GIS for Construction Planning Market Outlook

According to our latest research, the GIS for Construction Planning market size reached USD 6.4 billion in 2024, and it is expected to grow at a robust CAGR of 13.2% during the forecast period, reaching approximately USD 18.2 billion by 2033. This dynamic growth is primarily driven by the increasing integration of geospatial technologies in construction workflows, the rising demand for efficient project management solutions, and the global emphasis on sustainable urban development. The market is witnessing significant traction as construction firms and stakeholders recognize the value of Geographic Information Systems (GIS) in optimizing site selection, resource allocation, and risk mitigation.

One of the primary growth factors for the GIS for Construction Planning market is the rapid digital transformation occurring within the construction industry. As project complexity increases and timelines become tighter, construction companies are leveraging GIS solutions to gain real-time spatial insights, enhance collaboration, and streamline operations. The adoption of Building Information Modeling (BIM) integrated with GIS is also playing a pivotal role, enabling more accurate planning, design, and execution of construction projects. This integration empowers stakeholders to visualize project data in a geospatial context, facilitating better decision-making and reducing costly reworks. Additionally, the proliferation of smart cities and infrastructure modernization projects worldwide is significantly boosting the demand for advanced GIS tools in construction planning.

Another significant driver is the growing regulatory emphasis on environmental sustainability and risk management in construction projects. Governments and regulatory bodies are mandating comprehensive environmental impact assessments and risk analyses before granting approvals for new developments. GIS platforms provide a robust framework for conducting these assessments by enabling spatial analysis of environmental factors, potential hazards, and socio-economic impacts. As a result, construction firms are increasingly adopting GIS to ensure compliance with regulations, minimize environmental footprints, and enhance community engagement. The ability of GIS to integrate diverse datasets and generate actionable insights is proving invaluable in navigating the complex regulatory landscape of the construction sector.

Furthermore, advancements in cloud computing, IoT, and mobile technologies are accelerating the adoption of GIS in construction planning. Cloud-based GIS solutions offer scalability, flexibility, and real-time data access, making them ideal for large-scale, multi-site construction projects. The integration of IoT devices enables continuous monitoring of construction sites, asset tracking, and predictive maintenance, all of which feed valuable data into GIS platforms. These technological innovations are not only improving project efficiency but also enabling proactive risk management and resource optimization. As construction firms increasingly embrace digital transformation, the demand for sophisticated GIS solutions is expected to surge, further propelling market growth.

From a regional perspective, North America currently dominates the GIS for Construction Planning market, accounting for the largest revenue share in 2024, followed closely by Europe and Asia Pacific. The strong presence of leading technology providers, high levels of investment in infrastructure, and early adoption of advanced digital tools have positioned North America as a key growth engine. Meanwhile, Asia Pacific is projected to witness the highest CAGR during the forecast period, driven by rapid urbanization, government-led smart city initiatives, and expanding construction activities in emerging economies such as China and India. Europe continues to demonstrate steady growth, fueled by stringent environmental regulations and a focus on sustainable development.

Component Analysis

The GIS for Cons

GIS for Construction Planning Market Outlook

According to our latest research, the Global GIS for Construction Planning market size was valued at $2.7 billion in 2024 and is projected to reach $7.8 billion by 2033, expanding at a CAGR of 12.3% during 2024–2033. The primary factor propelling this impressive growth is the increasing integration of advanced geospatial technologies into construction workflows, which is revolutionizing how projects are planned, managed, and executed globally. The demand for precise site analysis, real-time project monitoring, and streamlined asset management is accelerating the adoption of Geographic Information Systems (GIS) within the construction sector, enabling stakeholders to make data-driven decisions, minimize risks, and optimize resource allocation.

