The global underground utility mapping software market is projected to reach a staggering value of over $15 billion by 2033, exhibiting a remarkable CAGR of more than 8% throughout the forecast period (2023-2033). This surge is attributed to a confluence of factors, including the growing adoption of advanced technologies for efficient utility management, escalating infrastructure investment worldwide, and the imperative to enhance public safety by preventing accidents caused by buried utilities. The increasing emphasis on smart city development and the need to optimize utility mapping processes for improved decision-making further contribute to the market's expansion. The market for underground utility mapping software is characterized by its diverse segments. Based on application, it encompasses Water and Wastewater, Power Delivery, Transportation, Telecommunications, and others. Cloud-based and On-premises deployment models are the primary types of software available, catering to varying organizational needs and infrastructure capabilities. North America currently dominates the market, followed by Europe and Asia Pacific. Key players in the industry include ProStar, Juniper Systems, 4M Analytics, Geolantis, Hexagon, Sensors & Software, AEC Solutions, Bentley, Radar Systems, and Geoinfo. Strategic partnerships and technological advancements are expected to shape the competitive landscape in the years to come.

The global Underground Utilities Mapping Services market is experiencing robust growth, driven by increasing urbanization, expanding infrastructure projects, and stringent regulations regarding underground utility damage prevention. The market, estimated at $15 billion in 2025, is projected to exhibit a Compound Annual Growth Rate (CAGR) of 7% from 2025 to 2033. This growth is fueled by several key trends, including the rising adoption of advanced technologies like LiDAR, ground-penetrating radar (GPR), and GIS mapping systems, which offer improved accuracy and efficiency. Furthermore, the growing demand for efficient utility management, minimizing disruptions during construction, and reducing risks associated with accidental damage to underground infrastructure are significant contributors to market expansion. The increasing awareness of sustainable infrastructure development and the need to prevent costly repairs and service disruptions also play a vital role. Major market segments include services offered by specialized mapping companies, utility companies themselves, and government agencies. While a detailed segmentation breakdown is not provided, industry knowledge suggests significant market shares for companies focused on specific utility types (e.g., gas, electric, water), and also for those specializing in specific mapping technologies. Competitive landscape analysis reveals a fragmented market with both large multinational corporations and smaller specialized firms actively competing. This competitive environment fosters innovation and drives down costs, further contributing to market growth. Despite the positive outlook, potential restraints include the high initial investment costs associated with advanced technologies and the need for skilled professionals to operate and interpret the data. Nonetheless, the overall market trajectory suggests sustained growth throughout the forecast period, driven by the continued demand for efficient and reliable underground utility mapping services.

Underground Utility Mapping Market Outlook

The underground utility mapping market has been witnessing significant growth, with its market size estimated at USD 1.2 billion in 2023. It is anticipated to reach USD 2.5 billion by 2032, demonstrating a compound annual growth rate (CAGR) of 8.3% during the forecast period. This growth can be attributed to the increasing demand for accurate underground utility visualization and mapping solutions, which are critical for urban development, infrastructure management, and reducing risks associated with construction and excavation activities. As urbanization expands globally, there is a growing need for technologies that can reliably detect and map subterranean utilities, thus driving market growth.

One of the key growth drivers for the underground utility mapping market is the rising emphasis on minimizing damage and accidents during construction activities. With the proliferation of underground utilities such as water pipes, gas lines, and electrical cables, there is an increasing need to prevent damage to these utilities, which can result in significant operational disruptions and financial liabilities. This has heightened the demand for advanced mapping technologies that can help identify the precise locations of underground assets. Moreover, regulatory frameworks across various countries are mandating utility mapping before undertaking construction projects, thus propelling market growth.

