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GIS In Telecom Sector Market Size 2025-2029

The GIS in telecom sector market size is valued to increase USD 2.35 billion, at a CAGR of 15.7% from 2024 to 2029. Increased use of GIS for capacity planning will drive the GIS in telecom sector market.

Major Market Trends & Insights

APAC dominated the market and accounted for a 28% growth during the forecast period.
By Product - Software segment was valued at USD 470.60 billion in 2023
By Deployment - On-premises segment accounted for the largest market revenue share in 2023

Market Size & Forecast

Market Opportunities: USD 256.91 million
Market Future Opportunities: USD 2350.30 million
CAGR from 2024 to 2029: 15.7%

Market Summary

The market is experiencing significant growth as communication companies increasingly adopt Geographic Information Systems (GIS) for network planning and optimization. Core technologies, such as satellite imagery and location-based services, are driving this trend, enabling telecom providers to improve network performance and customer experience. One major application of GIS in the telecom sector is capacity planning, which allows companies to optimize their network infrastructure based on real-time data.
However, the integration of GIS with big data and other advanced technologies presents a communication gap between developers and end-users, requiring a focus on user-friendly interfaces and training programs. Additionally, regulatory compliance and data security remain significant challenges for the market. Despite these hurdles, the opportunities for innovation and improved operational efficiency make the market an exciting and evolving space.

What will be the Size of the GIS In Telecom Sector Market during the forecast period?

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How is the GIS In Telecom Sector Market Segmented ?

The GIS in telecom sector 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.

Product

  Software
  Data
  Services


Deployment

  On-premises
  Cloud


Application

  Mapping
  Telematics and navigation
  Surveying
  Location based services


Geography

  North America

    US
    Canada


  Europe

    France
    Germany
    UK


  APAC

    China
    India
    Japan
    South Korea


  South America

    Brazil


  Rest of World (ROW)

By Product Insights

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

The global telecom sector's reliance on Geographic Information Systems (GIS) continues to expand, with the market for GIS in telecoms projected to grow significantly. According to recent industry reports, the market for GIS data visualization and spatial data infrastructure in telecoms has experienced a notable increase of 18.7% in the past year. Furthermore, the demand for advanced spatial analysis tools, such as building penetration analysis, geospatial asset management, and work order management systems, has risen by 21.3%. Telecom companies utilize GIS for network performance monitoring, data integration platforms, and network planning. For instance, GIS enables network design, radio frequency interference analysis, route optimization software, mobile network optimization, signal propagation modeling, and service area mapping.

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The Software segment was valued at USD 470.60 billion in 2019 and showed a gradual increase during the forecast period.

Additionally, it plays a crucial role in infrastructure management, location-based services, emergency response planning, maintenance scheduling, and telecom network design. Moreover, the adoption of 3D GIS modeling, LIDAR data processing, and customer location mapping has gained traction, contributing to the market's expansion. The future outlook is promising, with industry experts anticipating a 25.6% increase in the use of GIS for telecom network capacity planning and telecom outage prediction. These trends underscore the continuous evolution of the market and its applications across various sectors.

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Regional Analysis

APAC is estimated to contribute 28% to the growth of the global market during the forecast period. Technavio's analysts have elaborately explained the regional trends and drivers that shape the market during the forecast period.

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In China, the construction of smart cities in Qingdao, Hangzhou, and Xiamen, among others, is driving the demand for Geographic Information Systems (GIS) in various sectors. By 2025, China aims to build more smart cities, leading to significant growth opportunities for GIS companies. Esri Global Inc., a leading player

According to Cognitive Market Research, the global GIS in Telecom market size is USD 1658.2 million in 2024. It will expand at a compound annual growth rate (CAGR) of 13.30% from 2024 to 2031.

North America held the major market share for more than 40% of the global revenue with a market size of USD 663.2 million in 2024 and will grow at a compound annual growth rate (CAGR) of 11.5% from 2024 to 2031.
Europe accounted for a market share of over 30% of the global revenue with a market size of USD 497.4 million.
Asia Pacific held a market share of around 23% of the global revenue with a market size of USD 381.3 million in 2024 and will grow at a compound annual growth rate (CAGR) of 15.3% from 2024 to 2031.
Latin America had a market share of more than 5% of the global revenue with a market size of USD 82.9 million in 2024 and will grow at a compound annual growth rate (CAGR) of 12.7% from 2024 to 2031.
Middle East and Africa had a market share of around 2% of the global revenue and was estimated at a market size of USD 33.1 million in 2024 and will grow at a compound annual growth rate (CAGR) of 13.0% from 2024 to 2031.
The Data Offering held the highest GIS in Telecom market revenue share in 2024.

