Open Government Licence - Canada 2.0https://open.canada.ca/en/open-government-licence-canada
License information was derived automatically
This data set shows utility lines that provide services for: * power * water * communications * heating fuel They include: * communication lines/submerged communication lines * hydro lines/submerged hydro lines * natural gas pipelines/submerged natural gas pipelines * water pipelines/submerged water pipelines * unknown pipelines * unknown transmission lines This product requires the use of GIS software. *[GIS]: geographic information system
https://www.ontario.ca/page/open-government-licence-ontariohttps://www.ontario.ca/page/open-government-licence-ontario
This data set shows utility lines that provide services for:powerwatercommunicationsheating fuelThey include:communication lines/submerged communication lineshydro lines/submerged hydro linesnatural gas pipelines/submerged natural gas pipelineswater pipelines/submerged water pipelinesunknown pipelinesunknown transmission linesAdditional Documentation Utility Line - Data Description (PDF) Utility Line - Documentation (Word)
Status
Required: data needs to be generated or updated
Maintenance and Update Frequency
Not planned: there are no plans to update the data
Contact
Ontario Ministry of Natural Resources - Geospatial Ontario, geospatial@ontario.ca
Recommendations Not for legal purposes. This data is collected with varying aerial photography dates and scales. It is a snap shot in time and maintenance of these features are uncertain.CAVEAT:Data for this information holding varies by OMNR District in terms of...-Completeness: - Concentrated surveys in one or more areas of the District. - Instances where no surveys were initiated, even though there is evidence of the value. - Instances where the value is not known to exist within the District. - Instances where attributes collected for the value will be minimal to verbose. - The data may exist only in a tabular form (files, hardcopy maps) within the District.-Accuracy: -Dependant on the value's source capture methodology. -G.P.S. coordinates vs. sketched location. -Generalized location (buffered point) vs. mapped area (polygon)-Vintage: -New vs. old value survey information for values in part(s) or all of the District.-Sensitivity: -Some OMNR Districts may consider a specific value or group of values sensitive, others may not. -Some of the values may be flagged as sensitive due to intellectual copyright. (i.e.: Professional Research). -The value may be flagged as sensitive due to its link or relation to First Nation Peoples. Please refer to this same section within the OMNRF District's version of this record for specific use constraints details.
The approximate location of major utility lines (electric, gas, communication) that run across Fairfax County.
This data set can be used to identify the location of linear utility features for providing services for power, water, communications, or heating fuel. Examples of utility lines include:
Supplementary tables can be used and are available for download from the additional documentation section. Supplementary look-up table descriptions are available in the data description document, which is available for download from the additional documentation section. This layer is part of what was known as the OMNR Fundamental Dataset.
This data set shows utility lines that provide services for:powerwatercommunicationsheating fuelThey include:communication lines/submerged communication lineshydro lines/submerged hydro linesnatural gas pipelines/submerged natural gas pipelineswater pipelines/submerged water pipelinesunknown pipelinesunknown transmission lines
https://www.beaconbid.com/index-licensehttps://www.beaconbid.com/index-license
City of Tallahassee is seeking bids for Electric Utility Line Clearance due 2024-12-12T06:00:00.000Z
The Utility Feature Classes identify utility lines or points (e.g., water lines) on FWS lands. Utility lines are identified by location; i.e. below ground, ground level etc. and are classified by conduit and utility type if known. Additional information for elevated electrical power line types relative to bird strike and electrocution can be included.
The polylines represent underground utilities such as cable TV, gas, oil, and telephone lines across various areas of Los Angeles County. All data were collected from LA County Substructure Grid Maps drawing. The utility lines are from cities that were contracted with LA County. To download the hardcopy maps, please visit: Los Angeles County Substructure Maps | County of Los Angeles Open Datahttps://egis-lacounty.hub.arcgis.com/maps/los-angeles-county-substructure-maps-1/explore?location=34.094631%2C-118.256950%2C7.82Every reasonable effort has been made to assure the accuracy of this data and the maps referenced. Some cities may provide substructure information for the areas not covered by our map grids. Additional and more accurate substructure data and information may also be obtained through the utility companies. The County of Los Angeles makes no warranty, representation, or guarantee as to the content, sequence, accuracy, timeliness, or completeness of any of the data provided herein or of any maps referenced. Los Angeles County Public Works recommends that all utility research be conducted under the supervision of a licensed civil engineer.
Homeland Infrastructure Foundation-Level Data (HIFLD) geospatial data sets containing information on Electric Power Transmission Lines.
Underground Utility Lines dataset current as of 2010. MDTA Utilities, Utilities, Gas, Electric, Sanitory, Water, Fuel lines.
