The CAD and GIS printer market is projected to reach a value of XXX million by 2033, growing at a CAGR of XX% from 2025 to 2033. The growth of the market is primarily driven by the increasing demand for high-quality prints in various industries, including architecture, engineering, construction, and manufacturing. Additionally, the rising adoption of computer-aided design (CAD) and geographic information systems (GIS) software is further fueling the demand for specialized printers capable of handling complex designs and maps. The market for CAD and GIS printers is segmented based on application, type, and region. Major players in the market include Canon, Epson, Hewlett-Packard, Roland, Konica Minolta, Mimaki Engineering, Mutoh, and Ricoh. North America and Europe are expected to remain key regional markets, followed by Asia-Pacific. Emerging markets in Latin America, the Middle East, and Africa are also expected to contribute to the growth of the market in the coming years.

The seamless, county-wide parcel layer was digitized from official Assessor Parcel (AP) Maps which were originally maintained on mylar sheets and/or maintained as individual Computer Aided Design (CAD) drawing files (e.g., DWG). The CRA office continues to maintain the official AP Maps in CAD drawings and Information Systems Department/Geographic Information Systems (ISD/GIS) staff apply updates from these maps to the seamless parcel base in the County’s Enterprise GIS. This layer is a partial view of the Information Sales System (ISS) extract, a report of property characteristics taken from the County’s Megabyte Property Tax System (MPTS). This layer may be missing some attributes (e.g., Owner Name) which may not be published to the Internet due to privacy conditions under the California Public Records Act (CPRA). Please contact the Clerk-Recorder-Assessor (CRA) office at (707) 565-1888 for information on availability, associated fees, and access to other versions of Sonoma County parcels containing additional property characteristics.The seamless parcel layer is updated and published to the Internet on a monthly basis.The seamless parcel layer was developed from the source data using the general methodology outlined below. The mylar sheets were scanned and saved to standard image file format (e.g., TIFF). The individual scanned maps or CAD drawing files were imported into GIS software and geo-referenced to their corresponding real-world locations using high resolution orthophotography as control. The standard approach was to rescale and rotate the scanned drawing (or CAD file) to match the general location on the orthophotograph. Then, appropriate control points were selected to register and rectify features on the scanned map (or CAD drawing file) to the orthophotography. In the process, features in the scanned map (or CAD drawing file) were transformed to real-world coordinates, and line features were created using “heads-up digitizing” and stored in new GIS feature classes. Recommended industry best practices were followed to minimize root mean square (RMS) error in the transformation of the data, and to ensure the integrity of the overall pattern of each AP map relative to neighboring pages. Where available Coordinate Geometry (COGO) & survey data, tied to global positioning systems (GPS) coordinates, were also referenced and input to improve the fit and absolute location of each page. The vector lines were then assembled into a polygon features, with each polygon being assigned a unique identifier, the Assessor Parcel Number (APN). The APN field in the parcel table was joined to the corresponding APN field in the assessor property characteristics table extracted from the MPTS database to create the final parcel layer. The result is a seamless parcel land base, each parcel polygon coded with a unique APN, assembled from approximately 6,000 individual map page of varying scale and accuracy, but ensuring the correct topology of each feature within the whole (i.e., no gaps or overlaps). The accuracy and quality of the parcels varies depending on the source. See the fields RANK and DESCRIPTION fields below for information on the fit assessment for each source page. These data should be used only for general reference and planning purposes. It is important to note that while these data were generated from authoritative public records, and checked for quality assurance, they do not provide survey-quality spatial accuracy and should NOT be used to interpret the true location of individual property boundary lines. Please contact the Sonoma County CRA and/or a licensed land surveyor before making a business decision that involves official boundary descriptions.