The technological advancements in mapping techniques such as electromagnetic location, ground penetrating radar, and acoustic location are also contributing significantly to the market growth. These techniques offer superior accuracy and efficiency in identifying underground utilities, making them indispensable tools for construction companies, utility service providers, and government agencies. The integration of these technologies with advanced data analytics and geographic information systems (GIS) enhances their utility, providing detailed insights into the subterranean environment and facilitating informed decision-making processes.

Another growth factor is the increasing investment in infrastructure development projects worldwide. As governments and private sectors invest heavily in developing and upgrading urban infrastructure, there is a heightened demand for reliable and precise utility mapping solutions. This trend is particularly prominent in developing regions where rapid urbanization and industrialization are underway. Additionally, the emergence of smart city initiatives, which require robust underground utility networks to support advanced technologies, is further fueling the demand for underground utility mapping solutions.

In the realm of urban development and infrastructure management, Underground Facilities Maintenance plays a pivotal role in ensuring the longevity and functionality of subterranean utilities. As cities expand and the complexity of underground networks increases, the need for regular maintenance becomes ever more critical. This involves routine inspections, repairs, and upgrades to prevent unexpected failures and extend the lifespan of utility systems. Effective maintenance strategies not only safeguard against disruptions but also optimize the performance of utilities, thereby supporting sustainable urban growth. By integrating advanced technologies and data-driven approaches, maintenance teams can proactively address potential issues, ensuring that underground facilities continue to operate efficiently and safely.

Regionally, North America holds a significant share of the underground utility mapping market, attributed to the presence of well-established infrastructure, strict regulatory standards, and high adoption of advanced technologies. Europe follows closely, driven by its strong emphasis on sustainable urban planning and infrastructure safety. The Asia Pacific region is expected to witness the highest growth rate, spurred by rapid urbanization, infrastructural development projects, and increasing government initiatives to ensure safe construction practices. Meanwhile, the Middle East & Africa and Latin America are also showing promising growth potential, as they increasingly invest in infrastructure modernization and urban development.

Component Analysis

The underground utility mapping market is segmented by components into software, hardware, and services, each playing a critical role in the comprehensive mapping process. The software segment is prim

This map displays drought, climate, streamflow and snow analyses data for the United States. The map was created by the National Integrated Drought Information System (NIDIS) and is a component of the Water Utilities Sector web mapping application, a tool for exploring the relationship between drought, climate and the water utilities sector in the United States.Data Sources for each layer are identified in the Layer section below as well as in the Layer and Legend sections of the web map. Additional information about the impact of drought on the water utilities sector can be found on the NIDIS Water Utilities Sector page.

Water Meter points within Fuquay-Varina. Most meter devices are owned and maintained by the Town, which provides water utility services. However, on some commercial sites, for example, the meter box and meter yoke are actually privately owned and maintained while the meter device is owned and maintained by the Town. This water meter dataset is constantly under development and improvement as there is increasing demand to integrate GIS meter information with other solutions. Please note that some meter points are not field-validated and some are not associated with a valid METERID for water service, and may essentially be duplicated legacy locations from old GIS data. Please note that ALL public utility data layers can be downloaded in a single .mpkx (ArcGIS Pro map package file), updated every Friday evening. This .mpkx file can be opened directly with ArcGIS Pro version 3+. Alternatively, you can extract the file geodatabase within it by renaming the file ending .mpkx to .zip and treating it like a zip archive file, for use in any version of ArcGIS Pro or ArcMap software. You can also use QGIS, a powerful, free, and open-source GIS software.The Town of Fuquay-Varina creates, maintains, and serves out a variety of utility information to the public, including its Potable Water System, Sanitary Sewer System, and Stormwater Collection System features. This is the same utility data displayed in our public web map. This utility data includes some features designated as 'private' that are not owned or maintained by the Town, but may be helpful for modeling and other informational purposes. Please pay particular attention to the terms of use and disclaimer associated with these data. Some data includes the use of Subtypes and Domains that may not translate well to Shapefile or GeoJSON downloads available through our Open Data site. Please beware the dangers of cartographic misrepresentation if you are unfamiliar with filtering and symbolizing data based on attributes. Water System Layers:Water LinesWater ValvesWater ManholesFire HydrantsFire Department ConnectionsWater MetersRPZ (Backflow Preventers)Water TankWater Booster StationsHarnett County Water District AreaSewer System Layers:Gravity Sewer LinesForced Sewer LinesSewer ManholesSewer ValvesSewer CleanoutsSewer Pump StationsWastewater Treatment PlantsStormwater System Layers:Stormwater Lines (Pipes)Stormwater Points (Inlets/Outlets/Manholes)Stormwater Control Measure Points (SCM's, such as Wet Ponds / Retention Basins)