Market Dynamics of GIS in Telecom Market

Key Drivers for GIS in Telecom Market

Rapid Surge in Demand for Network Installation to Increase the Demand Globally

The global demand for network installation is a key driver of the GIS in Telecom market. Determining the optimal location for network towers is essential for efficient operations. With increasing competition and the rapid deployment of new wireless technologies like 4G and 5G, telecom companies are prioritizing network planning and targeted expansion. According to the GSMA's Mobile Economy Report, the number of 5G global connections is expected to reach one billion in 2022 and double to two billion by 2025, representing a quarter of all mobile connections. Ericsson's Q4 2021 Mobility Report also highlighted this trend, raising its global forecast for 5G mobile connections from 580 million to 660 million by the end of 2021, driven by strong demand in China and North America. Given the high costs associated with planning, developing, and testing wireless networks, telecom companies are increasingly adopting GIS solutions to enhance their geographical data analysis for tower installation.

Rising Investments in Infrastructure Development to Propel Market Growth

Governments around the world are investing in smart city initiatives that require robust telecom infrastructure. Currently, 56% of the global population, or 4.4 billion people, reside in urban areas, and this figure is projected to rise to 68% over the next 30 years. By 2050, approximately 60% of the world's population is expected to be part of smart city initiatives. Consumer spending on smart home systems is predicted to reach $123 billion, while technology spending on smart city initiatives is anticipated to be around $124 billion. GIS is essential for planning and deploying these infrastructures. Additionally, there is a growing emphasis on extending telecom services to rural and remote areas, where GIS aids in the efficient planning and implementation of these connectivity programs.

Restraint Factor for the GIS in Telecom Market

High Initial Investment and Maintenance Costs to Limit the Sales

Deploying GIS technology involves substantial initial investment in software, hardware, and skilled personnel. This can be a significant barrier, especially for small and medium-sized telecom companies. The costs associated with maintaining and updating GIS systems, including data updates, system upgrades, and staff training, can be high and ongoing. GIS in telecom involves handling a large amount of sensitive geographic and customer data. Ensuring the security and privacy of this data is crucial, and any breaches can lead to significant financial and reputational damage..

Impact of Covid-19 on the GIS in Telecom Market

The shift to remote work and online education during the pandemic significantly increased the demand for reliable internet connectivity. Telecom companies had to expand and optimize their networks to meet this demand, driving the need for GIS solutions for efficient network planning and management. The rise in telemedicine and e-commerce also contributed to the increased demand for robust telecom infrastructure. GIS played a crucial rol...

According to Cognitive Market Research, the global GIS in Telecom Sector market size is USD XX million in 2024. It will expand at a compound annual growth rate (CAGR) of 15.00% from 2024 to 2031.

North America held the major market share for more than 40% of the global revenue with a market size of USD XX million in 2024 and will grow at a compound annual growth rate (CAGR) of 13.2% from 2024 to 2031.
Europe accounted for a market share of over 30% of the global revenue with a market size of USD XX million.
Asia Pacific held a market share of around 23% of the global revenue with a market size of USD XX million in 2024 and will grow at a compound annual growth rate (CAGR) of 17.0% from 2024 to 2031.
Latin America had a market share for more than 5% of the global revenue with a market size of USD XX million in 2024 and will grow at a compound annual growth rate (CAGR) of 14.4% from 2024 to 2031.
Middle East and Africa hada market share of around 2% of the global revenue and was estimated at a market size of USD XX million in 2024 and will grow at a compound annual growth rate (CAGR) of 14.7% from 2024 to 2031.
Large enterprises dominate the GIS in telecom sector market as primary end-users. These companies possess extensive telecom infrastructure and resources, making them ideal candidates for comprehensive GIS solutions.

Market Dynamics of GIS in Telecom Sector Market

Key Drivers for GIS in Telecom Sector Market

Increasing Demand for Efficient Network Planning and Optimization Solutions to Increase the Demand Globally

One of the primary drivers of the GIS in the telecom sector market is the escalating need for efficient network planning and optimization solutions. As telecom operators strive to enhance their network coverage and capacity, GIS technology plays a crucial role in providing detailed spatial analysis and visualization. This enables telecom companies to plan and optimize their networks more accurately, reducing operational costs and improving service quality. The capability of GIS to integrate various data layers, such as demographic, topographic, and network performance data, allows for precise decision-making and strategic deployment of resources, thereby driving its adoption in the telecom sector.

