This data set is a shapefile for coastal network infrastructure in the US. This data set was used to conduct the study of how sea water inundation over the next 100 years will affect US Internet infrastructure (refer to R. Durairajan, C. Barford and P. Barford. "Lights Out: Climate Change Risk to Internet Infrastructure", In Proceedings of the ACM/IRTF/ISOC Applied Networking Research Workshop, July, 2018.). The shapefile provides detailed locations of nodes (e.g, co-location centers) and fiber conduits.

The map is to be used to view the location of underground as constructed assets on the Gold Coast. This information is provided to assist in field investigations. Spot checks have been made to determine the accuracy of this plan. However, all locations, dimensions and depths shown are to be confirmed on site. Disclaimer: © Council of the City of Gold Coast, Queensland or © State of Queensland. No Warranty given in relation to the data (including accuracy, reliability, completeness or suitability) and no liability accepted (including without limitation, liability in negligence) for any loss, damage or costs (including consequential damage) relating to any use of the data. Data must not be used for direct marketing or be used in breach of the privacy laws.

Data Sources:CanCoast_12_nautical_mile_zone_OGC Feature Layer: Manson, G.K., Couture, N.J., and James, T.S., 2019. CanCoast Version 2.0: data and indices to describe the sensitivity of Canada's marine coasts to changing climate; Geological Survey of Canada, Open File 8551, 1 .zip file. https://doi.org/10.4095/314669Government of Canada:Transport Networks in Canada https://maps.geogratis.gc.ca/wms/canvec_en?request=getcapabilities&service=wms&layers=transport&version=1.3.0&legend_format=image/png&feature_info_type=text/htmlthumbnail:https://www.theglobeandmail.com/politics/article-northern-premiers-say-canada-cant-have-arctic-security-without/

This web map depicts GIS data for known Stormwater Infrastructure in the City of SeaTac, Washington. The information is based on the best available knowledge collected from construction as-builts and field inspections, with a focus on mapping features in the public right-of-way. The stormwater infrastructure contains the following datasets: discharge points, catch basins and manholes, pipes and ditches, misc structures, water quality facilities points and polygons, and access risers. The data is being continually updated as newer information becomes available.Incorporated in February 1990, the City of SeaTac is located in the Pacific Northwest, approximately midway between the cities of Seattle and Tacoma in the State of Washington. SeaTac is a vibrant community, economically strong, environmentally sensitive, and people-oriented. The City boundaries surround the Seattle-Tacoma International Airport, (approximately 3 square miles in area) which is owned and operated by the Port of Seattle. For additional information regarding the City of SeaTac, its people, or services, please visit https://www.seatacwa.gov. For additional information regarding City GIS data or maps, please visit https://www.seatacwa.gov/our-city/maps-and-gis.

A dataset of open infrastructure

This web map displays the locations of the Natural Infrastructure projects highlighted in the map featured in the Natural Infrastructure web experience (https://experience.arcgis.com/experience/dd0f23ba5a9a430598530aa261358641/), which explores different types of Natural Infrastructure and evaluates the performance of existing projects in the US.

This data depicts infrastructure locations in Alaska as digitized primarily from 1:24,000, 1:63,360, and 1:250,000 USGS quadrangles.

The source document that represented the newest information and best geographic location was used to capture the data. All infrastructure from the primary source document was digitized and then supplemented with the information from other source documents for additional or updated infrastructure or attributes.

London’s first Cultural Infrastructure Map brings together new research and information that has previously not existed in one place. It plots the location of cultural infrastructure and enables the user to view it alongside useful contextual data. This page contains cultural infrastructure data sets published in 2019. The data shown on the live map is more recent and can be found here . Audits of facilities or infrastructure are a snapshot in time and based on best available information. Following an audit of cultural infrastructure in 2023, some 2019 datasets were updated to include missing infrastructure or to remove entries that had been included incorrectly. Data and analysis from GLA GIS Team form a basis for the policy and investment decisions facing the Mayor of London and the GLA group. GLA Intelligence uses a wide range of information and data sourced from third party suppliers within its analysis and reports. GLA Intelligence cannot be held responsible for the accuracy or timeliness of this information and data. The GLA will not be liable for any losses suffered or liabilities incurred by a party as a result of that party relying in any way on the information contained in this report. Contains OS data © Crown copyright and database rights 2019. Contains Audience Agency data. Contains CAMRA data. NOTE: The data is based on Ordnance Survey mapping and the data is published under Ordnance Survey's 'presumption to publish'. NOTE: This page contains cultural infrastructure data published in 2019. For 2023 cultural infrastructure data, please visit: https://data.london.gov.uk/dataset/cultural-infrastructure-map-2023 This dataset is included in the Greater London Authority's Night Time Observatory. Click here to find out more.

