The U.S. Army Corps of Engineers Geospatial Open Data provides shared and trusted USACE geospatial data, services and applications for use by our partner agencies and the public.

For the 2018 moving season

Public Open Space Geographic Information System data collection for Perth and Peel Metropolitan Areas

The public open space (POS) dataset contains polygon boundaries of areas defined as publicly available and open. This geographic information system (GIS) dataset was collected in 2011/2012 using ArcGIS software and aerial photography dated from 2010-2011. The data was collected across the Perth Metro and Peel Region.

POS refer to all land reserved for the provision of green space and natural environments (e.g. parks, reserves, bushland) that is freely accessible and intended for use for recreation purposes (active or passive) by the general public. Four types of “green and natural public open spaces” are distinguished: (1) Park; (2) Natural or Conservation Area; (3) School Grounds; and (4) Residual. Areas where the public are not permitted except on payment or which are available to limited and selected numbers by membership (e.g. golf courses and sports centre facilities) or setbacks and buffers required by legislation are not included.

Initially, potential POSs were identified from a combination of existing geographic information system (GIS) spatial data layers to create a generalized representation of ‘green space’ throughout the Perth metropolitan and Peel regions. Base data layers include: cadastral polygons, metropolitan and regional planning scheme polygons, school point locations, and reserve vesting polygons. The ‘green’ space layer was then visually updated and edited to represent the true boundaries of each POS using 2010-2011 aerial photography within the ArcGIS software environment. Each resulting ’green’ polygon was then classified using a decision tree into one of four possible categories: park, natural or conservation area, school grounds, or residual green space.

Following the classification process, amenity and other information about each POS was collected for polygons classified as “Park” following a protocol developed at the Centre for the Built Environment and Health (CBEH) called POSDAT (Public Open Space Desktop Auditing Tool). The parks were audited using aerial photography visualized using ArcGIS software. . The presence or absence of amenities such as sporting facilities (e.g. tennis courts, soccer fields, skate parks etc) were audited as well as information on the environmental quality (i.e. presence of water, adjacency to bushland, shade along paths, etc), recreational amenities (e.g. presence of BBQ’, café or kiosks, public access toilets) and information on selected features related to personal safety.

The data is stored in an ArcGIS File Geodatabase Feature Class (size 4MB) and has restricted access.

Data creation methodology, data definitions, and links to publications based on this data, accompany the dataset.

The digital map market, currently valued at $25.55 billion in 2025, is experiencing robust growth, projected to expand at a Compound Annual Growth Rate (CAGR) of 13.39% from 2025 to 2033. This expansion is fueled by several key drivers. The increasing adoption of location-based services (LBS) across diverse sectors like automotive, logistics, and smart city initiatives is a primary catalyst. Furthermore, advancements in technologies such as AI, machine learning, and high-resolution satellite imagery are enabling the creation of more accurate, detailed, and feature-rich digital maps. The shift towards cloud-based deployment models offers scalability and cost-effectiveness, further accelerating market growth. While data privacy concerns and the high initial investment costs for sophisticated mapping technologies present some challenges, the overall market outlook remains overwhelmingly positive. The competitive landscape is dynamic, with established players like Google, TomTom, and ESRI vying for market share alongside innovative startups offering specialized solutions. The segmentation of the market by solution (software and services), deployment (on-premise and cloud), and industry reveals significant opportunities for growth in sectors like automotive navigation, autonomous vehicle development, and precision agriculture, where real-time, accurate mapping data is crucial. The Asia-Pacific region, driven by rapid urbanization and technological advancements in countries like China and India, is expected to witness particularly strong growth. The market's future hinges on continuous innovation. We anticipate a rise in the demand for 3D maps, real-time updates, and integration with other technologies like the Internet of Things (IoT) and augmented reality (AR). Companies are focusing on enhancing the accuracy and detail of their maps, incorporating real-time traffic data, and developing tailored solutions for specific industry needs. The increasing adoption of 5G technology promises to further boost the market by enabling faster data transmission and real-time updates crucial for applications like autonomous driving and drone delivery. The development of high-precision mapping solutions catering to specialized sectors like infrastructure management and disaster response will also fuel future growth. Ultimately, the digital map market is poised for continued expansion, driven by technological advancements and increased reliance on location-based services across a wide spectrum of industries. Recent developments include: December 2022 - The Linux Foundation has partnered with some of the biggest technology companies in the world to build interoperable and open map data in what is an apparent move t. The Overture Maps Foundation, as the new effort is called, is officially hosted by the Linux Foundation. The ultimate aim of the Overture Maps Foundation is to power new map products through openly available datasets that can be used and reused across applications and businesses, with each member throwing their data and resources into the mix., July 27, 2022 - Google declared the launch of its Street View experience in India in collaboration with Genesys International, an advanced mapping solutions company, and Tech Mahindra, a provider of digital transformation, consulting, and business re-engineering solutions and services. Google, Tech Mahindra, and Genesys International also plan to extend this to more than around 50 cities by the end of the year 2022.. Key drivers for this market are: Growth in Application for Advanced Navigation System in Automotive Industry, Surge in Demand for Geographic Information System (GIS); Increased Adoption of Connected Devices and Internet. Potential restraints include: Complexity in Integration of Traditional Maps with Modern GIS System. Notable trends are: Surge in Demand for GIS and GNSS to Influence the Adoption of Digital Map Technology.

