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This dashboard depicts the status of NG9-1-1 data submitted to Datmark VEP, a data validation software solution.

NG911 GIS Data Management Platforms Market Outlook

According to our latest research, the NG911 GIS Data Management Platforms market size reached USD 1.32 billion in 2024 globally, with a robust compound annual growth rate (CAGR) of 14.8% projected from 2025 to 2033. By 2033, the market is forecasted to reach USD 4.27 billion, driven by increasing government mandates for advanced emergency communication systems, rising public safety concerns, and the rapid adoption of geographic information system (GIS) technologies to enhance emergency response precision. The market demonstrates significant momentum as public and private sectors invest in next-generation 911 (NG911) infrastructure, ensuring improved situational awareness and more efficient incident management.

One of the primary growth factors propelling the NG911 GIS Data Management Platforms market is the global transition from legacy E911 systems to advanced NG911 frameworks. Governments and regulatory bodies are mandating the adoption of NG911 standards to enable more accurate, data-rich, and timely emergency responses. The integration of GIS data management platforms has become vital for supporting real-time location tracking, dynamic call routing, and interoperability among emergency services. This shift is further supported by growing urbanization, which increases the complexity of emergency management and necessitates more sophisticated solutions for mapping, visualization, and data sharing across agencies. As a result, investments in NG911 GIS platforms are surging, especially in regions with high population densities and advanced digital infrastructure.

Another key driver for market growth is the proliferation of mobile devices and the increasing use of multimedia in emergency communications. With the rise of smartphones, citizens are now able to send texts, images, and videos to emergency services, demanding platforms that can process and manage large volumes of geospatial and multimedia data efficiently. NG911 GIS Data Management Platforms are uniquely positioned to address these requirements, offering robust capabilities for data integration, analysis, and visualization. This technological evolution is fostering collaboration between public safety agencies and private technology providers, accelerating the deployment of scalable, cloud-based solutions that can adapt to evolving communication needs while ensuring data security and privacy.

The market is also benefiting from significant advancements in cloud computing, artificial intelligence, and machine learning, which are enhancing the capabilities of NG911 GIS platforms. These technologies enable predictive analytics, automated location validation, and real-time mapping, empowering emergency responders with actionable insights and situational awareness. The adoption of cloud-based deployment models is particularly notable, as it allows organizations to scale their operations, improve disaster recovery, and reduce capital expenditures. Furthermore, ongoing research and development efforts are focused on integrating next-generation features such as indoor mapping, IoT device connectivity, and augmented reality, which are expected to unlock new opportunities and expand the market’s addressable scope in the coming years.

Regionally, North America continues to dominate the NG911 GIS Data Management Platforms market, accounting for over 44% of the global market share in 2024. This leadership is attributed to the early adoption of NG911 standards, substantial government funding, and a highly developed public safety infrastructure. Europe follows as the second-largest market, driven by regulatory harmonization and cross-border emergency communication initiatives. Meanwhile, the Asia Pacific region is witnessing the fastest growth, fueled by rapid urbanization, increasing investments in smart city projects, and rising awareness about the benefits of advanced GIS platforms for emergency management. As countries across Latin America and the Middle East & Africa begin to modernize their emergency response systems, the global market is expected to experience sustained growth throughout the forecast period.

GIS quality control checks are intended to identify issues in the source data that may impact a variety of9-1-1 end use systems.The primary goal of the initial CalOES NG9-1-1 implementation is to facilitate 9-1-1 call routing. Thesecondary goal is to use the data for telephone record validation through the LVF and the GIS-derivedMSAG.With these goals in mind, the GIS QC checks, and the impact of errors found by them are categorized asfollows in this document:Provisioning Failure Errors: GIS data issues resulting in ingest failures (results in no provisioning of one or more layers)Tier 1 Critical errors: Impact on initial 9-1-1 call routing and discrepancy reportingTier 2 Critical errors: Transition to GIS derived MSAGTier 3 Warning-level errors: Impact on routing of call transfersTier 4 Other errors: Impact on PSAP mapping and CAD systemsGeoComm's GIS Data Hub is configurable to stop GIS data that exceeds certain quality control check error thresholdsfrom provisioning to the SI (Spatial Interface) and ultimately to the ECRFs, LVFs and the GIS derivedMSAG.

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.

This map depicts the status of Datamark VEP, a data validation software, onboarding for PSAPs throughout Idaho.