You can use this page to explore Green Infrastructure (GI) practices throughout the District of Columbia. Use the filters to search for GI installed through specific DOEE programs or to search for GI of a specific type. You can also download GI data from the District's publicly-available layer of Best Management Practice (BMP) data.

The Green Infrastructure Focus Map is a new tool and evidence base to help London’s decision-makers identify where green infrastructure improvements and investments might be best targeted, and what kind of interventions might be most useful for the needs of a specific area. The Green Infrastructure Focus Map can help: * identify where there is more need or less need for green infrastructure interventions * describe which specific environmental or social issues have the greatest need for intervention in a particular location * highlight other issues that green infrastructure can’t necessarily help with, but that are useful context for decision making (e.g. income deprivation) Please contact environment@london.gov.uk with any queries or feedback. Data and analysis from GLA GIS Team form a basis for the policy and investment decisions facing the Mayor of London and the GLA group. GLA Intelligence uses a wide range of information and data sourced from third party suppliers within its analysis and reports. GLA Intelligence cannot be held responsible for the accuracy or timeliness of this information and data. The GLA will not be liable for any losses suffered or liabilities incurred by a party as a result of that party relying in any way on the information contained in this report.

Agricultural infrastructure maps provide information on water facilities, reservoirs, etc. The OGC (Open Geospatial Consortium) standard API is an international standard developed for sharing and interoperability of spatial data, enabling efficient provision and use of various geographic information such as maps, features, and rasters on the web. The latest OGC API adopts a RESTful structure to enhance development convenience and expandability, and inherits existing standards such as WMS and WFS in a modern way.

London’s first Cultural Infrastructure Map brings together new research and information that has previously not existed in one place. It plots the location of cultural infrastructure and enables the user to view it alongside useful contextual data. This page contains cultural infrastructure data sets collected from summer 2024 to summer 2025 and published in 2024 and 2025. Data sets are uploaded as they become available over this period. Audits of facilities or infrastructure are a snapshot in time and based on best available information. We welcome contributions or updates to the datasets from Londoners and others which can be submitted through the Cultural Infrastructure Map . Data and analysis from GLA GIS Team form a basis for the policy and investment decisions facing the Mayor of London and the GLA group. GLA Intelligence uses a wide range of information and data sourced from third party suppliers within its analysis and reports. GLA Intelligence cannot be held responsible for the accuracy or timeliness of this information and data. The GLA will not be liable for any losses suffered or liabilities incurred by a party as a result of that party relying in any way on the information contained in this report. Contains OS data © Crown copyright and database rights 2024. NOTE: The data is based on Ordnance Survey mapping and the data is published under Ordnance Survey’s ‘presumption to publish’. **_NOTE_: To access the data from previous cultural infrastructure audits, please visit: ** https://data.london.gov.uk/dataset/cultural-infrastructure-map

Digital Map of Passive Infrastructure Market Outlook

According to our latest research, the global Digital Map of Passive Infrastructure market size reached USD 5.2 billion in 2024, reflecting a robust expansion driven by the accelerating digital transformation across industries. The market is expected to maintain a healthy growth trajectory, with a projected CAGR of 11.3% from 2025 to 2033. By 2033, the market is forecasted to reach USD 13.8 billion. This remarkable growth is underpinned by the increasing demand for accurate infrastructure mapping, the proliferation of smart cities, and the ongoing modernization of telecommunications and utility networks worldwide.

A primary growth factor for the Digital Map of Passive Infrastructure market is the surging adoption of digital mapping technologies by telecom operators and infrastructure providers. As the deployment of 5G and fiber-optic networks intensifies globally, there is a critical need for detailed, real-time, and accurate mapping of passive infrastructure assets such as ducts, poles, conduits, and towers. These digital maps enable operators to optimize network planning, streamline maintenance, and reduce operational costs. Additionally, the integration of Geographic Information Systems (GIS) and advanced analytics into mapping solutions is empowering organizations to make data-driven decisions, further catalyzing market expansion. The convergence of these technologies is not only enhancing the precision of infrastructure mapping but also enabling predictive maintenance and efficient resource allocation, which are vital for telecom and utility sectors aiming to deliver uninterrupted services.