Explore the burgeoning Observation Domain (OSR) Correction Service market, driven by precision agriculture, surveying, and GIS. Discover market size, CAGR, key trends, and growth opportunities worldwide.

Discover the booming UK Geospatial Analytics market! Our in-depth analysis reveals a £100 million (2025 est.) market with a robust 11.26% CAGR, driven by smart city initiatives, precision agriculture, and technological advancements. Explore market trends, key players (Hexagon, Trimble, ESRI), and future projections for this dynamic sector. Recent developments include: April 2023: EDF used Esri UK corporate GIS to build a geospatial site for the Hinkley Point C nuclear power station, one of Europe's most extensive and complicated building projects. The portal provides a single picture of the entire project. They are facilitating greater cooperation and enabling new digital workflows, Assisting employees and contractors in improving safety and productivity. When the building of the nuclear reactors began, the portal has recently been expanded to include Tier-1 contractors, and it presently has over 1,500 users., April 2021: Esri UK launched a new cooperation with Tetra Tech, a worldwide consulting and engineering services company, to enhance indoor mapping capabilities by combining their expertise. Esri UK was to contribute to the partnership's robust GIS system, which had multiple indoor mapping capabilities, such as interactive floor plans and indoor location capabilities. Tetra Tech was to add 3D terrestrial laser scanning, data analytics, and CAD capabilities to GIS. They were to collaborate to provide customers with an end-to-end interior mapping solution to capitalize on an expanding need for indoor mapping for facilities management at central workplaces, campuses, or hospitals.. Key drivers for this market are: Increasing in Demand for Location Intelligence, Advancements of Big Data Analytics. Potential restraints include: Increasing in Demand for Location Intelligence, Advancements of Big Data Analytics. Notable trends are: Location data will hold the significant share.

USACE Inland Electronic Navigational Charts data in native S-57 data format have been converted to vector GIS data with all feature class names, attributes and attribute value enumerations translated to common English naming conventions. These IENC data represent 7,265 statute miles of navigational data produced by the US Army Corps of Engineers IENC Program

Discover the explosive growth of the Geospatial Data Analytics market, projected to reach [estimated 2033 market size] by 2033 with a CAGR of 12.81%. This comprehensive analysis explores key drivers, trends, and market segmentation, featuring leading companies like ESRI and Hexagon. Learn about regional market shares and future opportunities in this lucrative sector. Recent developments include: June 2023: Intermap Technologies leveraged its high-resolution elevation data access to perform imagery correction services for a national government organization to support the development projects in El Salvador and Honduras in Central America. In partnership with GeoSolutions, Intermap enables the creation of precision maps that are invaluable resources in supporting community safety and resiliency., March 2023: Mach9, the company building the fastest technologies for geospatial production, introduced its first product. The new product leverages computer vision and AI to produce faster 2D and 3D CAD and GIS engineering deliverables. This product launch comes amidst Mach9's pivot to a software-first business model, which is a move that is primarily driven by the rising demand for tools that accelerate geospatial data processing and analysis for infrastructure management.. Key drivers for this market are: Increase in Adoption of Smart City Development, Introduction of 5G to Boost Market Growth. Potential restraints include: Increase in Adoption of Smart City Development, Introduction of 5G to Boost Market Growth. Notable trends are: Defense and Intelligence to be the Largest End-user Industry.

