The global urban planning and design software market size was valued at USD 5.84 billion in 2022 and is projected to reach USD 14.56 billion by 2033, exhibiting a CAGR of 11.2% during the forecast period (2023-2033). The market growth is attributed to the rising urbanization and population, increasing demand for sustainable and resilient cities, and advancements in technology such as GIS and BIM. However, the high cost of software and lack of skilled professionals could restrain market growth. The market is segmented into applications (urban planning, landscape architecture, transportation planning, infrastructure design, and others) and types (2D design, 3D design, GIS, and BIM). 2D design is the most widely used type, but 3D design is gaining popularity due to its ability to create more realistic and immersive visualizations. GIS and BIM are also becoming increasingly important as they allow for the integration of data and the creation of more comprehensive plans. Key market players include SketchUp, ESRI, Bentley, Holistic City, Lumion, Modelur, SimWalk, UrbanSim, UrbanFootprint, City Form Lab, and Urban ROI Designer.

The global landscape engineering design services market is experiencing robust growth, driven by increasing urbanization, rising infrastructure development, and a growing focus on sustainable and aesthetically pleasing outdoor spaces. The market, estimated at $150 billion in 2025, is projected to exhibit a Compound Annual Growth Rate (CAGR) of 6% from 2025 to 2033, reaching approximately $250 billion by 2033. Key drivers include government initiatives promoting green spaces and sustainable urban planning, escalating demand for aesthetically pleasing landscapes in commercial and residential developments, and advancements in technology like Building Information Modeling (BIM) and Geographic Information Systems (GIS) that enhance design efficiency and accuracy. Significant growth is anticipated in the Asia-Pacific region, fueled by rapid urbanization and infrastructural projects in countries like China and India. The public utility segment is a major contributor, with increasing investment in parks, recreational areas, and water management projects. Landscape design services currently dominate the market, reflecting a rising awareness of the value of professionally designed outdoor spaces. However, the park planning services segment is also poised for significant growth due to the increasing demand for well-planned and sustainable park infrastructure. While the market presents considerable opportunities, certain restraints exist. These include fluctuating raw material prices, economic downturns impacting construction activities, and the need for skilled professionals to meet the rising demand. Furthermore, environmental regulations and obtaining necessary permits can cause delays and increase project costs. Despite these challenges, the long-term outlook for the landscape engineering design services market remains positive. The continued focus on sustainable development, the growth of eco-tourism, and the increasing importance of urban green spaces will sustain market momentum throughout the forecast period. Leading companies like LandDesign, Kimley-Horn, and Stantec are strategically positioned to benefit from this growth through their expertise, global presence, and innovative design solutions. The market's segmentation allows for targeted strategies by companies specializing in specific applications and service types, capitalizing on unique niches within this expanding industry.

Bolton & Menk, an engineering planning and consulting firm from the Midwestern United States has released a series of illustrated children’s books as a way of helping young people discover several different professions that typically do not get as much attention as other more traditional ones do.Topics of the award winning book series include landscape architecture, civil engineering, water resource engineering, urban planning and now Geographic Information Systems (GIS). The books are available free online in digital format, and easily accessed via a laptop, smart phone or tablet.The book Lindsey the GIS Specialist – A GIS Mapping Story Tyler Danielson, covers some the basics of what geographic information is and the type of work that a GIS Specialist does. It explains what the acronym GIS means, the different types of geospatial data, how we collect data, and what some of the maps a GIS Specialist creates would be used for.Click here to check out the GIS Specialist – A GIS Mapping Story e-book

The Beyoglu Preservation Area Building Features Database. A large and quite comprehensive GIS database was constructed in order to implement the data mining analysis, based mainly on the traditional thematic maps of the Master Plan for the Beyoğlu Preservation Area. This database consists of 45 spatial and non-spatial features attributed to the 11,984 buildings located in the Beyoğlu Preservation Area and it is one of the original outputs of the PhD Thesis entitled "A Knowledge Discovery Approach to Urban Analysis: The Beyoglu Preservation Area as a data mine".

Discover the booming Sunshine Analysis Software market! Explore key trends, regional insights, and leading companies shaping this dynamic sector, projected for significant growth through 2033. Learn how GIS, meteorological, and remote sensing data drive innovation in urban planning, architecture, and agriculture.

