89 datasets found
  1. a

    Water Utility - All Features (GDB)

    • hub.arcgis.com
    Updated Aug 13, 2020
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    City of Coquitlam (2020). Water Utility - All Features (GDB) [Dataset]. https://hub.arcgis.com/documents/e6d025f534e34ab19743fc7f609b20be
    Explore at:
    Dataset updated
    Aug 13, 2020
    Dataset authored and provided by
    City of Coquitlam
    Description

    Complete Water Utility Network in file geodatabase format. Consume this dataset if you wish to download the entire Water Utility network dataset at once.

  2. a

    Communications Utility - All Features (SHP)

    • hub.arcgis.com
    Updated Oct 29, 2020
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    City of Coquitlam (2020). Communications Utility - All Features (SHP) [Dataset]. https://hub.arcgis.com/documents/ae46747af7f94d63b23a39bbcff6397f
    Explore at:
    Dataset updated
    Oct 29, 2020
    Dataset authored and provided by
    City of Coquitlam
    Description

    Complete Communications Utility Network in shapefile format. Consume this dataset if you wish to download the entire Communications Utility network dataset at once.

  3. GIS In Utility Industry Market Analysis North America, Europe, APAC, Middle...

    • technavio.com
    Updated Dec 31, 2024
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    Technavio (2024). GIS In Utility Industry Market Analysis North America, Europe, APAC, Middle East and Africa, South America - US, China, Canada, Japan, Germany, Russia, India, Brazil, France, UAE - Size and Forecast 2025-2029 [Dataset]. https://www.technavio.com/report/gis-market-in-the-utility-industry-analysis
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    Dataset updated
    Dec 31, 2024
    Dataset provided by
    TechNavio
    Authors
    Technavio
    Time period covered
    2021 - 2025
    Area covered
    Global, United States, Canada
    Description

    Snapshot img

    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

  4. a

    Meters - Cityworks

    • hub.arcgis.com
    Updated May 14, 2024
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    City of Las Vegas (2024). Meters - Cityworks [Dataset]. https://hub.arcgis.com/maps/lasvegas::meters-cityworks
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    Dataset updated
    May 14, 2024
    Dataset authored and provided by
    City of Las Vegas
    Area covered
    Description

    This service has been designed to support the advance capabilities of the ArcGIS Utility Network.

  5. r

    Stormwater Manhole

    • geohub.roundrocktexas.gov
    • geohub-corr.hub.arcgis.com
    Updated Nov 19, 2024
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    City of Round Rock (2024). Stormwater Manhole [Dataset]. https://geohub.roundrocktexas.gov/datasets/stormwater-manhole
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    Dataset updated
    Nov 19, 2024
    Dataset authored and provided by
    City of Round Rock
    Area covered
    Description

    This layer contains the data for the stormwater manholes in the City of Round Rock, located in Williamson County, Texas. This layer is part of an original dataset provided and maintained by the City of Round Rock GIS/IT and Public Works Departments. The data in this layer are represented as points.A manhole is defined as a small, covered opening in a floor, pavement, or other surface to allow a person to enter, especially an opening in a city street leading to a sewer or stormwater drain. This layer includes data about the city's manholes such as addresses, materials, elevations, types, uses, and conditions.

  6. a

    Backflow - Cityworks

    • hub.arcgis.com
    Updated May 14, 2024
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    City of Las Vegas (2024). Backflow - Cityworks [Dataset]. https://hub.arcgis.com/maps/lasvegas::backflow-cityworks
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    Dataset updated
    May 14, 2024
    Dataset authored and provided by
    City of Las Vegas
    Area covered
    Description

    This service has been designed to support the advance capabilities of the ArcGIS Utility Network.

  7. S

    Storm Network Structures

    • data.sanjoseca.gov
    • gisdata-csj.opendata.arcgis.com
    Updated Apr 28, 2025
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    Enterprise GIS (2025). Storm Network Structures [Dataset]. https://data.sanjoseca.gov/dataset/storm-network-structures
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    arcgis geoservices rest api, kml, zip, csv, geojson, htmlAvailable download formats
    Dataset updated
    Apr 28, 2025
    Dataset provided by
    City of San José
    Authors
    Enterprise GIS
    License

    Attribution 4.0 (CC BY 4.0)https://creativecommons.org/licenses/by/4.0/
    License information was derived automatically

    Description

    Network structure for stormwater system in the City of San Jose, CA.