Expansion of Telecom Infrastructure in Emerging Markets to Propel Market Growth

Another significant driver is the expansion of telecom infrastructure in emerging markets. As countries in regions such as Asia-Pacific, Latin America, and Africa experience rapid economic growth, there is a substantial increase in the deployment of telecom networks to meet the rising demand for connectivity. GIS technology is instrumental in these large-scale infrastructure projects, providing essential tools for site selection, route optimization, and infrastructure management. By enabling telecom companies to efficiently plan and deploy their networks in challenging and diverse geographical landscapes, GIS helps accelerate the rollout of telecom services, enhancing connectivity and fostering economic development in these regions.

Restraint Factor for the GIS in Telecom Sector Market

High Initial Investment and Implementation Costs t to Limit the Sales

A significant restraint in the GIS in telecom sector market is the high initial investment and implementation costs. Integrating GIS technology into telecom operations requires substantial financial resources, including the cost of sophisticated software, high-performance hardware, and specialized personnel. Additionally, the implementation process can be complex and time-consuming, often necessitating significant changes to existing workflows and systems. These factors can be particularly challenging for smaller telecom operators and those in emerging markets, potentially hindering the widespread adoption of GIS solutions despite their long-term benefits. This financial barrier remains a critical challenge for the market's growth.

Impact of Covid-19 on the GIS in Telecom Sector Market

The COVID-19 pandemic has had a profound impact on the GIS in telecom sector market, accelerating the adoption of digital solutions and reshaping operational strategies. With the surge in remote work, online education, and digital services, the demand for reliable and expansive telecom networks has skyrocketed. GIS technology has become indispensable for telecom companies in managing this increased demand, aiding in network optimization ...

Collection of Feature Layers for early Broadband Initiative Work. 9-1-1 systems and telecommunications infrastructure also including mobile broadband deployment by technology type and by carrier.Non-DCRA data - collected by MatSu Borough from other Sources for very early Broadband Initiative research July 2021. Original Source as NotedPublic Safety Answering Points: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Public_Safety_Answering_Points/FeatureServer (Phone and email survey July 2020)Call Routing: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/FINAL_Call_Routing/FeatureServer (ATA Call Routing Survey 2020)Telecommunication Towers from FCC: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Cell_Towers_from_FCC/FeatureServer (8/3/2020 FCC Antenna Structure Registration (ASR) download Circa Jan 2024 see https://www.fcc.gov/wireless/systems-utilities/antenna-structure-registration. This may be already distributed in GIS form by the Homeland Infrastructure Foundation-Level Data (HIFLD) Portal (broken into various layers) see https://hifld-geoplatform.opendata.arcgis.com/Wireless Coverage 4G LTE: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Alaska_4GLTE_Wireless_Coverage/FeatureServer (FCC Form 477 data for Alaska using combined carriers delivering technology code 83)Wireless Coverage 3G 4G: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Alaska_3G_4G_Wireless_Coverage/FeatureServer (FCC Form 477 data for Alaska using combined carriers delivering technology code 81, HSPA+)Wireless Coverage 3G: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Alaska_3G_Wireless_Coverage/FeatureServer (Geographic extent of 3G wireless technology in Alaska compiled from all providers. Data from FCC Form 477 current as of June 2019)Wireless Coverage Analog: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Alaska_Analog_Wireless_Coverage/FeatureServer (Geographic extent of analog wireless technology in Alaska compiled from all providers. Data from FCC Form 477 current as of June 2019)Wireless Coverage 2G: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Alaska_2G_Wireless_Coverage/FeatureServer (Geographic extent of 2G wireless technology in Alaska compiled from all providers. Data from FCC Form 477 current as of June 2019)State Trooper Detachments (other than North Slope): https://services3.arcgis.com/3NvWZvRqANiCzqqd/ArcGIS/rest/services/AST_Detachments/FeatureServer (Alaska State Trooper Jurisdictions and Operational Area by Detachment. Revised 9/2020)This 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 and was last posted on July 1, 2021. SOA DCCED DCRA Research and Analysis is not the authoritative source for this data. For more information and for questions about this data, see: Mat-Su Open Data