Regional Outlook

North America currently holds the largest share in the global GIS for Construction Planning market, accounting for over 35% of total market revenue in 2024. This dominance is attributed to the region’s mature construction industry, high digitalization rates, and robust regulatory frameworks mandating the use of advanced planning tools for infrastructure projects. The United States, in particular, showcases widespread adoption of GIS solutions among construction companies, government agencies, and urban planners, driven by the need for efficient project management and compliance with environmental standards. Additionally, the presence of leading GIS software providers and a strong culture of technological innovation further cements North America’s leadership position, with the region forecasted to maintain steady growth throughout the forecast period.

The Asia Pacific region is poised to be the fastest-growing market, projected to register a remarkable CAGR of 15.6% between 2024 and 2033. This surge is fueled by massive investments in infrastructure, urbanization initiatives, and smart city projects across countries such as China, India, and Southeast Asian nations. Governments and private developers are increasingly leveraging GIS platforms to address the complexities of megaprojects, from site selection to environmental impact analysis. The proliferation of affordable cloud-based GIS solutions is also lowering entry barriers for small and mid-sized firms, further accelerating market expansion. As digital transformation takes center stage in the region’s construction sector, Asia Pacific is expected to contribute significantly to the global market’s incremental growth.

In emerging economies across Latin America, the Middle East, and Africa, the adoption of GIS for construction planning is gaining traction, albeit at a slower pace due to budgetary constraints and limited technical expertise. However, these regions present substantial untapped potential, as governments increasingly prioritize infrastructure modernization and sustainable urban development. Localized demand is being shaped by the need for disaster resilience, efficient land management, and regulatory compliance. Challenges such as inconsistent internet connectivity, data standardization issues, and lack of skilled professionals persist, but ongoing policy reforms and international collaborations are gradually addressing these hurdles, paving the way for broader GIS adoption in the coming years.

Report Scope

The booming Construction Mapping Services market is projected to reach $15 Billion by 2033, driven by drone technology, BIM integration, and the demand for real-time data. Explore market trends, key players (Fugro, AECOM, Stantec), and regional insights in this comprehensive analysis.

Table contains count and percentage of county residents ages 16 and older who work in construction industry. Data are presented at county, city, zip code and census tract level. Data are presented for zip codes (ZCTAs) fully within the county. Source: U.S. Census Bureau, 2016-2020 American Community Survey 5-year estimates, Table S2403; data accessed on July 20, 2022 from https://api.census.gov. The 2020 Decennial geographies are used for data summarization.METADATA:notes (String): Lists table title, notes, sourcesgeolevel (String): Level of geographyGEOID (Numeric): Geography IDNAME (String): Name of geographyt_16plus (Numeric): Population ages 16 years and olderconstruction (Numeric): Number of workers in construction industrypct_construct (Numeric): Percent of workers in construction industry

Building structures include parking garages, ruins, monuments, and buildings under construction along with residential, commercial, industrial, apartment, townhouses, duplexes, etc. Buildings equal to or larger than 9.29 square meters (100 square feet) are captured. Buildings are delineated around the roof line showing the building "footprint." Roof breaks and rooflines, such as between individual residences in row houses or separate spaces in office structures, are captured to partition building footprints. This includes capturing all sheds, garages, or other non-addressable buildings over 100 square feet throughout the city. Atriums, courtyards, and other “holes” in buildings created as part of demarcating the building outline are not part of the building capture. This includes construction trailers greater than 100 square feet. Memorials are delineated around a roof line showing the building "footprint."Bleachers are delineated around the base of connected sets of bleachers. Parking Garages are delineated at the perimeter of the parking garage including ramps. Parking garages sharing a common boundary with linear features must have the common segment captured once. A parking garage is only attributed as such if there is rooftop parking. Not all rooftop parking is a parking garage, however. There are structures that only have rooftop parking but serve as a business. Those are captured as buildings. Fountains are delineated around the base of fountain structures.