    Data is published on Mondays on a weekly basis.

  8. r

    Stormwater Pond Outlet Pipes

    • geohub.roundrocktexas.gov
    Updated Feb 5, 2025
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    City of Round Rock (2025). Stormwater Pond Outlet Pipes [Dataset]. https://geohub.roundrocktexas.gov/datasets/stormwater-pond-outlet-pipes
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    Dataset updated
    Feb 5, 2025
    Dataset authored and provided by
    City of Round Rock
    Area covered
    Description

    This layer contains the data for the stormwater pond outlet pipes in the City of Round Rock, located in Williamson County, Texas. This layer is part of an original dataset provided and maintained by the City of Round Rock GIS/IT Department. The data in this layer are represented as lines.A stormwater pond outlet pipe is a pipeline that drains water from a pond. The outlet pipe is part of an outlet structure that controls the rate at which water is released from the pond.

  9. S

    Sanitary Network Structures

    • data.sanjoseca.gov
    • gisdata-csj.opendata.arcgis.com
    Updated Apr 28, 2025
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    Enterprise GIS (2025). Sanitary Network Structures [Dataset]. https://data.sanjoseca.gov/dataset/sanitary-network-structures
    Explore at:
    arcgis geoservices rest api, geojson, zip, kml, csv, htmlAvailable download formats
    Dataset updated
    Apr 28, 2025
    Dataset provided by
    City of San José
    Authors
    Enterprise GIS
    License

    Attribution 4.0 (CC BY 4.0)https://creativecommons.org/licenses/by/4.0/
    License information was derived automatically

    Description

    Network structure for Sanitary Sewer System.

    Data is published on Mondays on a weekly basis.

  10. U

    Utilities Network Designing Software Report

    • marketresearchforecast.com
    doc, pdf, ppt
    Updated Mar 14, 2025
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    Market Research Forecast (2025). Utilities Network Designing Software Report [Dataset]. https://www.marketresearchforecast.com/reports/utilities-network-designing-software-33722
    Explore at:
    pdf, ppt, docAvailable download formats
    Dataset updated
    Mar 14, 2025
    Dataset authored and provided by
    Market Research Forecast
    License

    https://www.marketresearchforecast.com/privacy-policyhttps://www.marketresearchforecast.com/privacy-policy

    Time period covered
    2025 - 2033
    Area covered
    Global
    Variables measured
    Market Size
    Description

    The global market for Utilities Network Designing Software is experiencing robust growth, driven by increasing demand for efficient infrastructure management and the expanding adoption of digital twin technology across the energy, water, and telecommunications sectors. The market's expansion is fueled by several key factors: the need for improved network planning and optimization to reduce operational costs and enhance service reliability, the rising adoption of cloud-based solutions for better data accessibility and collaboration, and the increasing integration of advanced analytics and AI for predictive maintenance and resource allocation. The market is segmented by software type (2D and 3D modeling) and application (energy & power, oil & gas, water, IT & telecommunication, and others). While North America currently holds a significant market share due to early adoption and technological advancements, regions like Asia Pacific are exhibiting rapid growth, particularly in countries like China and India, driven by significant infrastructure development projects. Competitive pressures are high, with established players like Bentley Systems, Siemens, and ABB competing with specialized software providers and emerging technology companies. The market is projected to maintain a steady compound annual growth rate (CAGR) for the forecast period, leading to significant market expansion by 2033. Challenges faced by the market include the high initial investment costs associated with implementing new software and the need for specialized training to effectively utilize the advanced functionalities. Furthermore, data security and interoperability concerns remain significant barriers to adoption. However, ongoing technological innovation, particularly in areas such as GIS integration and IoT connectivity, is expected to mitigate these challenges and further propel market growth. The diverse range of applications across various utility sectors ensures continued demand for sophisticated network design software, creating sustained opportunities for market players to innovate and expand their market presence. Future growth will likely see a focus on integrated platforms offering comprehensive functionalities for all aspects of utility network management, from design and planning to operation and maintenance.