This is a polygon data set representing the officially registered neighborhood associations for City of Boise within the city Area of Impact as identified in Chapter 3: Community Structure and Design of the Boise Blueprint - Boise's Comprehensive Plan. Neighborhood Associations are non-profit organizations primarily composed of land owners representing areas of Boise with a distinct ‘style’ or ‘character’ (unique: topography, architecture, history of development, goals) with rights to participate in and influence decisions effecting the development, growth, and maintenance of their defined areas; areas collectively identified as neighborhoods. Each neighborhood has a documented plan with the City of Boise and exists entirely within the current Boise area of impact. This data set was originally created by COMPASS, a regional planning agency for Ada and Canyon County. The data set is now maintained by the City of Boise GIS team. This data set is updated as changes occur and represents a snapshot of the current neighborhood association areas.For more information, please visit City of Boise Energize Our Neighborhoods.

Discover the booming landscape engineering design services market. Our comprehensive analysis reveals a $150B market in 2025, projected to reach $250B by 2033, driven by urbanization and sustainable infrastructure. Learn about key trends, leading companies, and regional growth opportunities.

This is public data on the status of building permits in Paju-si, Gyeonggi-do, and consists of building type, permit number, site location, land classification, site area, building area, total floor area, total floor area of expansion, building-to-land ratio, floor area ratio, structure, cancellation type, permit cancellation date, permit date, main use, use area, use zone, total number of parking spaces, and total parking lot area. This data can be utilized for identifying the distribution of dangerous buildings in the event of disasters such as earthquakes and fires, establishing safety inspections and emergency response plans, predicting building energy usage and evaluating eco-friendly building certification systems (e.g., green buildings), collecting resident opinions and activating communities, urban regeneration with direct participation of local residents, development of building management apps, urban planning and policy establishment, environmental impact assessment, development of smart cities and GIS-based services, etc.

Location data for the study sites used for analysis of the Spatial/Temporal change of climate in relation to urban fringe development project, parts of Phoneix and surrounding areas, 2001 to 2002.

Land cover describes the surface of the earth. Land-cover maps are useful in urban planning, resource management, change detection, agriculture, and a variety of other applications in which information related to the earth's surface is required. Land-cover classification is a complex exercise and is difficult to capture using traditional means. Deep learning models are highly capable of learning these complex semantics and can produce superior results.There are a few public datasets for land cover, but the spatial and temporal coverage of these public datasets may not always meet the user’s requirements. It is also difficult to create datasets for a specific time, as it requires expertise and time. Use this deep learning model to automate the manual process and reduce the required time and effort significantly.Using the modelFollow the guide to use the model. Before using this model, ensure that the supported deep learning libraries are installed. For more details, check Deep Learning Libraries Installer for ArcGIS.Fine-tuning the modelThis model can be fine-tuned using the Train Deep Learning Model tool. Follow the guide to fine-tune this model.Input8-bit, 3-band very high-resolution (10 cm) imagery.OutputClassified raster with the 8 classes as in the LA county landcover dataset.Applicable geographiesThe model is expected to work well in the United States and will produce the best results in the urban areas of California.Model architectureThis model uses the UNet model architecture implemented in ArcGIS API for Python.Accuracy metricsThis model has an overall accuracy of 84.8%. The table below summarizes the precision, recall and F1-score of the model on the validation dataset: ClassPrecisionRecallF1 ScoreTree Canopy0.8043890.8461520.824742Grass/Shrubs0.7199930.6272780.670445Bare Soil0.89270.9099580.901246Water0.9808850.9874990.984181Buildings0.9222020.9450320.933478Roads/Railroads0.8696370.8629210.866266Other Paved0.8114650.8119610.811713Tall Shrubs0.7076740.6382740.671185Training dataThis model has been trained on very high-resolution Landcover dataset (produced by LA County).LimitationsSince the model is trained on imagery of urban areas of LA County it will work best in urban areas of California or similar geography.Model is trained on limited classes and may lead to misclassification for other types of LULC classes.Sample resultsHere are a few results from the model.