The USGS Protected Areas Database of the United States (PAD-US) is the nation's inventory of protected areas, including public open space and voluntarily provided, private protected areas, identified as an A-16 National Geospatial Data Asset in the Cadastral Theme (http://www.fgdc.gov/ngda-reports/NGDA_Datasets.html). PAD-US is an ongoing project with several published versions of a spatial database of areas dedicated to the preservation of biological diversity, and other natural, recreational or cultural uses, managed for these purposes through legal or other effective means. The geodatabase maps and describes public open space and other protected areas. Most areas are public lands owned in fee; however, long-term easements, leases, and agreements or administrative designations documented in agency management plans may be included. The PAD-US database strives to be a complete “best available” inventory of protected areas (lands and waters) including data provided by managing agencies and organizations. The dataset is built in collaboration with several partners and data providers (http://gapanalysis.usgs.gov/padus/stewards/). See Supplemental Information Section of this metadata record for more information on partnerships and links to major partner organizations. As this dataset is a compilation of many data sets; data completeness, accuracy, and scale may vary. Federal and state data are generally complete, while local government and private protected area coverage is about 50% complete, and depends on data management capacity in the state. For completeness estimates by state: http://www.protectedlands.net/partners. As the federal and state data are reasonably complete; focus is shifting to completing the inventory of local gov and voluntarily provided, private protected areas. The PAD-US geodatabase contains over twenty-five attributes and four feature classes to support data management, queries, web mapping services and analyses: Marine Protected Areas (MPA), Fee, Easements and Combined. The data contained in the MPA Feature class are provided directly by the National Oceanic and Atmospheric Administration (NOAA) Marine Protected Areas Center (MPA, http://marineprotectedareas.noaa.gov ) tracking the National Marine Protected Areas System. The Easements feature class contains data provided directly from the National Conservation Easement Database (NCED, http://conservationeasement.us ) The MPA and Easement feature classes contain some attributes unique to the sole source databases tracking them (e.g. Easement Holder Name from NCED, Protection Level from NOAA MPA Inventory). The "Combined" feature class integrates all fee, easement and MPA features as the best available national inventory of protected areas in the standard PAD-US framework. In addition to geographic boundaries, PAD-US describes the protection mechanism category (e.g. fee, easement, designation, other), owner and managing agency, designation type, unit name, area, public access and state name in a suite of standardized fields. An informative set of references (i.e. Aggregator Source, GIS Source, GIS Source Date) and "local" or source data fields provide a transparent link between standardized PAD-US fields and information from authoritative data sources. The areas in PAD-US are also assigned conservation measures that assess management intent to permanently protect biological diversity: the nationally relevant "GAP Status Code" and global "IUCN Category" standard. A wealth of attributes facilitates a wide variety of data analyses and creates a context for data to be used at local, regional, state, national and international scales. More information about specific updates and changes to this PAD-US version can be found in the Data Quality Information section of this metadata record as well as on the PAD-US website, http://gapanalysis.usgs.gov/padus/data/history/.) Due to the completeness and complexity of these data, it is highly recommended to review the Supplemental Information Section of the metadata record as well as the Data Use Constraints, to better understand data partnerships as well as see tips and ideas of appropriate uses of the data and how to parse out the data that you are looking for. For more information regarding the PAD-US dataset please visit, http://gapanalysis.usgs.gov/padus/. To find more data resources as well as view example analysis performed using PAD-US data visit, http://gapanalysis.usgs.gov/padus/resources/. The PAD-US dataset and data standard are compiled and maintained by the USGS Gap Analysis Program, http://gapanalysis.usgs.gov/ . For more information about data standards and how the data are aggregated please review the “Standards and Methods Manual for PAD-US,” http://gapanalysis.usgs.gov/padus/data/standards/ .