  11. a

    Communications Utility - All Features (DWG)

    • hub.arcgis.com
    Updated Oct 29, 2020
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    City of Coquitlam (2020). Communications Utility - All Features (DWG) [Dataset]. https://hub.arcgis.com/documents/23e7c116497545d2960de8b97a32d662
    Explore at:
    Dataset updated
    Oct 29, 2020
    Dataset authored and provided by
    City of Coquitlam
    Description

    Complete Communications Utility Network in CAD format. Consume this dataset if you wish to download the entire Communications Utility network dataset at once.

  12. a

    Drainage Utility - All Features (SHP)

    • hub.arcgis.com
    • sdgs.amerigeoss.org
    Updated Oct 23, 2020
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    City of Coquitlam (2020). Drainage Utility - All Features (SHP) [Dataset]. https://hub.arcgis.com/documents/492ed93310e9439c9d800b1ae71500b0
    Explore at:
    Dataset updated
    Oct 23, 2020
    Dataset authored and provided by
    City of Coquitlam
    Description

    Complete Drainage Utility Network in file shapefile format. Consume this dataset if you wish to download the entire Drainage Utility network dataset at once.

  13. s

    Stormwater Network - Open Drain (Sarpy County, NE)

    • gis.sarpy.gov
    • gohub.mapacog.org
    • +1more
    Updated May 3, 2019
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    Sarpy County, Nebraska (2019). Stormwater Network - Open Drain (Sarpy County, NE) [Dataset]. https://gis.sarpy.gov/datasets/stormwater-network-open-drain-sarpy-county-ne/api
    Explore at:
    Dataset updated
    May 3, 2019
    Dataset authored and provided by
    Sarpy County, Nebraska
    License

    CC0 1.0 Universal Public Domain Dedicationhttps://creativecommons.org/publicdomain/zero/1.0/
    License information was derived automatically

    Area covered
    Description

    Stormwater Network - Open DrainData current as of the last business day.

  14. p

    Data from: Water Mains

    • data.portmoody.ca
    • hub.arcgis.com
    Updated Mar 7, 2019
    + more versions
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    CityofPortMoodyGIS (2019). Water Mains [Dataset]. https://data.portmoody.ca/items/52fb1cf884ad4143b43854409d06d6bf
    Explore at:
    Dataset updated
    Mar 7, 2019
    Dataset authored and provided by
    CityofPortMoodyGIS
    Area covered
    Description

    Summary: Water Main Utility Network Assets and DetailsDisclaimer: The User acknowledges and agrees that the Data is provided by the City to the User for the User's convenience and reference, and that the City makes no guarantees, representations or warranties, whether express or implied, as to the Data or as to any results to be or intended to be achieved from use of the Data, including without limitation guarantees, representations or warranties as to the accuracy, quality or completeness of the Data, merchantability or fitness for use for any particular purpose, and the User hereby waives all guarantees, representations and warranties in respect of the Data, whether express, implied by statute or otherwise. The User hereby releases The City from, and hereby indemnifies and holds harmless The City from and against, any liability, obligation, costs (including without limitation legal costs), expenses, claims, actions, proceedings, damages and penalties to the User or any other person or legal entity resulting from or related to the use, disclosure or reproduction of or reliance on the Data.

  15. s

    Stormwater Network - Gravity Main (Sarpy County, NE)

    • gis.sarpy.gov
    • gohub.mapacog.org
    • +2more
    Updated May 3, 2019
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    Sarpy County, Nebraska (2019). Stormwater Network - Gravity Main (Sarpy County, NE) [Dataset]. https://gis.sarpy.gov/datasets/3e3ee5f608a04ad4814ad53e8b29f3aa
    Explore at:
    Dataset updated
    May 3, 2019
    Dataset authored and provided by
    Sarpy County, Nebraska
    License

    CC0 1.0 Universal Public Domain Dedicationhttps://creativecommons.org/publicdomain/zero/1.0/
    License information was derived automatically

    Area covered
    Description

    Stormwater Network - Gravity MainData current as of the last business day.