Another significant driver is the rapid urbanization and the global push toward smart city initiatives. Governments and municipalities are increasingly leveraging digital maps of passive infrastructure to support urban planning, manage public utilities, and facilitate the deployment of IoT devices. The ability to digitally visualize and manage underground and above-ground assets is proving invaluable in minimizing disruptions during construction projects, optimizing traffic flow, and ensuring public safety. The integration of these digital maps with Building Information Modeling (BIM) and other urban management platforms is creating a holistic view of city infrastructure, thereby improving the efficiency of municipal operations. As cities continue to expand and digitalize, the demand for comprehensive and up-to-date mapping solutions is set to surge, providing a sustained impetus to the market.

The increasing reliance on cloud-based solutions and the evolution of deployment models are also shaping the growth of the Digital Map of Passive Infrastructure market. The shift from traditional on-premises systems to cloud-based platforms is enabling organizations to access scalable, flexible, and cost-effective mapping solutions. Cloud deployment facilitates real-time data sharing, remote collaboration, and seamless integration with other enterprise systems, which are essential for large-scale infrastructure projects spanning multiple geographies. Furthermore, cloud platforms are enhancing the accessibility of digital maps for a broader range of end-users, including enterprises, municipalities, and infrastructure providers, thereby democratizing access to critical infrastructure data and accelerating market penetration across various sectors.

From a regional perspective, Asia Pacific stands out as the fastest-growing market, propelled by massive investments in telecommunications, urban development, and smart infrastructure projects. North America continues to dominate in terms of market share, driven by early adoption of digital mapping technologies and the presence of major technology providers. Europe is witnessing steady growth, supported by regulatory mandates for infrastructure transparency and modernization efforts across utilities and transportation sectors. Meanwhile, Latin America and the Middle East & Africa are gradually catching up, fueled by infrastructural upgrades and increasing government focus on digital transformation. Each region presents unique opportunities and challenges, but the overarching trend is a global shift toward digitalization and smarter infrastructure management.

Component Analysis

The Digital Map of Passive Infrastructure market is segmented by component into Software, Hardware, and Services, each playing a pivotal role in shaping t

The Vermont Water Investment Infrastructure feature layer consists of 3 layers. Together these layers are an inventory of stormwater, wastewater, and drinking water data compiled since 2010. The data was developed to support the Clean Water Initiative Program's stormwater master planning, stormwater water quality project development, and illicit discharge detection and elimination programs. Other uses such as spill mitigation, disaster resiliency, and development planning are encouraged, though the data has been developed for planning purposes only, may not be complete, or may be outdated.Note to view only existing infrastructure: the "Status" field can be used to set a definition query to "existing".

This data collection contains the locations and detailed information of green infrastructure practices in NYC neighborhoods built primarily through NYC Green Infrastructure Program initiatives. Green infrastructure (GI) collects stormwater from streets, sidewalks, and other hard surfaces before it can enter the sewer system or cause local flooding. The GI practice data contained in this dataset includes the location, program area, status, and type of GI. This dataset is updated by the NYC Department of Environmental Protection on a monthly basis. Source Data: DEP Green Infrastructure Program Map

The Aquaculture Infrastructure Map has been created to support discussions about aquaculture developments that may help to increase aquaculture productivity in Scotland. The map is designed to assist strategic planning for this industry. The map offers an updatable snapshot of the existing aquaculture infrastructure in a national context.

We provide background maps, image maps, and hybrid maps provided by Open Platform. You can use it by adding the request URL to the user client as a Javascript source with the authenticated key value. Supports OpenLayers 2.7 ~ 2.13. If you want to use the latest version of Openlayers, you can use the WMTS API. For related inquiries, please link to the relevant site and contact the relevant customer center and we will respond.

This data set consists of an gzip archive of shapefiles for maps of a selection of 50 network service provider networks from around the world. The archive includes maps of both large service providers with a world-wide footprint and metro area fiber maps. In particular, the archive offers maps of 5 the tier-1 ISPs, 10 regional ISPs distributed around the US, 5 metro fiber maps from the US and the remaining 25 maps from ISPs in other countries (12 in Europe, 7 in Africa and 6 Asia). The maps are geocoded but obfuscated slightly so that the true positions of nodes (i.e., colocation centers) and links (fiber conduits) are not exactly accurate. The shapefiles can be visualized in standard Geographic Information Systems such as ESRI's ArcGIS.