The Subsurface Utility Mapping (SUM) market is experiencing robust growth, driven by increasing urbanization, infrastructure development projects, and the need to prevent costly damages during excavation. The market, valued at approximately $8 billion in 2025, is projected to exhibit a Compound Annual Growth Rate (CAGR) of 7% from 2025 to 2033, reaching an estimated market size of $14 billion by 2033. This growth is fueled by several key trends, including the rising adoption of advanced technologies like LiDAR, ground-penetrating radar (GPR), and GIS mapping systems for enhanced accuracy and efficiency. Government regulations mandating utility mapping before excavation further contribute to market expansion. While the market faces some restraints, such as high initial investment costs for advanced technologies and the need for skilled professionals, these challenges are being mitigated by advancements in technology making the equipment more affordable and accessible. The market segmentation reveals significant opportunities across various applications, including water pipelines, gas pipelines, electric cables, and telecommunications. The North American region currently holds a dominant market share, followed by Europe and Asia Pacific, with developing economies in Asia Pacific presenting high growth potential. The competitive landscape is characterized by a mix of established players and emerging companies. Established firms leverage their experience and extensive networks, while new entrants focus on offering innovative solutions and competitive pricing. Key players such as RETTEW, SurvTech Solutions, Inc., and Sensors & Software Inc. are actively investing in research and development to stay ahead of the competition, leading to a continuous improvement in the accuracy and efficiency of subsurface utility mapping technologies. The future growth of the SUM market is strongly tied to the ongoing expansion of infrastructure globally, smart city initiatives, and the increased focus on sustainable infrastructure development, thus paving the way for continued market expansion and innovation.

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Utility Locator Market Size 2024-2028

The utility locator market size is forecast to increase by USD 1.93 billion at a CAGR of 5.48% between 2023 and 2028.

The market is experiencing significant growth, driven by increasing safety and security concerns surrounding the protection of underground utilities. With the rise in gas pipeline laying projects, the demand for utility locators is on the rise. However, the market is not without challenges. The complexity and high costs associated with retrofitting existing infrastructure with utility locating technology pose significant obstacles. Despite these challenges, companies can capitalize on the market's growth potential by investing in innovative solutions that streamline the utility locating process and reduce costs. Additionally, partnerships and collaborations with pipeline operators and construction companies can provide opportunities for market expansion. Overall, the market presents a compelling investment opportunity for companies seeking to address growing safety concerns and capitalize on the increasing demand for utility locating technology.

What will be the Size of the Utility Locator Market during the forecast period?

Request Free SampleThe market in the United States is experiencing significant growth due to the increasing demand for safety and protection during excavation projects. This market encompasses technologies used for detecting and locating subsurface gas pipelines, electricity, oil and gas, and other underground utilities. Traditional digging practices have given way to technologically advanced tools such as Ground Penetrating Radar (GPR) and advanced utility locators that utilize electromagnetic fields. Stringent regulations mandate the use of utility locating services to prevent damage to subterranean facilities, ensuring food security and public safety. The aging infrastructure of utility systems also necessitates continuous inspection and maintenance, further fueling market growth. Additionally, the evolution of utility locating technologies has led to the emergence of referral services and specialized leak detection tools. The market's size is substantial, with continued expansion driven by the growing importance of efficient excavation practices and the need for reliable utility infrastructure in the face of water shortages and increasing energy demands.