Other-Current-Liabilities Time Series for NV5 Global Inc. NV5 Global, Inc. provides engineering design, asset management, and geospatial data analytics to support infrastructure resilience and building systems performance throughout the entire asset lifecycle. The company offers infrastructure support services, such as resiliency and sustainability, utility services and power, transportation, water, conformity assessment, building design and land development, environmental landscape architecture and urban design, and surveying and mapping; and buildings and technology services, such as data center and mission-critical, clean energy, commissioning and smart building solutions, digital buildings, fire protection and life safety, MEP engineering, owner's representative services, technology and acoustics, real estate transaction services, and pharmaceutical design. It also offers geospatial services for defense and intelligence, electric utilities, geospatial software, GIS services, hydrospatial, natural and water resources, and transportation. It caters to industries, such as corporate and commercial, cultural and the arts, education, federal, healthcare, hospitality, industrial, mission-critical and data center, residential, science and technology, sports and recreation, state and local, transportation, utility services and power, and water and natural resources. NV5 Global, Inc. was formerly known as NV5 Holdings, Inc. and changed its name to NV5 Global, Inc. in December 2015. The company was founded in 1947 and is based in Hollywood, Florida with additional offices across the world. As of August 4, 2025, NV5 Global, Inc. operates as a subsidiary of Acuren Corporation.

Accounts-Payable Time Series for NV5 Global Inc. NV5 Global, Inc. provides engineering design, asset management, and geospatial data analytics to support infrastructure resilience and building systems performance throughout the entire asset lifecycle. The company offers infrastructure support services, such as resiliency and sustainability, utility services and power, transportation, water, conformity assessment, building design and land development, environmental landscape architecture and urban design, and surveying and mapping; and buildings and technology services, such as data center and mission-critical, clean energy, commissioning and smart building solutions, digital buildings, fire protection and life safety, MEP engineering, owner's representative services, technology and acoustics, real estate transaction services, and pharmaceutical design. It also offers geospatial services for defense and intelligence, electric utilities, geospatial software, GIS services, hydrospatial, natural and water resources, and transportation. It caters to industries, such as corporate and commercial, cultural and the arts, education, federal, healthcare, hospitality, industrial, mission-critical and data center, residential, science and technology, sports and recreation, state and local, transportation, utility services and power, and water and natural resources. NV5 Global, Inc. was formerly known as NV5 Holdings, Inc. and changed its name to NV5 Global, Inc. in December 2015. The company was founded in 1947 and is based in Hollywood, Florida with additional offices across the world. As of August 4, 2025, NV5 Global, Inc. operates as a subsidiary of Acuren Corporation.

The U.S. Army Corps of Engineers Geospatial Open Data provides shared and trusted USACE geospatial data, services and applications for use by our partner agencies and the public.

The BIM Software Market is booming, projected to reach [estimated 2033 value in billions] by 2033, growing at a CAGR of 13.90%. Discover key trends, drivers, and leading companies shaping this dynamic sector. Learn more about market segmentation, regional analysis, and future projections for BIM software adoption. Recent developments include: July 2024 - Esri and Autodesk have deepened their partnership to enhance data interoperability between Geographic Information Systems (GIS) and Building Information Modeling (BIM), with ArcGIS Pro now offering direct-read support for BIM and CAD elements from Autodesk's tools. This collaboration aims to integrate GIS and BIM workflows more seamlessly, potentially transforming how architects, engineers, and construction professionals work with geospatial and design data in the AEC industry., June 2024 - Hexagon, the Swedish technology giant, has acquired Voyansi, a Cordoba-based company specializing in Building Information Modelling (BIM), to enhance its portfolio of BIM solutions. This acquisition not only strengthens Hexagon's position in the global BIM market but also recognizes the talent in Argentina's tech sector, particularly in Córdoba, where Voyansi has been developing design, architecture, and engineering services for global construction markets for the past 15 years., April 2024 - Hyundai Engineering has partnered with Trimble Solution Korea to co-develop a Building Information Modeling (BIM) process management program, aiming to enhance construction site productivity through advanced 3D modeling technology. This collaboration highlights the growing importance of BIM in the construction industry, with the potential to optimize steel structure and precast concrete construction management, shorten project timelines, and reduce costs compared to traditional construction methods.. Key drivers for this market are: Governmental Mandates and International Standards Encouraging BIM Adoption, Boosting Project Performance and Productivity. Potential restraints include: Governmental Mandates and International Standards Encouraging BIM Adoption, Boosting Project Performance and Productivity. Notable trends are: Government Mandates Fueling BIM Growth.