Geospatial data about Fluvanna County, Virginia Utility Lines. Export to CAD, GIS, PDF, CSV and access via API.
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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.
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
description: Major electric utility lines covering the City of Raleigh jurisdiction. Features are derived from annual aerial photography updates. This layer is updated for a quarter of the city every year and is not a depiction of current conditions.; abstract: Major electric utility lines covering the City of Raleigh jurisdiction. Features are derived from annual aerial photography updates. This layer is updated for a quarter of the city every year and is not a depiction of current conditions.
The Utility Feature Class identifies utility lines or points (i.e. communications towers) on refuge lands. Utility lines are identified by location; i.e. below ground, ground level etc. and are classified by conduit and utility type if known. Additional information for elevated electrical power line types relative to bird strike and electrocution can be included.
https://www.datainsightsmarket.com/privacy-policyhttps://www.datainsightsmarket.com/privacy-policy
The utility locator industry, valued at approximately $XX million 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 drivers. Increasing urbanization and infrastructure development necessitate precise and efficient underground utility mapping to prevent costly damages and disruptions during excavation projects. Furthermore, stringent safety regulations and the growing awareness of the risks associated with accidental utility damage are pushing for wider adoption of advanced utility location technologies. The rising adoption of non-destructive testing methods, such as electromagnetic field and ground penetrating radar techniques, is also contributing to market expansion. Key segments within the industry include equipment (e.g., ground penetrating radar systems, electromagnetic locators), services (e.g., utility mapping, survey services), and diverse applications across oil & gas, electricity, transportation, water & sewage, and telecommunications sectors. The market is geographically diverse, with significant contributions from North America and Europe, but considerable growth potential exists in rapidly developing regions like Asia. Competition in the utility locator market is intense, with established players like ProStar Geocorp, Vivax-Metrotech, Leica Geosystems, and others vying for market share. The market's future trajectory will depend on technological innovation, including the development of more precise and efficient location technologies, improved data analysis capabilities, and the integration of GIS and other data management systems. The industry is also likely to see increasing adoption of cloud-based solutions and remote sensing technologies, further enhancing efficiency and cost-effectiveness. Challenges include the high initial investment costs associated with advanced equipment and the need for skilled personnel to operate and interpret the data generated. However, the overall market outlook remains positive, driven by the ongoing need for safe and efficient infrastructure development and maintenance globally. Recent developments include: September 2022: 2M partnered with Prostar Holdings Inc. to adopt Prostar's PointMan mobile application solution to enhance their utility mapping operations. Realizing lives depended on knowing where utilities are buried, 2M is committed to finding utilities with attention to detail on every project. PointMan proved to be a key differentiator in the market and continues to help companies like 2M provide value-added services to their clients., July 2022: Honeywell announced the extension of its smart energy offerings for utilities with its underground utility locating and data-capturing services. By harnessing survey-grade, Global Navigation Satellite System (GNSS) data, Honeywell Underground Utility Locating and Data Capturing Services allowed for building digital libraries of sub-centimeter maps. These digital maps enable underground utility lines to be located more quickly, efficiently, and precisely, ultimately preparing for the future of reusable data., February 2022: Irth Solutions collaborated with Lightbox to increase location awareness, enhance location accuracy, and reduce the costs of the ticket management process for the underground utility industry. With parcel information and the UtiliSphere platform, the utility screener could determine the exact location of the dig and clear tickets if the working professionals aren't touching the facility.. 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: Combining Data from Multiple Data Sources. Notable trends are: Transportation Sector to Hold Significant Market Share.
http://novascotia.ca/opendata/licence.asphttp://novascotia.ca/opendata/licence.asp
Part of the Nova Scotia Topographic Database (NSTDB), the utilities theme layer is updated and maintained from aerial photography, and verified with field inspections. Pipelines, Tanks and electrical substations are collected among other types of features. Utility feature codes and their descriptions are provided with the download in a NSTDB feature code table. Data download also available via GeoNova: https://nsgi.novascotia.ca/WSF_DDS/DDS.svc/DownloadFile?tkey=fhrTtdnDvfytwLz6&id=17 Map service view also available via GeoNova: https://nsgiwa.novascotia.ca/arcgis/rest/services/BASE/BASE_NSTDB_10k_Utilities_UT83/MapServer?f=jsapi
This data set shows utility lines that provide services for: * power * water * communications * heating fuel They include: * communication lines/submerged communication lines * hydro lines/submerged hydro lines * natural gas pipelines/submerged natural gas pipelines * water pipelines/submerged water pipelines * unknown pipelines * unknown transmission lines Instructions for downloading this dataset: * select the link below and scroll down the metadata record page until you find Transfer Options in the Distribution Information section * select the link beside the Data for download label * you must provide your name, organization and email address in order to access the dataset. This product requires the use of GIS software. *[GIS]: geographic information system
U.S. Government Workshttps://www.usa.gov/government-works
License information was derived automatically
Powerlines in the western United States and Canada as identified by the 22 source data layers used to compile this shapefile. Source data were collected by personal contact or through the internet in the winter and spring of 2004 and assimilated using ArcGIS. This file is a complete record of overhead powerline data that was available as of 5/15/2004 but IS NOT INTENDED TO BE A COMPLETE REPRESENTATION OF THE SUM TOTAL OF ALL POWERLINES ON THE GROUND. These data primarily depict the higher voltage, long distance transmission lines but some arcs likely represent lower voltage distribution lines.