Location Validation for NG911 Market Outlook

According to our latest research, the global market size for Location Validation for NG911 reached USD 1.34 billion in 2024, with a robust compound annual growth rate (CAGR) of 13.2% projected over the forecast period. By 2033, the market is expected to achieve a size of USD 3.73 billion, propelled by surging demand for next-generation emergency communication systems, regulatory mandates, and the integration of advanced geospatial technologies. The growth of this market is underpinned by the increasing necessity for accurate, real-time location data to support public safety operations and emergency response efficiency.

A primary growth driver for the Location Validation for NG911 market is the global transition from legacy E911 systems to Next Generation 911 (NG911) platforms. NG911 is designed to enhance emergency communication by enabling the transmission of voice, text, images, and video to Public Safety Answering Points (PSAPs). This transition demands highly accurate location validation solutions to ensure that emergency calls are routed to the correct response centers, minimizing response times and saving lives. The proliferation of mobile devices and the increasing use of Voice over Internet Protocol (VoIP) services have made traditional location validation methods obsolete, creating a critical need for advanced, real-time geolocation technologies that can handle diverse data sources and complex routing requirements.

Another significant factor fueling market expansion is the growing regulatory emphasis on public safety and emergency response modernization. Government agencies across North America, Europe, and Asia Pacific are mandating the adoption of NG911 standards, which include stringent requirements for location accuracy and validation. These regulations are driving investments in sophisticated software and hardware solutions capable of integrating Geographic Information Systems (GIS), address validation algorithms, and incident management platforms. The convergence of cloud computing, artificial intelligence, and big data analytics is further enhancing the capabilities of location validation systems, enabling seamless interoperability, scalability, and rapid deployment across large geographic regions.

The rising incidence of natural disasters, urbanization, and the increasing complexity of emergency response scenarios are also contributing to the growth of the Location Validation for NG911 market. Urban centers, with their dense populations and intricate infrastructure, require highly reliable and precise location validation to ensure effective emergency management. Additionally, the COVID-19 pandemic has underscored the importance of resilient, technology-driven public safety systems, prompting both public and private sector stakeholders to accelerate the adoption of NG911 solutions. The integration of IoT devices, smart city technologies, and real-time data feeds is expected to further drive innovation and market growth in the coming years.

From a regional perspective, North America currently dominates the Location Validation for NG911 market, accounting for the largest share due to early regulatory adoption, advanced telecommunications infrastructure, and significant investments by government agencies in public safety modernization. Europe is rapidly catching up, driven by EU-wide mandates and the increasing focus on cross-border emergency response coordination. The Asia Pacific region is witnessing the fastest growth, fueled by rapid urbanization, government-led smart city initiatives, and rising awareness of the benefits of NG911 systems. Latin America and the Middle East & Africa, while currently smaller markets, are expected to experience steady growth as regulatory frameworks and infrastructure investments mature.

Component Analysis

The Component segment of the Location Validation for NG911 market is divided into software, hardware, and services, each play

Location Validation for NG911 Market Outlook

According to our latest research, the global Location Validation for NG911 market size in 2024 stands at USD 1.94 billion, with a robust year-on-year momentum. The market is expected to expand at a CAGR of 11.2% from 2025 to 2033, reaching an estimated USD 5.01 billion by the end of the forecast period. This impressive growth trajectory is primarily driven by the increasing adoption of Next Generation 911 (NG911) systems, the surging need for accurate location data in emergency response, and the evolution of digital communication infrastructures globally.

The primary growth factor for the Location Validation for NG911 market is the escalating demand for real-time, precise location identification during emergencies. Traditional 911 systems are rapidly being replaced or upgraded to NG911, which leverages IP-based protocols to deliver enhanced data, including multimedia, text, and, most critically, accurate caller location information. This shift is crucial as first responders require pinpointed locations to reduce response times and save lives. Additionally, regulatory mandates across several regions, especially in North America and Europe, are compelling public safety agencies and telecom operators to invest in advanced location validation solutions. The integration of Geographic Information Systems (GIS) and real-time data analytics further amplifies the reliability and efficiency of NG911 services, thereby fueling market expansion.