How is this Utility Locator Industry segmented?

The utility locator industry research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD million' for the period 2024-2028, as well as historical data from 2018-2022 for the following segments. TypeElectromagnetic fieldGPREnd-userOil and gasElectricityTransportationOthersGeographyNorth AmericaUSCanadaEuropeGermanyUKAPACJapanSouth AmericaMiddle East and Africa

By Type Insights

The electromagnetic field segment is estimated to witness significant growth during the forecast period.Utility locating technologies, driven by advanced electromagnetic field locators, have gained significant traction in the industry due to their high efficiency and cost-effectiveness compared to conventional methods. These solutions are primarily used for detecting, mapping, and surveying metallic utilities such as piped natural gas lines, water pipes, and telecommunications cables. The market's growth is further fueled by the increasing demand for technologically advanced products from key participants. For instance, 3M DigiFinder DF-1500, an electromagnetic locator, offers real-time detection and high accuracy, making it a preferred choice for excavation projects. Digital technologies, including GPS-enabled verifiers and geophysical technologies like ground-penetrating radar (GPR), are also gaining popularity in utility locating. GPR, in particular, is increasingly being used for subsurface site characterizations and leak detection in subterranean facilities, including gas lines and water pipes. Additionally, the adoption of 5G technology in utility locating is expected to revolutionize the industry by enabling faster and more precise locating. Safety and protection are paramount in utility infrastructure, and utility locating solutions play a crucial role in ensuring excavation safety. Stringent regulations mandate the use of comprehensive referral services and electromagnetic locators to prevent damage to underground utilities during digging practices. The market's growth is further driven by the increasing importance of preserving food security, transportation infrastructure, and water resources by preventing damage to subsurface utility infrastructure. Non-metallic utilities, such as high-speed rail projects and electricity lines, also require specialized utility locating solutions. Innovative solutions, such as those based on digital technologies, are increasingly being adopted to meet the unique challenges posed by these utilities. For example

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GIS In Utility Industry Market Size 2025-2029

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

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

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

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

How is this GIS In Utility Industry Industry segmented?

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

By Product Insights

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

The global Subsurface Utility Mapping (SUM) market is projected to expand rapidly, with a valuation set to reach millions by 2033. This growth is attributed to increasing urbanization, aging infrastructure, and stringent government regulations mandating the detection and mapping of buried utilities before construction projects. Additionally, the rising adoption of non-destructive technologies, such as ground-penetrating radar and electromagnetic induction, further fuels market expansion. Key industry players include RETTEW, SurvTech Solutions, Inc., Sensors & Software Inc., DGT Associates, Utility Mapping Services Inc., and Patterson & Dewar Engineers, Inc. These companies offer a range of services, including utility identification, mapping, and design, catering to various sectors such as water pipelines, gas pipelines, electric cables, telecommunication, transportation, and others. Strategic collaborations, acquisitions, and technological advancements are shaping the competitive landscape, as companies strive to meet the growing demand for accurate and reliable subsurface utility mapping services. Subsurface Utility Mapping (SUM) involves the precise location and mapping of underground utilities and infrastructure using advanced technologies. This report provides a comprehensive analysis of the global SUM market, focusing on market concentration, trends, key regions, segments, and industry developments.

The Underground Utility Mapping Software market has emerged as a vital segment in the utility management and construction industries, driven by the increasing need for accurate and efficient subsurface utility mapping. This software aids professionals in locating and visualizing underground utilities, such as water

The Underground Utility Mapping market is projected to be valued at $1.2 billion in 2024, driven by factors such as increasing consumer awareness and the rising prevalence of industry-specific trends. The market is expected to grow at a CAGR of 8.5%, reaching approximately $2.5 billion by 2034.