The Reality and Spatial Modeling Software market is experiencing robust growth, driven by increasing adoption across diverse sectors. The market, estimated at $15 billion in 2025, is projected to exhibit a Compound Annual Growth Rate (CAGR) of 15% from 2025 to 2033, reaching an estimated $50 billion by 2033. This expansion is fueled by several key factors. The burgeoning demand for accurate 3D modeling in architecture, engineering, and construction (AEC) is a significant driver, coupled with the rising need for immersive experiences in gaming, virtual reality (VR), and augmented reality (AR) applications. Furthermore, advancements in sensor technology, cloud computing, and Artificial Intelligence (AI) are enhancing the capabilities and accessibility of these software solutions. The market is segmented by application (AEC, gaming, healthcare, etc.) and by software type (CAD, BIM, GIS, etc.), each exhibiting unique growth trajectories. Geographic expansion is also contributing significantly to market growth. North America currently holds the largest market share, driven by high technological adoption and a substantial presence of key players. However, the Asia-Pacific region is anticipated to witness the fastest growth during the forecast period, propelled by rapid urbanization, infrastructure development, and increasing investment in digital technologies. While the market faces certain restraints, such as high initial investment costs and the need for skilled professionals, the overall outlook remains highly positive, owing to continuous technological innovation and expanding application areas. Competition is expected to intensify, with established players and emerging startups vying for market share.

The CAD and GIS printer market is experiencing robust growth, driven by increasing demand for high-precision printing in architectural, engineering, and geographical information system applications. The market, estimated at $2.5 billion in 2025, is projected to witness a Compound Annual Growth Rate (CAGR) of 7% from 2025 to 2033, reaching an estimated market value of $4.2 billion by 2033. Key drivers include the rising adoption of Building Information Modeling (BIM) software, the expanding use of GIS in urban planning and environmental management, and the increasing need for accurate and detailed technical drawings across various industries. Technological advancements, such as the development of wider-format printers with enhanced resolution and speed, are also contributing significantly to market expansion. While the inkjet printer segment currently holds the largest market share due to its cost-effectiveness, the demand for high-quality and durable prints is fueling the growth of electrostatic and roller printers, particularly in professional settings. Geographic segmentation shows North America and Europe currently leading the market, but the Asia-Pacific region is poised for significant growth in the coming years, fueled by rapid infrastructure development and increasing digitalization efforts. However, certain restraints challenge market growth. High initial investment costs for advanced printers can be a barrier for smaller firms, and the ongoing concern of environmental impact from printer ink and toner necessitates the exploration of sustainable alternatives. The market is highly competitive, with established players like Canon, Epson, Hewlett-Packard, Roland, Konica Minolta, Mimaki Engineering, Mutoh, and Ricoh vying for market share through product innovation and strategic partnerships. The increasing adoption of digital design and collaboration tools also poses a challenge as some processes might migrate away from physical printing. Despite these challenges, the long-term outlook for the CAD and GIS printer market remains positive, driven by continued technological innovation and escalating demand across diverse sectors.

All web services published by TNRIS are hosted as ArcGIS services and OGC WMS services. Includes Imagery, Geology and Floodplain datasets.

To use WMS services in your CAD or GIS software package, please consult the software help or support information.

Geospatial data about Howard County, Maryland Social Day Programs. Export to CAD, GIS, PDF, CSV and access via API.

The global urban planning apps market, valued at $76.9 million in 2025, is projected to experience robust growth, driven by increasing urbanization, the need for efficient resource management, and the rising adoption of digital technologies in urban planning. A Compound Annual Growth Rate (CAGR) of 7.3% from 2025 to 2033 suggests a significant market expansion. Key drivers include the need for sustainable urban development, improved citizen engagement through participatory planning platforms, and the ability of these apps to streamline complex processes like zoning and permitting. Trends like the integration of advanced analytics (e.g., predictive modeling for infrastructure needs), the incorporation of 3D visualization for better stakeholder communication, and the growing use of mobile-first solutions are further fueling market growth. While the market faces restraints such as data security concerns and the need for robust digital infrastructure in certain regions, the overall growth trajectory remains positive. The market segmentation reveals strong demand from both large enterprises and SMEs, with iOS and Android platforms dominating the app landscape. The regional breakdown shows significant market potential across North America and Europe, with emerging markets in Asia Pacific also contributing to the overall growth. The competitive landscape is dynamic, featuring established players like Esri (ArcGIS Collector) and Autodesk (AutoCAD 360) alongside innovative startups offering specialized solutions. The continued advancement of mobile technologies, coupled with increasing government initiatives promoting smart city development, will significantly impact market growth. The rising availability of high-quality geospatial data, and the integration of artificial intelligence (AI) and machine learning (ML) for optimizing urban planning processes, are poised to transform the industry. The focus on creating user-friendly interfaces that cater to various stakeholders, from planners to citizens, will be critical in ensuring broader adoption. Furthermore, collaborations between technology companies and urban planning agencies will be instrumental in driving innovation and accelerating market expansion. The market's future hinges on the successful integration of technology with established urban planning practices, creating a more efficient, sustainable, and participatory urban development process.