The ScoutMuncie Property Survey was a volunteer-based community survey conducted between 2015-2017 by the Muncie Historic Preservation & Rehabilitation Commission in supported through generous funding by The Ball Brothers Foundation and in partnership with Delaware County Historical Society, Delaware County GIS Department, Ball State University, BSU Building Better Neighborhoods, BSU Department of Urban Planning (302 Neighborhood Studio), BSU Department of Landscape Architecture, BSU Graduate Program in Historic Preservation, Place Economics and the CO:LAB. More information on the survey can be found at https://scoutmuncie.wordpress.com Results of the Survey can be viewed in a summary booklet

Photogrammetry-based Asset Capture Market Outlook

According to our latest research, the global Photogrammetry-based Asset Capture market size reached USD 1.54 billion in 2024, driven by rapid digital transformation and the growing demand for high-fidelity 3D models across various industries. The market is expected to expand at a robust CAGR of 14.2% during the forecast period from 2025 to 2033, reaching an estimated USD 4.37 billion by 2033. This remarkable growth is primarily fueled by advancements in imaging technology, increasing adoption in gaming and entertainment, and the need for precise asset documentation in architecture and engineering sectors.

The primary growth factor for the Photogrammetry-based Asset Capture market is the surge in demand for realistic and high-resolution 3D models, particularly in gaming, film, and entertainment industries. As content creators and developers strive to deliver immersive experiences, photogrammetry-based solutions have become indispensable for capturing intricate details and textures. The technology enables rapid digitization of real-world objects and environments, facilitating seamless integration into virtual and augmented reality platforms. Additionally, the proliferation of affordable and high-quality imaging hardware, such as drones and advanced cameras, has democratized asset capture, making it accessible to a broader range of professionals and enthusiasts. This democratization is expected to further accelerate market growth as more industries recognize the value of photogrammetry for visualization, simulation, and digital preservation.

Another significant driver is the increasing adoption of photogrammetry in architecture, construction, and engineering sectors. These industries are leveraging photogrammetry-based asset capture for accurate site surveys, progress monitoring, and structural analysis. The ability to generate precise 3D models from photographs streamlines project workflows, enhances collaboration, and reduces the likelihood of errors during construction. Moreover, regulatory bodies and government agencies are embracing digital documentation for infrastructure projects, heritage conservation, and urban planning. The integration of photogrammetry with Building Information Modeling (BIM) and Geographic Information Systems (GIS) is further expanding its applications, reinforcing its role as a critical tool for asset management, inspection, and documentation.

The cultural heritage and archaeology segment is also contributing significantly to the market's expansion. Institutions and researchers are increasingly utilizing photogrammetry to digitally preserve artifacts, monuments, and historical sites. This technology allows for non-invasive documentation, safeguarding cultural assets from deterioration, natural disasters, or human interference. Furthermore, the ability to create interactive 3D models enhances public engagement, education, and research opportunities. As global initiatives to digitize and protect cultural heritage gain momentum, the demand for photogrammetry-based asset capture solutions is expected to rise, opening new avenues for market participants.

From a regional perspective, North America currently dominates the Photogrammetry-based Asset Capture market, accounting for the largest share in 2024, followed closely by Europe and Asia Pacific. The presence of leading technology providers, high investment in R&D, and strong adoption in entertainment and construction sectors contribute to North America's leadership. Europe benefits from robust government initiatives for cultural preservation and smart infrastructure projects, while Asia Pacific is witnessing rapid growth due to expanding gaming industries, urbanization, and increasing adoption of advanced imaging solutions. Latin America and the Middle East & Africa, though currently smaller markets, are expected to register notable CAGRs as digital transformation initiatives and infrastructure development projects gather pace.

Component Analysis

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3D Reconstruction Software Market Outlook

According to our latest research, the global 3D reconstruction software market size reached USD 1.67 billion in 2024, driven by rapid digital transformation across multiple sectors, with a compound annual growth rate (CAGR) of 12.1% expected through the forecast period. By 2033, the 3D reconstruction software market is projected to attain a value of USD 4.66 billion, underpinned by advances in photogrammetry, artificial intelligence, and expanding applications in healthcare, construction, and entertainment. The proliferation of 3D imaging technologies and the growing demand for accurate digital replicas are key factors propelling market growth.