The size of the UK Geospatial Analytics Market market was valued at USD 1.85 Million in 2023 and is projected to reach USD 3.90 Million by 2032, with an expected CAGR of 11.26% during the forecast period. Recent developments include: April 2023: EDF used Esri UK corporate GIS to build a geospatial site for the Hinkley Point C nuclear power station, one of Europe's most extensive and complicated building projects. The portal provides a single picture of the entire project. They are facilitating greater cooperation and enabling new digital workflows, Assisting employees and contractors in improving safety and productivity. When the building of the nuclear reactors began, the portal has recently been expanded to include Tier-1 contractors, and it presently has over 1,500 users., April 2021: Esri UK launched a new cooperation with Tetra Tech, a worldwide consulting and engineering services company, to enhance indoor mapping capabilities by combining their expertise. Esri UK was to contribute to the partnership's robust GIS system, which had multiple indoor mapping capabilities, such as interactive floor plans and indoor location capabilities. Tetra Tech was to add 3D terrestrial laser scanning, data analytics, and CAD capabilities to GIS. They were to collaborate to provide customers with an end-to-end interior mapping solution to capitalize on an expanding need for indoor mapping for facilities management at central workplaces, campuses, or hospitals.. Key drivers for this market are: Increasing in Demand for Location Intelligence, Advancements of Big Data Analytics. Potential restraints include: High Costs and Operational Concerns, Concerns related to Geoprivacy and Confidential Data. Notable trends are: Location data will hold the significant share.

The Observation Domain (OSR) Correction Service market, valued at $426 million in 2025, is poised for robust growth, exhibiting a Compound Annual Growth Rate (CAGR) of 6.8% from 2025 to 2033. This expansion is driven by several key factors. The increasing adoption of precision agriculture techniques, demanding highly accurate positioning data for optimized yield and resource management, is a significant contributor. Furthermore, the burgeoning engineering surveying and GIS/mapping sectors rely heavily on accurate and reliable correction services for infrastructure development, land management, and environmental monitoring. The rise of autonomous vehicles and drones, requiring precise location information for safe and efficient operation, further fuels market growth. Technological advancements, such as the improved accuracy and availability of Real-Time Kinematic (RTK) and Network RTK (NRTK) services, are also pivotal in expanding market reach and application. Competitive landscape analysis reveals key players like Topcon, Trimble, and Septentrio are leading innovation and market penetration. Market segmentation reveals that the RTK service segment currently dominates, but NRTK is experiencing faster growth due to its cost-effectiveness and broader coverage. Regionally, North America and Europe currently hold the largest market shares, reflecting high technological adoption and robust infrastructure. However, developing regions in Asia-Pacific and the Middle East & Africa present significant growth opportunities, driven by increasing infrastructure development and government investments in surveying and mapping initiatives. While challenges such as high initial investment costs for RTK equipment and potential service disruptions due to network outages may act as minor restraints, ongoing technological advancements and increasing demand across various sectors are projected to outweigh these constraints, leading to sustained market expansion throughout the forecast period.

This data set contains high-resolution QuickBird imagery and geospatial data for the entire Barrow QuickBird image area (156.15° W - 157.07° W, 71.15° N - 71.41° N) and Barrow B4 Quadrangle (156.29° W - 156.89° W, 71.25° N - 71.40° N), for use in Geographic Information Systems (GIS) and remote sensing software. The original QuickBird data sets were acquired by DigitalGlobe from 1 to 2 August 2002, and consist of orthorectified satellite imagery. Federal Geographic Data Committee (FGDC)-compliant metadata for all value-added data sets are provided in text, HTML, and XML formats.

Accessory layers include: 1:250,000- and 1:63,360-scale USGS Digital Raster Graphic (DRG) mosaic images (GeoTIFF format); 1:250,000- and 1:63,360-scale USGS quadrangle index maps (ESRI Shapefile format); an index map for the 62 QuickBird tiles (ESRI Shapefile format); and a simple polygon layer of the extent of the Barrow QuickBird image area and the Barrow B4 quadrangle area (ESRI Shapefile format).

Unmodified QuickBird data comprise 62 data tiles in Universal Transverse Mercator (UTM) Zone 4 in GeoTIFF format. Standard release files describing the QuickBird data are included, along with the DigitalGlobe license agreement and product handbooks.