Buildings. The dataset contains polygons representing planimetric buildings, created as part of the DC Geographic Information System (DC GIS) for the D.C. Office of the Chief Technology Officer (OCTO). These features were originally captured in 1999 and updated in 2005. The following planimetric layers were updated: - Building Polygons (BldgPly) - Bridge and Tunnel Polygons (BrgTunPly) - Metro Entrance Points (MetroEntPt) - Obscured Area Polygons (ObsAreaPly) - Railroad Lines (RailRdLn) - Road, Parking, and Driveway Polygons (RoadPly) - Sidewalk Polygons (SidewalkPly) - Under Construction Areas (UnderConstPly) - Wooded Areas (WoodPly) The following planimetric layers are new: - Horizontal and Vertical Control Points (GeoControlPt) - Hydrography Center Lines (HydroCenterLineLn).

The Construction Mapping Services market is booming, projected to reach $32 billion by 2033. Discover key trends, growth drivers, leading companies like Fugro and AECOM, and the impact of BIM, GIS, and drone technology in this insightful market analysis.

November 2024

Discover the booming Government Information Construction Service market! This comprehensive analysis reveals key trends, growth drivers (cloud adoption, digital transformation), restraints, and regional insights (North America, Europe, Asia-Pacific) from 2019-2033. Learn about leading companies and explore market segmentation for informed decision-making.

Displays data from CGDB.BLDG2012_PLGN. The layer will not display when zoomed out beyond 1,799.

The Geographic Information System (GIS) market is experiencing robust growth, projected to reach $2979.7 million in 2025 and maintain a Compound Annual Growth Rate (CAGR) of 5.5% from 2025 to 2033. This expansion is driven by several key factors. Increasing urbanization and infrastructure development necessitate sophisticated spatial data management and analysis, fueling demand for GIS solutions across various sectors. The construction industry, for instance, leverages GIS for project planning, site surveying, and resource management, while utilities companies use it for network optimization and asset management. Furthermore, the growing adoption of cloud-based GIS platforms enhances accessibility, scalability, and cost-effectiveness, attracting a wider user base. Precision agriculture, another significant driver, utilizes GIS for efficient land management, crop monitoring, and yield optimization. Technological advancements, particularly in areas like sensor technology (imaging sensors, LIDAR), GNSS/GPS, and improved data analytics capabilities, continuously enhance GIS functionalities and expand its applications. Competitive landscape includes major players like Esri, Hexagon, and Autodesk, driving innovation and fostering market competitiveness. However, the market faces some challenges. The high initial investment required for implementing GIS solutions, along with the need for specialized technical expertise, can be barriers to entry, particularly for smaller businesses. Data security and privacy concerns also remain a significant factor influencing market growth. Despite these restraints, the long-term outlook for the GIS market remains positive, driven by continued technological progress, increasing data availability, and growing awareness of the benefits of spatial data analysis across diverse industries. The market is expected to witness substantial growth in regions like Asia Pacific and North America owing to high adoption rates and increasing investment in infrastructure projects. The consistent improvements in accuracy and cost-effectiveness of GIS technology will continue to open up new application areas, further fueling market expansion throughout the forecast period.

Urban construction is a main form of human land use activities. It records the history of urban system evolution and reflects changes in the location, size, and form of a city. Historical data of urban construction land along the Silk Road provide data support for studying the evolutionary process of these cities, as well as for restoring longer-term construction land and other urban factors. In this paper, urban land refers to the scope of city-wall enclosure. Through the integration of multi-source data, the urban construction land along the Silk Road was restored, and a GIS dataset of urban construction land along the Silk Road in the Ming and Qing dynasties was established. The dataset allows searches by place name or time period for the changes of construction land in cities from 1368 to 1911.

This feature class is a compliation GIS dataset that contains building footprints depicting building shape and location in the state of Oregon. All contributing datasets were compiled into the stateside dataset. Static datasets or infrequently maintained datasets were reviewed for quality. New building footprint data were reviewed and digitized from 2017 and 2018 imagery accessed from the Oregon Statewide Imagery Program.