  16. a

    Water Fitting

    • arc-gis-hub-home-arcgishub.hub.arcgis.com
    • data.bendoregon.gov
    • +1more
    Updated Feb 13, 2025
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    City of Bend, Oregon (2025). Water Fitting [Dataset]. https://arc-gis-hub-home-arcgishub.hub.arcgis.com/maps/bendoregon::water-fitting
    Explore at:
    Dataset updated
    Feb 13, 2025
    Dataset authored and provided by
    City of Bend, Oregon
    Area covered
    Description

    Fittings are used to attach one pipe to another in order to combine, divert, or reduce the flow of water supply. Fittings are required to participate in a Utility Network. Attribute Information: Field Name Description

    AssetType A subtype field used to delineate different fitting types.

    BendAngle Angle in degrees that the fitting diverts the flow of water.

    AssetID A unique identifier for the asset class. Infor required field.

    InstallDate The date when the asset was installed. Typically pulled from the as-built cover sheet for consistency. Infor required field.

    LifecycleStatus The current status of the asset with respect to its location in the asset management lifecycle. Infor required field.

    Diameter Diameter of the fitting in inches.

    LocationDescription Information related to the construction location or project name. Infor required field

  17. s

    Stormwater Network - Culverts (Sarpy County, NE)

    • gis.sarpy.gov
    • gohub.mapacog.org
    • +1more
    Updated May 3, 2019
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    Sarpy County, Nebraska (2019). Stormwater Network - Culverts (Sarpy County, NE) [Dataset]. https://gis.sarpy.gov/datasets/ab95b0768c444a70bf62af511797af85
    Explore at:
    Dataset updated
    May 3, 2019
    Dataset authored and provided by
    Sarpy County, Nebraska
    License

    CC0 1.0 Universal Public Domain Dedicationhttps://creativecommons.org/publicdomain/zero/1.0/
    License information was derived automatically

    Area covered
    Description

    Stormwater Network - CulvertsData current as of the last business day.

  18. a

    Drainage Utility - All Features (GDB)

    • hub.arcgis.com
    Updated Oct 23, 2020
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    City of Coquitlam (2020). Drainage Utility - All Features (GDB) [Dataset]. https://hub.arcgis.com/documents/94d3cfa44e684d5db0a01929235a5c7c
    Explore at:
    Dataset updated
    Oct 23, 2020
    Dataset authored and provided by
    City of Coquitlam
    Description

    Complete Drainage Utility Network in file geodatabase format. Consume this dataset if you wish to download the entire Drainage Utility network dataset at once.

  19. Underground Utility Mapping Market Report | Global Forecast From 2025 To...

    • dataintelo.com
    csv, pdf, pptx
    Updated Jan 7, 2025
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    Dataintelo (2025). Underground Utility Mapping Market Report | Global Forecast From 2025 To 2033 [Dataset]. https://dataintelo.com/report/global-underground-utility-mapping-market
    Explore at:
    pptx, csv, pdfAvailable download formats
    Dataset updated
    Jan 7, 2025
    Dataset authored and provided by
    Dataintelo
    License

    https://dataintelo.com/privacy-and-policyhttps://dataintelo.com/privacy-and-policy

    Time period covered
    2024 - 2032
    Area covered
    Global
    Description

    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

  20. U

    Utility Coordination Services Report

    • datainsightsmarket.com
    doc, pdf, ppt
    Updated May 21, 2025
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    Data Insights Market (2025). Utility Coordination Services Report [Dataset]. https://www.datainsightsmarket.com/reports/utility-coordination-services-1421254
    Explore at:
    pdf, doc, pptAvailable download formats
    Dataset updated
    May 21, 2025
    Dataset authored and provided by
    Data Insights Market
    License

    https://www.datainsightsmarket.com/privacy-policyhttps://www.datainsightsmarket.com/privacy-policy

    Time period covered
    2025 - 2033
    Area covered
    Global
    Variables measured
    Market Size
    Description

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

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City of Coquitlam (2020). Water Utility - All Features (GDB) [Dataset]. https://hub.arcgis.com/documents/e6d025f534e34ab19743fc7f609b20be

Water Utility - All Features (GDB)

Explore at:
Dataset updated
Aug 13, 2020
Dataset authored and provided by
City of Coquitlam
Description

Complete Water Utility Network in file geodatabase format. Consume this dataset if you wish to download the entire Water Utility network dataset at once.

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