A Certificate of Convenience and Necessity (CCN) is issued by the Public Utility Commission of Texas (PUCT), and authorizes a utility to provide water and/or sewer service to a specific service area. The CCN obligates the water or sewer retail public utility to provide continuous and adequate service to every customer who requests service in that area. The maps and digital data provided in the Water and Sewer CCN Viewer delineate the official CCN service areas and CCN facility lines issued by the PUCT and its predecessor agencies. This dataset is a Texas statewide polygon layer of sewer CCN service areas. The CCNs were digitized from Texas Department of Transportation (TxDOT) county mylar maps. The mylar maps were the base maps on which the CCNs were originally drawn and maintained. CCNs are currently created and maintained using digitizing methods, coordinate geography or imported from digital files submitted by the applicant. TxDOT digital county urban road files are used as the base maps on which the CCNs are geo-referenced. It is best to view the sewer CCN service area data in conjunction with the sewer CCN facility line data, since these two layers together represent all of the retail public sewer utilities in Texas.*Important Notes: The CCN spatial dataset and metadata were last updated on: October 4, 2022The official state-wide CCN spatial dataset includes all types of CCN services areas: water and sewer CCN service areas; water and sewer CCN facility lines. This CCN spatial dataset is updated on a quarterly, or as needed basis using Geographic Information System (GIS) software called ArcGIS 10.8.2.The complete state-wide CCN spatial dataset is available for download from the following website: http://www.puc.texas.gov/industry/water/utilities/gis.aspxThe Water and Sewer CCN Viewer may be accessed from the following web site: http://www.puc.texas.gov/industry/water/utilities/map.htmlIf you have questions about this CCN spatial dataset or about CCN mapping requirements, please e-mail CCN Mapping Staff: water@puc.texas.govTYPE - Indicates whether a CCN is considered a water or a sewer system. If the CCN number begins with a '"1", the CCN is considered a water system (utility). If a CCN number begins with a "2", the CCN is considered a sewer system (utility).CCN_NO - A unique five-digit number assigned to each CCN when it is created and approved by the Commission. *CCN number starting with an ‘N’ indicates an exempt utility.UTILITY - The name of the utility which owns the CCN.COUNTY - The name(s) of the county(ies) in which the CCN exist.CCN_TYPE –One of three types:Bounded Service Area: A certificated service area with closed boundaries that often follow identifiable physical and cultural features such as roads, rivers, streams and political boundaries. Facilities +200 Feet: A certificated service area represented by lines. They include a buffer of a specified number of feet (usually 200 feet). The lines normally follow along roads and may or may not correspond to distribution lines or facilities in the ground.Facilities Only: A certificated service area represented by lines. They are granted for a "point of use" that covers only the customer connections at the time the CCN is granted. Facility only service lines normally follow along roads and may or may not correspond to distribution lines or facilities in the ground.STATUS – For pending dockets check the PUC Interchange Filing Search