Regional building footprints. Original buildings are constructed of multiple "polygons" representing the different building heights. All polygons making up a single building have the same "building ID" [Bldg_ID], which was used to dissolve the buildings into generalized building footprints. Attributes that apply to the entire building were retained.-- Additional Information: Category: Building Purpose: For mapping generalized building footprints, i.e., cartographic base maps. Update Frequency: Continually-- Metadata Link: https://www.portlandmaps.com/metadata/index.cfm?&action=DisplayLayer&LayerID=52413

Under Construction Areas. The dataset contains polygons representing planimetric Under Construction Areas, created as part of the DC Geographic Information System (DC GIS) for the D.C. Office of the Chief Technology Officer (OCTO). These features were originally captured in 1999 and updated in 2005. The following planimetric layers were updated: - Building Polygons (BldgPly) - Bridge and Tunnel Polygons (BrgTunPly) - Metro Entrance Points (MetroEntPt) - Obscured Area Polygons (ObsAreaPly) - Railroad Lines (RailRdLn) - Road, Parking, and Driveway Polygons (RoadPly) - Sidewalk Polygons (SidewalkPly) - Under Construction Areas (UnderConstPly) - Wooded Areas (WoodPly) The following planimetric layers are new: - Horizontal and Vertical Control Points (GeoControlPt) - Hydrography Center Lines (HydroCenterLineLn).

The global Geographic Information System (GIS) market is booming, projected to reach $17.5 billion by 2033 with a 5.8% CAGR. Discover key trends, drivers, and regional insights in this comprehensive market analysis, covering major players and applications.

The planimetric data was compiled by The Sanborn Map Company, Inc for the Metropolitan District and is based on an aerial flight performed in April 2015. In addition, the City's GIS staff has been updating limited planimetric features based on information on file in various City departments. The planimetric data has also been updated in 2016 and yearly to current based on spring aerial flights by EagleView.

Buildings_BACI

   File Geodatabase Feature Class


   Thumbnail Not Available

   Tags

   Buildings, structures, ruins, storage tanks, silos, water towers, Baltimore City Planimetric, Biophysical Resources, Land, Socio-Economic Resources, Capital




   Summary


   This data was created as a landbase feature as part of the planimetric data.


   Description


   This dataset represents photogrammetrically captured Building footprints => 100sq. ft. including storage tanks, silos, water towers, power plants, substations, and structures under construction and ruins. Feature capture rules:


   Buildings - Outline edge of roofline. All buildings shall be captured as polygons. In commercial areas especially, it is important that the plotted building represent the face of the building where it meets the sidewalk. Polygons shall be created for the outer boundary of the building when a partywall exists. Does not include sheds and small temporary structures. Attached garages shall be represented as part of the building structure. Large structures such as stadiums shall also be represented.

   Structures under construction or demolition - Delineate the rooflines of all buildings under construction as interpreted from aerial photography. If roofline is not visible compile visible foundation or walls

   Ruins - Delineate old overgrown areas of old structures that have been demolished or are in disrepair. Original data will be reclassified to define as separate subtype.

   Storage tanks, silos, and water towers - Outlines of all storage tanks, silos and water towers. . Original data will be reclassified to define as separate subtype.

   Power plants and substations - Outline of power plant and substation structure. . Original data will be reclassified to define as separate subtype.


   Credits

   There are no credits for this item.


   Use limitations


   Every reasonable effort has been made to ensure the accuracy of these data. The City of Baltimore, Maryland makes no representations nor warranties, either express or implied, regarding the accuracy of this information or its suitability for any particular purpose whatsoever. The data is licensed "as is" and the City of Baltimore will not be liable for its use or misuse by any party. Reliance of these data is at the risk of the user.


   Extent



   West -76.714715  East -76.525355 

   North 39.375162  South 39.193953 




   Scale Range

   There is no scale range for this item.

This is a line dataset that delineates the extent of State Water Project construction divisions. The locations of the construction divisions were derived from DWR records.This dataset is current as of 3/20/2024.