Another significant driver is the technological advancements in mobile device location tracking and integration with IoT (Internet of Things) networks. As the penetration of smartphones and connected devices rises, the complexity of accurately pinpointing a caller’s location in multi-story buildings, urban canyons, or remote areas becomes more challenging. Innovations such as hybrid location determination (combining GPS, Wi-Fi, Bluetooth, and cellular data) and AI-powered analytics are being rapidly adopted to overcome these challenges. Moreover, the increasing incidence of natural disasters, public safety threats, and the growing awareness among citizens about the importance of reliable emergency services are prompting governments and private entities to prioritize investments in location validation technologies for NG911.

The market is also witnessing a surge in partnerships and collaborations among technology providers, public safety agencies, and telecom operators. These alliances are fostering the development of interoperable and scalable NG911 solutions that can seamlessly integrate with existing infrastructure while adhering to stringent security and privacy standards. Furthermore, the emergence of cloud-based deployment models is enabling smaller municipalities and rural areas to access advanced location validation capabilities without significant upfront capital investments. This democratization of technology is expected to open new avenues for growth, particularly in developing regions where legacy 911 systems are still prevalent.

From a regional perspective, North America continues to dominate the Location Validation for NG911 market, accounting for the largest share in 2024 due to early adoption, supportive regulatory frameworks, and significant investments by government agencies. Europe follows closely, driven by the EU’s eCall initiative and ongoing modernization of emergency communication networks. The Asia Pacific region is poised for the fastest growth, propelled by rapid urbanization, expanding telecom infrastructure, and increasing public safety investments in countries like China, India, and Japan. Latin America and the Middle East & Africa are gradually catching up, with pilot projects and regulatory reforms paving the way for future market expansion.

Component Analysis

The Component segment of the Location Validation for NG911 market is broadly classified into Software, Hardware, and Services. Software solutions form the backbone of location validation, enabling the integration of various data sources, real-time analytics, and seamless communication between emergency call centers and first responders. These solutions are increasingly leveraging artificial intelligence and machine learning algorithms to enhance the precision and speed of location determination. As NG911 systems become more sophisticated, the demand for scalable, interoperable, and secure software platforms is surging, e

This data set is part of the NENA Standard NG911 GIS Data Model and is referred to as the RoadCenterlineLine layer in the GIS Data Layers Registry in NENA-STA-010 [3] and in NENA documents. The Road Centerlines feature class represents the navigable roadway network used for Next Generation 911 (NG911) call routing and location validation in North Carolina. Each feature is a linear geometry depicting the centerline of a roadway segment and includes standardized attributes required for emergency response operations. These attributes include complete road name elements, left and right address ranges with parity, directionality, and jurisdictional information.The data set is structured according to the NG911 GIS Data Model and aligns with NENA NG911 data standards. The data is maintained by local GIS authorities and aggregated at the state level to ensure completeness, topological accuracy, and interoperability across jurisdictions. The RoadCenterlineLine layer is an integral part of any public safety GIS. Projected Coordinate System: NAD 1983 (2011) State Plane North Carolina FIPS 3200 (US Feet).

The Provisioning Boundary layer defines the area of GIS data provisioning for the City of Whitehorse. This boundary must be agreed to by all adjoining data provisioning providers. When provisioning data for an ECRF (Emergency Call Routing Function) and LVF (Location Validation Function) the City of Whitehorse must only include GIS data for their geographic area of responsibility and must ensure the data includes coverage for the entire extent of that area. Data was modeled using the NENA NG9-1-1 GIS Data Template (NENA-REF-006. 2 -202 2 ). Distributed from GeoYukon by the Government of Yukon . Discover more digital map data and interactive maps from Yukon's digital map data collection. For more information: geomatics.help@yukon.ca

This document explains the purpose, logic, and results of Minnesota’s Next Generation 9-1-1 (NG9-1-1) Street Name Validation found on the Minnesota NG9-1-1 GIS Data Validation and Aggregation Portal.

This layer is utilized in Next Generation 911 for both geospatial call routing and location validation functions. Creation and maintenance of data is performed by local Public Safety Answering Points in partnership with counties, GIS vendors, and other public safety agencies and with support from the Nebraska Public Service Commission. Disparate datasets are aggregated at the state level and provisioned to the NG911 core services by the 911 department of the PSC. The component datasets have been standardized sufficiently to serve the purposes of NG911 core services, but differences in methodology may persist depending on the use cases for local jurisdictions; for example, some counties may develop points to represent the points of actual structures, while others may develop points representing access points to properties. Similarly, some jurisdictions may have sub-address points for locations with multiple structures or units sharing an address, while others may only have a single point to represent such locations.