A GPS survey by Allan Riach (Communications Officer, AAD) in September 2001 near Casey Station, Antarctica. The survey was conducted in the western part of Bailey Peninsula. Data collected included the locations of masts, points at which wire feeders change direction, aerial anchor points, a transformer and the receiver hut. Data representing aerials was derived from the locations of masts and aerial anchor points. Data representing feeders was derived from the locations of masts, points at which wire feeders change direction and the receiver hut. This dataset consists of point and line data. The data are included in the GIS data for Casey, available for download from a Related URL below. Data belonging to this dataset has dataset_id = 12. The data are formatted according to the SCAR Feature Catalogue (see Related URL below).

A GPS survey by Andrew Ruddell (AAD Glaciology) on 9 March 1999 at Casey Station, Antarctica. The survey was conducted along the road from Casey Station to Old Casey. The aim of the survey was to investigate the cause of the 'disappearance' of road gravel applied to the compacted snow road in the depression between Casey Station to Old Casey. This dataset consists of point data with an elevation (above mean sea level) attribute. The data, in Excel and shapefile formats, and Andrew's report are available for download (see Related URL below).

Collection of Feature Layers for early Broadband Initiative Work. 9-1-1 systems and telecommunications infrastructure also including mobile broadband deployment by technology type and by carrier.Non-DCRA data - collected by MatSu Borough from other Sources for very early Broadband Initiative research July 2021. Original Source as NotedPublic Safety Answering Points: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Public_Safety_Answering_Points/FeatureServer (Phone and email survey July 2020)Call Routing: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/FINAL_Call_Routing/FeatureServer (ATA Call Routing Survey 2020)Telecommunication Towers from FCC: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Cell_Towers_from_FCC/FeatureServer (8/3/2020 FCC Antenna Structure Registration (ASR) download Circa Jan 2024 see https://www.fcc.gov/wireless/systems-utilities/antenna-structure-registration. This may be already distributed in GIS form by the Homeland Infrastructure Foundation-Level Data (HIFLD) Portal (broken into various layers) see https://hifld-geoplatform.opendata.arcgis.com/Wireless Coverage 4G LTE: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Alaska_4GLTE_Wireless_Coverage/FeatureServer (FCC Form 477 data for Alaska using combined carriers delivering technology code 83)Wireless Coverage 3G 4G: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Alaska_3G_4G_Wireless_Coverage/FeatureServer (FCC Form 477 data for Alaska using combined carriers delivering technology code 81, HSPA+)Wireless Coverage 3G: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Alaska_3G_Wireless_Coverage/FeatureServer (Geographic extent of 3G wireless technology in Alaska compiled from all providers. Data from FCC Form 477 current as of June 2019)Wireless Coverage Analog: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Alaska_Analog_Wireless_Coverage/FeatureServer (Geographic extent of analog wireless technology in Alaska compiled from all providers. Data from FCC Form 477 current as of June 2019)Wireless Coverage 2G: https://services.arcgis.com/fX5IGselyy1TirdY/ArcGIS/rest/services/Alaska_2G_Wireless_Coverage/FeatureServer (Geographic extent of 2G wireless technology in Alaska compiled from all providers. Data from FCC Form 477 current as of June 2019)State Trooper Detachments (other than North Slope): https://services3.arcgis.com/3NvWZvRqANiCzqqd/ArcGIS/rest/services/AST_Detachments/FeatureServer (Alaska State Trooper Jurisdictions and Operational Area by Detachment. Revised 9/2020)This 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 and was last posted on July 1, 2021. SOA DCCED DCRA Research and Analysis is not the authoritative source for this data. For more information and for questions about this data, see: Mat-Su Open Data

The Australian Antarctic Data Centre's Mawson Station GIS data were originally mapped from March 1996 aerial photography. Refer to the metadata record 'Mawson Station GIS Dataset'. Since then various features have been added to this data as structures have been removed, moved or established. Some of these features have been surveyed. These surveys have metadata records from which the report describing the survey can be downloaded. However, other features have been 'eyed in' as more accurate data were not available. The eyeing in has been done based on advice from Australian Antarctic Division staff and using as a guide sources such as an aerial photograph, an Engineering plan, a map or a sketch. GPS data or measurements using a measuring tape may also have been used.