The most significant growth driver for the 3D reconstruction software market is the escalating adoption of digital twin technology and virtual modeling across a range of industries. Sectors such as architecture, construction, and real estate are leveraging 3D reconstruction software to streamline project planning, enhance visualization, and improve design accuracy. The ability to generate precise, high-fidelity models from images or sensor data has revolutionized workflows, reducing errors and enabling more efficient resource utilization. Additionally, the integration of 3D reconstruction with Building Information Modeling (BIM) systems and Geographic Information Systems (GIS) is catalyzing further adoption. These integrations facilitate more comprehensive project management and data analysis, which is especially valuable in large-scale infrastructure and urban planning projects.

Healthcare stands out as another critical growth area for the 3D reconstruction software market. The technology is increasingly used for medical imaging, surgical planning, and patient-specific prosthetics. The transition toward personalized medicine and minimally invasive procedures has heightened the need for accurate anatomical models, which 3D reconstruction software efficiently provides. Furthermore, the COVID-19 pandemic accelerated digital adoption in healthcare, pushing hospitals and clinics to invest in advanced imaging and modeling tools. The use of 3D reconstruction in educational settings for anatomy training and virtual simulations is also expanding, contributing to greater market penetration.

Another major factor fueling the 3D reconstruction software market is the entertainment and media industryÂ’s rising demand for realistic visual effects, gaming environments, and immersive experiences. The surge in augmented reality (AR) and virtual reality (VR) applications, coupled with the growing popularity of 3D content in films and video games, has led to increased investment in sophisticated reconstruction tools. These tools enable content creators to develop lifelike environments and characters, enhancing user engagement and satisfaction. Moreover, advancements in machine learning and AI have improved the speed and accuracy of 3D modeling, making it more accessible to smaller studios and independent creators.

Reality Capture Software is increasingly becoming a cornerstone in the 3D reconstruction software market, particularly as industries seek more efficient ways to digitize physical spaces. This software enables the transformation of real-world environments into detailed 3D models, which is crucial for sectors like construction, architecture, and real estate. By capturing accurate spatial data, Reality Capture Software enhances project planning and execution, reducing the likelihood of costly errors. Its integration with other digital tools such as BIM and GIS further amplifies its utility, allowing for seamless data management and analysis. As the demand for high-fidelity digital twins grows, the role of Reality Capture Software in facilitating precise and scalable modeling solutions is expected to expand significantly.

From a regional perspective, North America currently dominates the 3D reconstruction software market, accounting for the largest revenue share in 2024, followed by Europe and Asia Pacific. The presence of leading technology companies, robust research and development infrastructure, and high adoption rates in industries such as healthcare and construction contribute to North AmericaÂ’s leadership. Europe exhibits strong growth potential due to significant investments in digital infrastructure and s

Revenue for the Surveying and Mapping Services industry has been volatile in the years since the pandemic. As the economy emerged from a short-lived downturn, surveyors were buoyed by strong residential construction resulting from record-low interest rates. Investment from the commercial sector also expanded as corporate profit soared. However, as the Federal Reserve raised the cost of borrowing to combat high inflation, homebuying and existing home improvements declined, severely inhibiting the residential sector and prompting a multi-year revenue decline for the industry. While interest rates have remained elevated, the 2021 Bipartisan Infrastructure Law has pumped millions of dollars into highway construction, civil engineering, mineral surveying and geospatial data processing, rewarding select surveying and mapping companies with hefty contracts. Thus, industry revenue is anticipated to grow at a CAGR of 2.0% through 2025, even as interest rates remain elevated. In 2025, the industry is projected to grow 1.8% with revenue totalling $11.5 billion.Advances in technology are revolutionizing surveying by enabling faster, more accurate data collection and processing. Mobile mapping tools, UAVs, 3D laser scanning and AI-driven analytics are streamlining workflows, reducing field time and expanding the range of services companies offer. These innovations are supporting complex projects in construction, infrastructure and smart city planning, while cloud-based GIS and automation are improving productivity. As these tools are becoming industry standards, companies that have been quick to adopt them have gained a competitive edge. This increased competition has left laggards behind, making innovation incumbent to sustaining profitability.The industry will continue to see modest expansion as steady economic growth will increase demand from the nonresidential sector. However, economic uncertainty and the expectation of conservative monetary policy by the Federal Reserve will continue to keep interest rates elevated, tempering the residential housing market. Still, surveyors will benefit from new home construction that is expected to rise above historical averages, especially in regions where job growth will support relocation. Through 2030, industry revenue is forecast to expand at a CAGR of 1.1% to reach $12.2 billion.