The Provisioning Boundary layer defines the area of GIS data provisioning for the City of Whitehorse. This boundary must be agreed to by all adjoining data provisioning providers. When provisioning data for an ECRF (Emergency Call Routing Function) and LVF (Location Validation Function) the City of Whitehorse must only include GIS data for their geographic area of responsibility and must ensure the data includes coverage for the entire extent of that area. Data was modeled using the NENA NG9-1-1 GIS Data Template (NENA-REF-006. 2 -202 2 ). Distributed from GeoYukon by the Government of Yukon . Discover more digital map data and interactive maps from Yukon's digital map data collection. For more information: geomatics.help@yukon.ca

This document explains the purpose, logic, and results of Minnesota’s Next Generation 9-1-1 (NG9-1-1) ESN Validation found on the Minnesota NG9-1-1 GIS Data Validation and Aggregation Portal.

This document explains the purpose, logic, and results of Minnesota’s Next Generation 9-1-1 (NG9-1-1) Master Street Address Guide (MSAG) Validation found on the Minnesota NG9-1-1 GIS Data Validation and Aggregation Portal.

AddressNC has been prioritized by the North Carolina Geographic Information Coordinating Council (GICC) as a critical framework dataset. The AddressNC Program runs parallel to and is derived from the North Carolina 911 Board Next Generation 911 (NG911) Program.  Address data has been identified as mission critical for validation and accurate call routing within NG911 and the AddressNC Program completes a full-circle approach of address maintenance and sustainability through applied enhancements and quality control beyond 911 requirements.  A primary goal of AddressNC is to continually develop and maintain quality address points on a continuous cycle through updates published in NG911. Various agencies in federal, state, and local government can benefit by applying practical applications of quality addressing in their own programs, negating the need to rely on outdated statewide addressing data and/or using paid address data sets from third party sources.

1Spatial has put together a rule package (“Address Validation”) for Minnesota's Next Generation 9-1-1 (NG9-1-1) GIS Program to validate Road Centerline (RCL) and Address Point (ADP) address data. This rule catalog provides documentation for the current state of the rule package.

AddressNC has been prioritized by the North Carolina Geographic Information Coordinating Council (GICC) as a critical framework dataset. The AddressNC Program runs parallel to and is derived from the North Carolina 911 Board Next Generation 911 (NG911) Program.  Address data has been identified as mission critical for validation and accurate call routing within NG911 and the AddressNC Program completes a full-circle approach of address maintenance and sustainability through applied enhancements and quality control beyond 911 requirements.  A primary goal of AddressNC is to continually develop and maintain quality address points on a continuous cycle through updates published in NG911. Various agencies in federal, state, and local government can benefit by applying practical applications of quality addressing in their own programs, negating the need to rely on outdated statewide addressing data and/or using paid address data sets from third party sources.

AddressNC has been prioritized by the North Carolina Geographic Information Coordinating Council (GICC) as a critical framework dataset. The AddressNC Program runs parallel to and is derived from the North Carolina 911 Board Next Generation 911 (NG911) Program.  Address data has been identified as mission critical for validation and accurate call routing within NG911 and the AddressNC Program completes a full-circle approach of address maintenance and sustainability through applied enhancements and quality control beyond 911 requirements.  A primary goal of AddressNC is to continually develop and maintain quality address points on a continuous cycle through updates published in NG911. Various agencies in federal, state, and local government can benefit by applying practical applications of quality addressing in their own programs, negating the need to rely on outdated statewide addressing data and/or using paid address data sets from third party sources.

AddressNC has been prioritized by the North Carolina Geographic Information Coordinating Council (GICC) as a critical framework dataset. The AddressNC Program runs parallel to and is derived from the North Carolina 911 Board Next Generation 911 (NG911) Program.  Address data has been identified as mission critical for validation and accurate call routing within NG911 and the AddressNC Program completes a full-circle approach of address maintenance and sustainability through applied enhancements and quality control beyond 911 requirements.  A primary goal of AddressNC is to continually develop and maintain quality address points on a continuous cycle through updates published in NG911. Various agencies in federal, state, and local government can benefit by applying practical applications of quality addressing in their own programs, negating the need to rely on outdated statewide addressing data and/or using paid address data sets from third party sources.