The integration of AutoCAD, Civil 3D, digital models (Revit), and ArcGIS Pro combines the strengths of each system. This unified approach links together detailed design, building intelligence, and geographic context. Integrations in these areas address the increasingly complex demands of built projects, where environmental, spatial, and infrastructural factors are interconnected. Federating multiple sources of project data ensures that designs and physical infrastructure are contextually aligned with real-world environments, considering geographic constraints and environmental factors. A unified workflow in which project data authored in AutoCAD, Civil 3D, and Revit are geolocated improves communication and collaboration across project teams and organizations. Architects, engineers, urban planners, and other stakeholders gain access to centralized, interoperable project data. Software This article applies to the following software: • AutoCAD 2022 to 2025 • Civil 3D 2022 to 2025 • Revit 2022 to 2025

This three inch pixel resolution color aerial photography was flown between March 19 and March 26, 2022. The files are provided in TIF format which is supported by most GIS and CAD software packages. Its intended usage for viewing is 1" = 100'. The photography has been orthorectified to meet National Map Accuracy Standards for its capture scale. The images are georeferenced to the Illinois State Plane, Eastern Zone. The data set is tiled for dissemination into separate tiles, each of which is 5280 feet (1 mile) on a side.This imagery is provided on an as-is basis, with no guarantees of accuracy or suitability for any particular purpose. Lake County, Illinois, assumes no responsibility for conclusions or decisions reached on the basis of this data.This dataset is projected using the Transverse Mercator map projection. The grid coordinate system used is the Illinois State Plane Coordinate System, East Zone (Zone Number Zone 3776, FIPS 1201), with ground coordinates expressed in U.S. Survey Feet.

Geospatial data about Houston, Texas After School Programs. Export to CAD, GIS, PDF, CSV and access via API.

The size of the Geospatial Data Analytics market was valued at USD XXX Million in 2023 and is projected to reach USD XXX Million by 2032, with an expected CAGR of 12.81% during the forecast period.Geospatial data analytics is all about collecting data, analyzing and interpreting data tied to a geographical location. Its sources include information from GPS-enabled devices, satellites, remote sensing and social media sources. The analysis made possible by it helps businesses gain valuable insights from patterns, trends, and connections that would have otherwise been indistinguishable. Using the information to decide on everything from urban planning and resource management to marketing and logistics will be very possible. There are various reasons why the market for geospatial data analytics is highly driven by increased availability of data, technological advances, and increased business needs for data-driven decision-making. 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: Strict government regulations, High-resolution Images Offered by Other Imaging Technologies. Notable trends are: Defense and Intelligence to be the Largest End-user Industry.

Ravine & Natural Feature Protection area and limit as regulated by City of Toronto Municipal Code Chapter 658 - Ravine & Natural Feature Protection. Please note: Dataset is limited to the City of Toronto geographical boundary. Dataset works best if you open it with GIS/CAD software and reference these layers: City of Toronto Street Centreline, Address Points and Property Boundaries. If your original design drawing has been created without a coordinate system, you will need to reference the city's datasets and then move, scale and/or rotate your data to line up with the property limits for the property you are working with.

Geospatial data about Los Angeles County Special Curriculum Schools and Programs. Export to CAD, GIS, PDF, CSV and access via API.