The data are included in the data available for download from a Related URL below. The data conform to the SCAR Feature Catalogue which includes data quality information. See a Related URL below. Data described by this metadata record has Dataset_id = 119. Each feature has a Qinfo number which, when entered at the 'Search datasets and quality' tab, provides data quality information for the feature.

This dataset represents cellular tower locations as recorded by the Federal Communications Commission This feature class serves as base information for use in GIS systems for general planning, analytical, and research purposes. It is not intended for engineering work or to legally define FCC licensee data or FCC market boundaries. The material in these data and text files are provided as-is. The FCC disclaims all warranties with regard to the contents of these files, including their fitness. In no event shall the FCC be liable for any special, indirect, or consequential damages whatsoever resulting from loss or use, data or profits, whether in connection with the use or performance of the contents of these files, action of contract, negligence, or other action arising out of, or in connection with the use of the contents of these files. It is known that there are some errors in the licensing information - Latitude, Longitude and Ground Elevation data as well as frequency assignment data from which these MapInfo files were generated.

This dataset includes the proposed field camp locations for the 2003/04 science expedition to Heard Island, the locations of the camp sites that were used during the expedition and the locations of some of the refuges on the island that were surveyed during the expedition. It is a point dataset stored in the Geographical Information System (GIS). The proposed field camp locations are shown in a map (refer to link below).

The global utility coordination services market is experiencing robust growth, driven by increasing urbanization, expanding infrastructure projects, and stringent regulations aimed at minimizing disruptions during utility work. The market's size in 2025 is estimated at $15 billion, reflecting a compound annual growth rate (CAGR) of approximately 7% from 2019 to 2024. This growth is fueled by several key factors. Firstly, the rising complexity of underground and above-ground utility networks necessitates sophisticated coordination to prevent costly damages and service interruptions. Secondly, governments worldwide are increasingly mandating utility coordination to ensure public safety and efficient project delivery. This regulatory push is particularly evident in North America and Europe, regions that currently hold significant market share. Finally, technological advancements, such as GIS mapping and digital collaboration platforms, are improving efficiency and reducing the risk of errors in utility coordination. The Water and Wastewater, and Electric Power application segments are expected to lead the market growth, followed by Oil and Gas and Transportation sectors due to their extensive utility networks. The market is segmented by application (Water and Wastewater, Electric Power, Transportation, Oil and Gas, Telecommunications, Others) and type (Underground Utility, Above Ground Utility). While North America and Europe currently dominate the market, Asia-Pacific is poised for significant growth, driven by rapid infrastructure development in countries like China and India. However, factors like high initial investment costs for technology adoption and a potential shortage of skilled professionals could restrain market growth to some extent. The competitive landscape is characterized by a mix of large multinational firms and specialized regional players. Companies are focusing on strategic partnerships, technological innovations, and expansion into new geographic markets to maintain a competitive edge. The forecast period (2025-2033) anticipates continued market expansion, with the CAGR potentially increasing slightly as technology adoption accelerates and infrastructure development continues globally. This positive outlook makes the utility coordination services market an attractive sector for investment and expansion.

This dataset is intended for researchers, students, and policy makers for reference and mapping purposes, and may be used for basic applications such as viewing, querying, and map output production, or to provide a basemap to support graphical overlays and analysis with other spatial data.

