIS solutions is expected to surge, contributing to sustained market growth over the forecast period.

From a regional perspective, North America currently leads the Utility GIS market, driven by significant investments in grid modernization, advanced metering infrastructure, and stringent regulatory requirements. The presence of major technology providers and a strong focus on innovation further bolster market growth in this region. Europe follows closely, with robust adoption of GIS for renewable integration and smart city initiatives. Meanwhile, the Asia Pacific region is witnessing the fastest growth, attributed to rapid urbanization, expanding utility networks, and government-led digital infrastructure projects. Latin America and the Middle East & Africa are also emerging as promising markets, supported by increased investments in utility digitization and infrastructure development.

Component Analysis

The Utility GIS market is segmented by component into software, services, and hardware, each playing a vital role in the overall ecosystem. The software segment currently accounts for the largest share, driven by the growing demand for advanced GIS platforms that offer robust analytics, real-time data visualization, and seamless integration with other enterprise systems. Modern GIS software solutions are designed to handle large volumes

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 layer identifies the geographical areas to be served by electric utilities, regulated in part by the Florida Public Service Commission. For more information see http://www.psc.state.fl.us/utilities/electricgas/.