Stormwater Pipe/Conveyance Lines in Fuquay-Varina. Please note that many of the stormwater line features represent privately owned and maintained pipes, and these are essential for mapping and understanding the stormwater drainage network sub-systems at the neighborhood level. Please pay attention to the Subtype field to identify the different categories of public vs. private and culvert type stormwater lines. Directionality (start vs. end vertices) of these line features reflects real world flow direction. The GIS data in the area of Downtown Fuquay-Varina has a lot of old and erroneous stormwater features. A project is currently underway to correct much of this inaccurate stormwater data. Please note that ALL public utility data layers can be downloaded in a single .mpkx (ArcGIS Pro map package file), updated every Friday evening. This .mpkx file can be opened directly with ArcGIS Pro version 3+. Alternatively, you can extract the file geodatabase within it by renaming the file ending .mpkx to .zip and treating it like a zip archive file, for use in any version of ArcGIS Pro or ArcMap software. You can also use QGIS, a powerful, free, and open-source GIS software.The Town of Fuquay-Varina creates, maintains, and serves out a variety of utility information to the public, including its Potable Water System, Sanitary Sewer System, and Stormwater Collection System features. This is the same utility data displayed in our public web map. This utility data includes some features designated as 'private' that are not owned or maintained by the Town, but may be helpful for modeling and other informational purposes. Please pay particular attention to the terms of use and disclaimer associated with these data. Some data includes the use of Subtypes and Domains that may not translate well to Shapefile or GeoJSON downloads available through our Open Data site. Please beware the dangers of cartographic misrepresentation if you are unfamiliar with filtering and symbolizing data based on attributes. Water System Layers:Water LinesWater ValvesWater ManholesFire HydrantsFire Department ConnectionsWater MetersWater Meter VaultsRPZ (Backflow Preventers)Water TankWater Booster StationsHarnett County Water District AreaSewer System Layers:Gravity Sewer LinesForced Sewer LinesSewer ManholesSewer ValvesSewer CleanoutsSewer Pump StationsWastewater Treatment PlantsStormwater System Layers:Stormwater Lines (Pipes)Stormwater Points (Inlets/Outlets/Manholes)Stormwater Control Measure Points (SCM's, such as Wet Ponds / Retention Basins)

Hendersonville Utility GIS Data - Web Mapping Application

Boundaries are based on PLSS lines and broken down to the quarter section level. Hyperlinks to 1/4 1/4 Utility Maps and Valve swing-tie maps are hosted from this layer due to the sharing quarter section map extents.Attribute Information:Field Name DescriptionOBJECTIDESRI software specific field that serves as an index for the database.MAPNUMA combination of section and quarter section numbers.TRMAPNUMTownship and range included before the map number.TRMAPNUMDIRTRMAPNUM with the inclusion of directional values.GlobalIDESRI software specific field that is automatically assigned by the geodatabase at row creation.ShapeESRI software specific field denoting the geometry type of the asset.created_userName of user whom created the asset.created_dateDate when the asset was created.last_edited_userName of user whom most recently edited asset information.last_edited_dateDate when asset was most recently updated.ConvertedProgress tracking field.

Water Lines (pipes) within Fuquay-Varina. This is a rather extensive collection of a number of sub-types of water lines, and includes both public and privately owned features. Mainly, there are public water mains, public hydrants legs, private hydrant/fire legs, and private mains/service lines. Water service lines (i.e. service legs from mains to meters) maintained by the Town are only recently being mapped in our GIS system and are limited. When using this data, please pay close attention to WLine_Subtype and OWNEDBY fields. Please note that ALL public utility data layers can be downloaded in a single .mpkx (ArcGIS Pro map package file), updated every Friday evening. This .mpkx file can be opened directly with ArcGIS Pro version 3+. Alternatively, you can extract the file geodatabase within it by renaming the file ending .mpkx to .zip and treating it like a zip archive file, for use in any version of ArcGIS Pro or ArcMap software. You can also use QGIS, a powerful, free, and open-source GIS software.The Town of Fuquay-Varina creates, maintains, and serves out a variety of utility information to the public, including its Potable Water System, Sanitary Sewer System, and Stormwater Collection System features. This is the same utility data displayed in our public web map. This utility data includes some features designated as 'private' that are not owned or maintained by the Town, but may be helpful for modeling and other informational purposes. Please pay particular attention to the terms of use and disclaimer associated with these data. Some data includes the use of Subtypes and Domains that may not translate well to Shapefile or GeoJSON downloads available through our Open Data site. Please beware the dangers of cartographic misrepresentation if you are unfamiliar with filtering and symbolizing data based on attributes. Water System Layers:Water LinesWater ValvesWater ManholesFire HydrantsFire Department ConnectionsWater MetersRPZ (Backflow Preventers)Water TankWater Booster StationsHarnett County Water District AreaSewer System Layers:Gravity Sewer LinesForced Sewer LinesSewer ManholesSewer ValvesSewer CleanoutsSewer Pump StationsWastewater Treatment PlantsStormwater System Layers:Stormwater Lines (Pipes)Stormwater Points (Inlets/Outlets/Manholes)Stormwater Control Measure Points (SCM's, such as Wet Ponds / Retention Basins)