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The underground utility locator market is set to experience significant growth, with a market size of USD 1.2 billion in 2023 and is projected to reach USD 2.5 billion by 2032, registering a CAGR of approximately 8.5% during the forecast period. The growth of this market is propelled by increasing infrastructure development activities and the need to prevent damages to underground utilities. Urbanization and industrialization have been key drivers for the market, as they lead to the expansion of utility networks, thereby necessitating advanced detection and location solutions to avoid costly and hazardous utility strikes. Additionally, technological advancements in detection techniques and precision in mapping underground utilities are fostering market growth.
One of the primary growth factors for the underground utility locator market is the rapid expansion of urban infrastructures, which requires extensive underground utility networks such as gas pipelines, water and sewage systems, and telecommunications lines. The growing number of construction projects, especially in developing regions, is increasing the demand for precise utility location tools to prevent inadvertent strikes that can lead to service interruptions, safety hazards, and costly repairs. Moreover, governments and municipalities are increasingly regulating construction activities, mandating the use of utility locators to ensure public safety and infrastructure integrity. This regulatory push ensures compliance and boosts the adoption of advanced utility location technologies.
Another growth factor is the technological advancements in utility detection methods. Traditional methods often lacked accuracy and efficiency, leading to increased risks of utility strikes. However, modern utility locators equipped with technologies such as electromagnetic sensors, ground-penetrating radar (GPR), and acoustic locators offer enhanced precision and reliability. These advanced systems are capable of detecting non-metallic utilities, which is a significant improvement over older technologies. Furthermore, the integration of digital mapping and data management solutions allows for better planning and execution of excavation activities, thereby reducing risks and costs associated with utility damage.
Environmental and economic considerations also play a crucial role in the growth of the underground utility locator market. Preventing utility damage not only avoids costly repairs but also mitigates environmental impacts such as leaks and spills. The adoption of utility locators is economically prudent for utility companies, construction firms, and municipalities as it reduces downtime and prevents legal liabilities. The emphasis on sustainable practices and efficient resource management is further driving the adoption of these technologies across various sectors.
The introduction of High Definition Locator technology is revolutionizing the way underground utilities are detected and mapped. This advanced technology offers unparalleled accuracy and clarity, allowing for the precise identification of utility lines and structures beneath the surface. High Definition Locators utilize state-of-the-art imaging and sensor technologies to create detailed maps of underground utilities, reducing the risk of accidental strikes and ensuring the safety of construction and maintenance operations. By providing real-time data and high-resolution images, these locators enhance decision-making processes and improve the efficiency of excavation activities. As the demand for more accurate and reliable utility location solutions grows, High Definition Locators are becoming an essential tool for industries that rely on precise underground mapping.
Regionally, North America is expected to hold a significant share of the underground utility locator market, driven by stringent regulations and high adoption rates of advanced utility detection technologies. However, the Asia Pacific region is anticipated to exhibit the highest growth rate during the forecast period, attributed to rapid urbanization, infrastructure development, and increased awareness about utility safety. Countries like China and India, with their extensive infrastructure projects, are becoming lucrative markets for utility locator manufacturers. Meanwhile, Europe is witnessing steady growth due to the renovation of aging infrastructures and the integration of smart city initiatives.
The unde
https://www.beaconbid.com/index-licensehttps://www.beaconbid.com/index-license
Continuing On-Call Water and WW Utility Line and Water and WW Utility Plant ES
Open Government Licence - Canada 2.0https://open.canada.ca/en/open-government-licence-canada
License information was derived automatically
This data set shows utility lines that provide services for: * power * water * communications * heating fuel They include: * communication lines/submerged communication lines * hydro lines/submerged hydro lines * natural gas pipelines/submerged natural gas pipelines * water pipelines/submerged water pipelines * unknown pipelines * unknown transmission lines This product requires the use of GIS software. *[GIS]: geographic information system