The baseline geospatial data support education, outreach, and multi-disciplinary research of environmental change in Barrow, which is an area of focused scientific interest. Data are provided on four DVDs. This product is available only to investigators funded specifically from the National Science Foundation (NSF), Office of Polar Programs (OPP), Arctic Sciences Section. An NSF OPP award number must be provided when ordering this data. Contact NSIDC User Services at nsidc@nsidc.org to order the data, and include an NSF OPP award number in the email.

Point features which represent the locations of mile marker signs along public roadways in the State of Maryland. Roadway Mile Markers data is developed as part of the Highway Performance Monitoring System (HPMS) which maintains and reports transportation related information to the Federal Highway Administration (FHWA) on an annual basis. HPMS is maintained by the Maryland Department of Transportation State Highway Administration (MDOT SHA), under the Office of Planning and Preliminary Engineering (OPPE) Data Services Division (DSD). This data is used by various modules throughout MDOT, as well as many other State and local government agencies for purposes such as planning, land use, transportation, data & asset collection. Roadway Mile Markers data is published on an annual (yearly) basis for the prior year. For additional information, contact the MDOT SHA Geospatial Technologies Team:GIS@mdot.state.md.usFor additional information related to the Maryland Department of Transportation (MDOT):http://www.mdot.maryland.gov/ For additional information related to the Maryland Department of Transportation State Highway Administration (MDOT SHA):http://www.roads.maryland.gov/Home.aspx MDOT SHA Geospatial Data Legal Disclaimer:The Maryland Department of Transportation State Highway Administration (MDOT SHA) makes no warranty, expressed or implied, as to the use or appropriateness of geospatial data, and there are no warranties of merchantability or fitness for a particular purpose or use. The information contained in geospatial data is from publicly available sources, but no representation is made as to the accuracy or completeness of geospatial data. MDOT SHA shall not be subject to liability for human error, error due to software conversion, defect, or failure of machines, or any material used in the connection with the machines, including tapes, disks, CD-ROMs or DVD-ROMs and energy. MDOT SHA shall not be liable for any lost profits, consequential damages, or claims against MDOT SHA by third parties.This is a MD iMAP hosted service layer. Find more information at https://imap.maryland.gov.Feature Service Link:https://mdgeodata.md.gov/imap/rest/services/Transportation/MD_RoadwayMileMarkers/FeatureServer/0

Subsurface Utility Engineering Market Outlook

According to our latest research, the global Subsurface Utility Engineering (SUE) market size reached USD 2.84 billion in 2024, demonstrating robust demand across diverse infrastructure sectors. The market is projected to grow at a CAGR of 7.1% from 2025 to 2033, ultimately attaining a value of USD 5.29 billion by the end of the forecast period. This remarkable growth trajectory is primarily driven by the increasing complexity of urban infrastructure, the need to mitigate costly utility strikes, and the adoption of advanced geospatial and mapping technologies in construction and municipal projects.

One of the primary growth factors propelling the Subsurface Utility Engineering market is the global surge in infrastructure modernization and urbanization. As cities expand and aging infrastructure requires replacement or enhancement, the risk of damaging existing underground utilities during excavation and construction activities escalates. SUE services and solutions provide precise mapping and identification of subsurface utilities, reducing the likelihood of costly project delays, legal liabilities, and public safety hazards. The integration of SUE in early project phases ensures informed decision-making and facilitates seamless coordination among stakeholders, which is increasingly mandated by regulatory authorities and project owners worldwide.

Another significant factor contributing to market expansion is the rapid advancement of geospatial technologies and digital engineering tools. The proliferation of Geographic Information Systems (GIS), Ground Penetrating Radar (GPR), 3D modeling, and Building Information Modeling (BIM) has revolutionized the way subsurface utilities are detected, mapped, and managed. These innovations enable SUE professionals to deliver high-accuracy data, reduce manual errors, and enhance project efficiency. Additionally, the growing emphasis on sustainability and risk mitigation in construction and utility management is driving organizations to invest in SUE solutions as part of their standard operating procedures.