The market for GIS Mapping Tools is projected to reach a value of $XX million by 2033, growing at a CAGR of XX% during the forecast period (2025-2033). The market growth is attributed to the increasing adoption of GIS mapping tools by various industries, including government, utilities, and telecom, for a wide range of applications such as geological exploration, water conservancy projects, and urban planning. The convergence of GIS with other technologies such as artificial intelligence (AI) and the Internet of Things (IoT) is further driving market growth, as these technologies enable GIS mapping tools to provide more accurate and real-time data analysis. The market is segmented by type (cloud-based, web-based), application (geological exploration, water conservancy projects, urban planning, others), and region (North America, Europe, Asia Pacific, Middle East & Africa). North America is expected to remain the largest market for GIS mapping tools throughout the forecast period, due to the early adoption of these technologies and the presence of leading vendors such as Esri, MapInfo, and Autodesk. Asia Pacific is expected to experience the highest growth rate during the forecast period, due to the increasing adoption of GIS mapping tools in emerging economies such as China and India. Key industry players include Golden Software Surfer, Geoway, QGIS, GRASS GIS, Google Earth Pro, CARTO, Maptive, Shenzhen Edraw Software, MapGIS, Oasis montaj, DIVA-GIS, Esri, MapInfo, Autodesk, BatchGeo, Cadcorp, Hexagon, Mapbox, Trimble, and ArcGIS.

The utility locator industry, valued at $0.91 billion in 2025, is experiencing robust growth, projected to expand at a compound annual growth rate (CAGR) of 6.56% from 2025 to 2033. This growth is fueled by several key factors. Increasing urbanization and infrastructure development necessitate efficient and safe utility mapping to prevent costly damages during excavation projects. Furthermore, stringent government regulations mandating damage prevention and the rising adoption of advanced technologies like electromagnetic field and ground penetrating radar systems are driving market expansion. The industry is segmented by offering (equipment and services), target (metallic and non-metallic utilities), technique (electromagnetic field, ground penetrating radar, and other techniques), and application (oil & gas, electricity, transportation, water & sewage, telecommunications, and others). The competitive landscape includes established players like Vivax-Metrotech, Radiodetection Ltd, and Sensors & Software Inc, alongside emerging companies innovating in data analytics and software solutions. North America and Europe currently hold significant market shares, but the Asia-Pacific region is anticipated to witness substantial growth driven by infrastructure development initiatives. The market's future trajectory hinges on continued technological advancements, particularly in the development of more accurate, efficient, and user-friendly locating equipment. Integration of GPS, GIS, and data analytics capabilities into utility location systems is expected to enhance operational efficiency and improve data management. Growing awareness regarding safety and reducing excavation-related damage will further fuel demand. However, high initial investment costs associated with advanced technologies and the need for skilled personnel to operate and interpret the data could pose challenges. Overall, the utility locator market presents a promising investment opportunity with strong growth potential throughout the forecast period, driven by the imperative to safely manage and maintain critical underground infrastructure. Recent developments include: September 2023 - Sonoco Products Company acquired RTS Packaging, a US-based manufacturer specializing in packaging and containers. This move bolsters Sonoco's portfolio, particularly in the realm of 100% recycled fiber-based packaging. The aim is to meet the rising consumer demands across various sectors, including wine, spirits, food, beauty, and healthcare., September 2023 - Sealed Air partnered with Sparck Technologies, a packaging and container manufacturer based in the Netherlands. This collaboration aimed to revolutionize packaging practices for businesses across the Asia Pacific region., August 2023 - Amcor Plc acquired Phoenix Flexibles, an Indian packaging and container manufacturer, to bolster its production capacity in response to rising demand. Leveraging cutting-edge film technology, Amcor is now equipped to locally manufacture a broader range of sustainable packaging solutions. This strategic move not only diversifies Amcor's product portfolio but also positions it to cater to lucrative market segments.. Key drivers for this market are: Rising Demand for Real-Time Detection Tools for Underground Utilities, Increase Investment for Inspection of Deteriorating Infrastructure. Potential restraints include: Rising Demand for Real-Time Detection Tools for Underground Utilities, Increase Investment for Inspection of Deteriorating Infrastructure. Notable trends are: Transportation Sector to Hold Significant Market Share.