The ArcGIS Pro Permitting and Environmental Information Tool (APPEIT) Project Package includes all of the layers that are in the NTIA Permitting and Environmental Information Application as well as the APPEIT Tool which will allow users to input a project area and determine what layers from the application overlap with it. An overview of the project package and the APPEIT tool is provided below. User instructions on how to use the tool are available here. Instructions now include how to customize the tool by adding your own data. A video explaining how to use the Project Package is also available here. Project Package OverviewThis map package includes all of the layers from the NTIA Permitting and Environmental Information Application. The layers included are all feature services from various Federal and State agencies. The map package was created with ArcGIS Pro 3.4.0. The map package was created to allow users easy access to all feature services including symbology. The map package will allow users to avoid downloading datasets individually and easily incorporate into their own GIS system. The map package includes three maps.1. Permitting and Environmental Information Application Layers for GIS Analysis - This map includes all of the map tabs shown in the application, except State Data which is provided in another tab. This map includes feature services that can be used for analysis with other project layers such as a route or project area. 2. Permitting and Environmental Information Application Layers – For Reference Only - This map includes layers that cannot be used for analysis since they are either imagery or tile layers.3. State Data - Reference Only - This map includes all relevant state data that is shown in the application.The NTIA Permitting and Environmental Information Application was created to help with your permitting planning and environmental review preparation efforts by providing access to multiple maps from publicly available sources, including federal review, permitting, and resource agencies. The application should be used for informational purposes only and is intended solely to assist users with preliminary identification of areas that may require permits or planning to avoid potentially significant impacts to environmental resources subject to the National Environmental Policy Act (NEPA) and other statutory requirements. Multiple maps are provided in the application which are created from public sources. This application does not have an exhaustive list of everything you need for permitting or environmental review for a project but is an initial starting point to see what might be required.APPEIT Tool OverviewThe Department of Commerce’s National Telecommunications and Information Administration (NTIA) is providing the ArcGIS Pro Permitting and Environmental Information Tool (APPEIT) to help federal broadband grant recipients and subgrantees identify permits and environmental factors as they plan routes for their broadband deployments. Identifying permit requirements early, initiating pre-application coordination with permitting agencies, and avoiding environmental impacts help drive successful infrastructure projects. NTIA’s public release of the APPEIT tool supports government-wide efforts to improve permitting and explore how online and digital technologies can promote efficient environmental reviews. This Esri ArcGIS Pro tool is included in the map package and was created to support permitting, planning, and environmental review preparation efforts by providing access to data layers from publicly available sources, including federal review, permitting, and resource agencies. An SOP on how to use the tool is available here. For the full list of APPEIT layers, see Appendix Table 1 in the SOP. The tool is comprised of an ArcGIS Pro Project containing a custom ArcGIS Toolbox tool, linked web map shared by the NTIA’s National Broadband Map (NBAM), a report template, and a Tasks item to guide users through using the tool. This ArcGIS Pro project and its contents (maps and data) are consolidated into this (.ppkx) project file. To use APPEIT, users will input a project area boundary or project route line in a shapefile or feature class format. The tool will return as a CSV and PDF report that lists any federal layers from the ArcGIS Pro Permitting and Environmental Information Web Map that intersect the project. Users may only input a single project area or line at a time; multiple projects or project segments will need to be screened separately. For project route lines, users are required to specify a buffer distance. The buffer distance that is used for broadband projects should be determined by the area of anticipated impact and should generally not exceed 500 feet. For example, the State of Maryland recommends a 100-foot buffer for broadband permitting. The tool restricts buffers to two miles to ensure relevant results. DisclaimerThis document is intended solely to assist federal broadband grant recipients and subgrantees in better understanding Infrastructure Investment and Jobs Act (IIJA) broadband grant programs and the requirements set forth in the Notice of Funding Opportunity (NOFO) for this program. This document does not and is not intended to supersede, modify, or otherwise alter applicable statutory or regulatory requirements, the terms and conditions of the award, or the specific application requirements set forth in the NOFO. In all cases, statutory and regulatory mandates, the terms and conditions of the award, the requirements set forth in the NOFO, and follow-on policies and guidance, shall prevail over any inconsistencies contained in this document. NTIA’s ArcGIS Pro Permitting and Environmental Information Tool (APPEIT) should be used for informational purposes only and is intended solely to assist users with preliminary identification of broadband deployments that may require permits or planning to avoid potentially significant impacts to environmental resources subject to the National Environmental Policy Act (NEPA) and other statutory requirements. The tool is not an exhaustive or complete resource and does not and is not intended to substitute for, supersede, modify, or otherwise alter any applicable statutory or regulatory requirements, or the specific application requirements set forth in any NTIA NOFO, Terms and Conditions, or Special Award Condition. In all cases, statutory and regulatory mandates, and the requirements set forth in NTIA grant documents, shall prevail over any inconsistencies contained in these templates. The tool relies on publicly available data available on the websites of other federal, state, local, and Tribal agencies, and in some instances, private organizations and research institutions. Layers identified with a double asterisk include information relevant to determining if an “extraordinary circumstance” may warrant more detailed environmental review when a categorical exclusion may otherwise apply. While NTIA continues to make amendments to its websites to comply with Section 508, NTIA cannot ensure Section 508 compliance of federal and non-federal websites or resources users may access from links on NTIA websites. All data is presented “as is,” “as available” for informational purposes. NTIA does not warrant the accuracy, adequacy, or completeness of this information and expressly disclaims liability for any errors or omissions. Please e-mail NTIAanalytics@ntia.gov with any questions.