Furthermore, the increasing adoption of SUE across a wide range of sectors—including transportation, oil and gas, utilities, and municipal projects—is fueling market growth. Governments and private sector entities are recognizing the value of SUE in reducing unforeseen costs, environmental impact, and service disruptions. As more jurisdictions introduce regulations requiring SUE practices for public works and infrastructure projects, the demand for specialized SUE services, software, and equipment is expected to rise steadily, creating substantial opportunities for market participants.

Regionally, North America remains the dominant market for Subsurface Utility Engineering, underpinned by stringent regulatory frameworks, high infrastructure spending, and widespread adoption of advanced technologies. However, the Asia Pacific region is emerging as the fastest-growing market, driven by rapid urbanization, significant investments in smart cities, and expanding construction activities across China, India, and Southeast Asia. Europe also presents a mature and steadily growing market, supported by modernization initiatives and compliance with safety standards. Latin America and the Middle East & Africa are witnessing gradual uptake, primarily propelled by infrastructure development and oil and gas projects.

As the demand for precision and efficiency in infrastructure projects grows, Subsurface Utility Mapping Software is becoming an indispensable tool in the SUE market. This software facilitates the accurate visualization and management of underground utilities, enabling engineers and project managers to make informed decisions that minimize risks and enhance project outcomes. By integrating advanced technologies such as GIS and BIM, these software solutions provide a comprehensive view of subsurface conditions, allowing for better planning and coordination among stakeholders. The ability to simulate various scenarios and assess potential impacts on existing utilities is transforming how projects are executed, ultimately leading to safer and more cost-effective infrastructure development.

Roadway Federal Aid Eligibility data consists of linear geometric features which specifically show public roadways that are eligible for Federal funding in the State of Maryland. Roadway Federal Aid Eligibility data is primarily used for general planning and funding purposes, as well as for Federal Highway Administration (FHWA) Highway Performance Monitoring System (HPMS) annual submission & coordination. The Maryland Department of Transportation State Highway Administration (MDOT SHA) currently reports this data only on the inventory direction (generally North or East) side of the roadway. Roadway Federal Aid Eligibility data is not a complete representation of all roadway geometry.Roadway Federal Aid Eligibility data is developed as part of the Highway Performance Monitoring System (HPMS) which maintains and reports transportation related information to the Federal Highway Administration (FHWA) on an annual basis. HPMS is maintained by the Maryland Department of Transportation State Highway Administration (MDOT SHA), under the Office of Planning and Preliminary Engineering (OPPE) Data Services Division (DSD). Roadway Federal Aid Eligibility data is used by various business units throughout MDOT, as well as many other Federal, State and local government agencies. Roadway Federal Aid Eligibility data is key to understanding which public roadways are eligible for Federal funding in the State of Maryland.Roadway Federal Aid Eligibility data is updated and published on an annual (yearly) basis for the prior year. This data is for the year 2017. For additional information, contact the MDOT SHA Geospatial TechnologiesEmail: GIS@mdot.state.md.usFor additional information related to the Maryland Department of Transportation (MDOT):https://www.mdot.maryland.gov/For additional information related to the Maryland Department of Transportation State Highway Administration (MDOT SHA):https://roads.maryland.gov/Home.aspxMDOT SHA Geospatial Data Legal Disclaimer:The Maryland Department of Transportation State Highway Administration (MDOT SHA) makes no warranty, expressed or implied, as to the use or appropriateness of geospatial data, and there are no warranties of merchantability or fitness for a particular purpose or use. The information contained in geospatial data is from publicly available sources, but no representation is made as to the accuracy or completeness of geospatial data. MDOT SHA shall not be subject to liability for human error, error due to software conversion, defect, or failure of machines, or any material used in the connection with the machines, including tapes, disks, CD-ROMs or DVD-ROMs and energy. MDOT SHA shall not be liable for any lost profits, consequential damages, or claims against MDOT SHA by third parties.This is a MD iMAP hosted service layer. Find more information at https://imap.maryland.gov.Map Service Link:https://geodata.md.gov/imap/rest/services/Transportation/MD_HighwayPerformanceMonitoringSystem/MapServer/1

USACE Inland Electronic Navigational Charts data in native S-57 data format have been converted to vector GIS data with all feature class names, attributes and attribute value enumerations translated to common English naming conventions. These IENC data represent 7,265 statute miles of navigational data produced by the US Army Corps of Engineers IENC Program