A Certificate of Convenience and Necessity (CCN) is issued by the PUCT, and authorizes a utility to provide water and/or sewer service to a specific service area. The CCN obligates the water or sewer retail public utility to provide continuous and adequate service to every customer who requests service in that area. The maps and digital data provided in the Water and Sewer CCN Viewer delineate the official CCN service areas and CCN facility lines issued by the PUCT and its predecessor agencies.This dataset is a Texas statewide polyline layer of water CCN facility lines. The CCNs were digitized from Texas Department of Transportation (TxDOT) county mylar maps. The mylar maps were the base maps on which the CCNs were originally drawn and maintained. CCNs are currently created and maintained using digitizing methods, coordinate geography or imported from digital files submitted by the applicant. TxDOT digital county urban road files are used as the base maps on which the CCNs are geo-referenced.This dataset is a Texas statewide polyline layer of water Certificates of Convenience and Necessity (CCN) facility lines. This type of CCN may either be a Facilities Only (F0), a CCN Facility line (point of use) service area that covers only the customer connections at the time the CCN was granted, or Facilities plus a specified number of feet (usually 200 feet buffer) around the facility line. It is best to view the water CCN facility lines in conjunction with the water CCN service areas, since these two layers together represent all of the retail public water utilities in Texas.*Important Notes: The CCN spatial dataset and metadata were last updated on: October 4, 2022The official state-wide CCN spatial dataset includes all types of CCN services areas: water and sewer CCN service areas; water and sewer CCN facility lines. This CCN spatial dataset is updated on a quarterly, or as needed basis using Geographic Information System (GIS) software called ArcGIS 10.8.2.The complete state-wide CCN spatial dataset is available for download from the following website: http://www.puc.texas.gov/industry/water/utilities/gis.aspxThe Water and Sewer CCN Viewer may be accessed from the following web site: http://www.puc.texas.gov/industry/water/utilities/map.htmlIf you have questions about this CCN spatial dataset or about CCN mapping requirements, please e-mail CCN Mapping Staff: water@puc.texas.govTYPE - Indicates whether a CCN is considered a water or a sewer system. If the CCN number begins with a '"1", the CCN is considered a water system (utility). If a CCN number begins with a "2", the CCN is considered a sewer system (utility).CCN_NO - A unique five-digit number assigned to each CCN when it is created and approved by the Commission. *CCN number starting with an ‘N’ indicates an exempt utility.UTILITY - The name of the utility which owns the CCN.COUNTY - The name(s) of the county(ies) in which the CCN exist.CCN_TYPE –One of three types:Bounded Service Area: A certificated service area with closed boundaries that often follow identifiable physical and cultural features such as roads, rivers, streams and political boundaries. Facilities +200 Feet: A certificated service area represented by lines. They include a buffer of a specified number of feet (usually 200 feet). The lines normally follow along roads and may or may not correspond to distribution lines or facilities in the ground.Facilities Only: A certificated service area represented by lines. They are granted for a "point of use" that covers only the customer connections at the time the CCN is granted. Facility only service lines normally follow along roads and may or may not correspond to distribution lines or facilities in the ground.STATUS – For pending dockets check the PUC Interchange Filing Search