London’s first Cultural Infrastructure Map brings together new research and information that has previously not existed in one place. It plots the location of cultural infrastructure and enables the user to view it alongside useful contextual data. This page contains cultural infrastructure data sets published in 2019. The data shown on the live map is more recent and can be found here . Audits of facilities or infrastructure are a snapshot in time and based on best available information. Following an audit of cultural infrastructure in 2023, some 2019 datasets were updated to include missing infrastructure or to remove entries that had been included incorrectly. Data and analysis from GLA GIS Team form a basis for the policy and investment decisions facing the Mayor of London and the GLA group. GLA Intelligence uses a wide range of information and data sourced from third party suppliers within its analysis and reports. GLA Intelligence cannot be held responsible for the accuracy or timeliness of this information and data. The GLA will not be liable for any losses suffered or liabilities incurred by a party as a result of that party relying in any way on the information contained in this report. Contains OS data © Crown copyright and database rights 2019. Contains Audience Agency data. Contains CAMRA data. NOTE: The data is based on Ordnance Survey mapping and the data is published under Ordnance Survey's 'presumption to publish'. NOTE: This page contains cultural infrastructure data published in 2019. For 2023 cultural infrastructure data, please visit: https://data.london.gov.uk/dataset/cultural-infrastructure-map-2023 This dataset is included in the Greater London Authority's Night Time Observatory. Click here to find out more.

Digital Map of Passive Infrastructure Market Outlook

According to our latest research, the global Digital Map of Passive Infrastructure market size reached USD 4.75 billion in 2024, demonstrating robust momentum driven by the increasing demand for efficient infrastructure management and digital transformation across multiple sectors. The market is projected to grow at a CAGR of 13.2% during the forecast period, reaching USD 13.11 billion by 2033. This notable growth is primarily fueled by the widespread adoption of digital mapping solutions in telecommunications, utilities, and transportation, as organizations seek to optimize asset management, enhance operational efficiency, and support the rollout of next-generation networks and smart infrastructure.

The primary growth driver for the Digital Map of Passive Infrastructure market is the exponential rise in data traffic and the rapid expansion of telecommunications networks worldwide. With the rollout of 5G and the proliferation of IoT devices, telecom operators and infrastructure providers are under immense pressure to upgrade and expand their physical infrastructure. Digital mapping solutions enable these stakeholders to visualize, monitor, and manage vast networks of passive assets such as fiber optic cables, towers, ducts, and utility poles. The ability to access accurate, real-time maps of these assets significantly reduces operational costs, minimizes downtime, and enhances decision-making processes. Furthermore, the integration of digital maps with advanced analytics and AI-powered tools provides predictive insights, allowing for proactive maintenance and efficient resource allocation.

Another significant growth factor is the increasing emphasis on smart city initiatives and the modernization of utility infrastructures. Governments and municipal authorities are investing heavily in digital technologies to improve public services, optimize urban planning, and ensure sustainable development. Digital maps play a crucial role in these initiatives by providing a comprehensive view of passive infrastructure, facilitating better coordination among stakeholders, and supporting the deployment of intelligent transportation systems, energy grids, and water management solutions. Additionally, the rising adoption of cloud-based mapping platforms has democratized access to these technologies, enabling even smaller municipalities and organizations to leverage advanced infrastructure management tools without substantial upfront investments.

The market is also benefiting from the growing need for compliance, safety, and risk management across industries. Regulatory requirements mandate accurate documentation and monitoring of critical infrastructure assets, particularly in sectors such as utilities and transportation. Digital maps offer a centralized repository for asset data, streamline compliance reporting, and enhance the ability to respond rapidly to emergencies or outages. The integration of geospatial technologies with enterprise asset management systems further strengthens the value proposition of digital mapping solutions, driving their adoption across a diverse range of end-users.

From a regional perspective, Asia Pacific is emerging as the fastest-growing market, propelled by large-scale infrastructure projects, rapid urbanization, and significant investments in telecommunications and utilities. North America remains a mature but dynamic market, characterized by high technology adoption rates and ongoing upgrades to legacy infrastructure. Europe is witnessing steady growth, supported by government-led digital transformation initiatives and a strong focus on sustainability. Meanwhile, Latin America and the Middle East & Africa are gradually catching up, as governments and private sector players recognize the strategic importance of digital infrastructure mapping for economic development and competitiveness.

Component Analysis

The Digital Map of Passive Infrastructure market is segmented by component into Software</b&