The Building Information Modeling (BIM) software market, valued at $8.72 billion in 2025, is experiencing robust growth, projected to expand at a compound annual growth rate (CAGR) of 13.90% from 2025 to 2033. This expansion is fueled by several key factors. Increasing adoption of digital technologies within the architecture, engineering, and construction (AEC) industries is a primary driver. BIM software offers significant advantages in improving project planning, collaboration, and cost management, leading to increased efficiency and reduced errors. The rising complexity of construction projects globally, coupled with stringent regulatory requirements for building safety and sustainability, further necessitates the use of advanced BIM solutions. Growth is also being driven by the increasing availability of cloud-based BIM platforms, which enhance accessibility and collaboration among stakeholders. The market is segmented by solution type (software and services), application (commercial, residential, industrial, and others), and end-user (contractors, architects, facilities managers, and others). North America currently holds a significant market share, driven by early adoption and robust technological infrastructure; however, Asia Pacific is projected to witness substantial growth due to rapid urbanization and infrastructure development. The competitive landscape is marked by both established players like Autodesk, Bentley Systems, and Nemetschek, and emerging innovative companies. These companies are continuously investing in research and development to enhance functionalities, integrate new technologies like artificial intelligence and machine learning, and develop user-friendly interfaces to cater to a wider user base. While the market faces some restraints such as the high initial investment costs of BIM software and the need for skilled professionals, the long-term benefits and increasing awareness of its advantages are expected to outweigh these challenges. The market's future trajectory is positive, with continued growth driven by technological advancements, industry adoption, and the overarching need for efficient and sustainable construction practices. The projected market size in 2033 will significantly surpass the 2025 value, reflecting the considerable growth potential of the BIM software market. 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.

This three inch pixel resolution color aerial photography was flown between March 11, 2017 and April 12, 2017. The files are provided in JPEG2000, an open format supported by most GIS and CAD software packages. Its intended usage for viewing is 1" = 100. The photography has been orthorectified to meet National Map Accuracy Standards for its capture scale. The images are georeferenced to the Illinois State Plane, Eastern Zone, using the NAD83 2011 horizontal datum. The data set is tiled for dissemination into many separate tiles, each of which is 2500 feet on a side.

Computer Aided Dispatch (CAD) Market Outlook

The global Computer Aided Dispatch (CAD) market size was estimated at USD 1.5 billion in 2023 and is projected to reach USD 3.1 billion by 2032, growing at a Compound Annual Growth Rate (CAGR) of 7.5% during the forecast period. The market's growth is primarily driven by the increasing need for real-time data sharing, enhanced situational awareness, and the rising adoption of cloud-based solutions in public safety operations.

The growing emphasis on public safety and emergency response is a significant factor propelling the CAD market. Governments and private organizations are investing heavily in advanced CAD systems to improve the efficiency and effectiveness of emergency services. These systems provide real-time data and enable seamless communication between dispatchers and first responders, thereby reducing response times and potentially saving lives. Furthermore, the integration of CAD systems with Geographic Information Systems (GIS) enhances location accuracy, which is crucial for emergency situations.

The technological advancements in CAD solutions are also a major growth driver. Innovations such as artificial intelligence (AI) and machine learning (ML) are being incorporated into CAD systems to predict incidents and optimize resource allocation. These technologies enable predictive analytics, which can forecast potential emergencies based on historical data, thereby aiding in proactive management of resources. Additionally, the advent of cloud computing has facilitated the deployment of CAD systems on a subscription basis, making it more accessible for small and medium-sized enterprises (SMEs).

Another significant factor contributing to the market's growth is the increasing collaboration between public and private sectors. Partnerships and collaborations are providing an impetus to the development of more sophisticated and efficient CAD systems. For instance, technology companies are partnering with public safety agencies to develop customized solutions that meet specific needs. These collaborations are not only enhancing the functionality of CAD systems but also driving down costs, making advanced solutions more affordable.

The role of CAD for VARs (Value-Added Resellers) is becoming increasingly significant in the market landscape. VARs are instrumental in bridging the gap between CAD technology providers and end-users, offering tailored solutions that meet specific organizational needs. By leveraging their industry expertise, VARs can customize CAD systems to enhance functionality and efficiency, providing added value to their clients. This customization is crucial for organizations with unique operational requirements, as it ensures that the CAD systems are optimally aligned with their workflows. Moreover, VARs often provide essential support services, including training and maintenance, which are vital for the seamless integration and operation of CAD solutions. As the demand for more sophisticated and adaptable CAD systems grows, the role of VARs is expected to expand, driving further innovation and adoption in the market.

Regionally, North America is expected to dominate the CAD market, driven by substantial investments in public safety infrastructure and the early adoption of advanced technologies. The region's well-established emergency response framework and the presence of major CAD vendors contribute to its leading position. Furthermore, Asia Pacific is anticipated to exhibit the highest growth rate during the forecast period, owing to increasing urbanization, rising public safety concerns, and government initiatives to modernize emergency response systems.

Component Analysis

In the CAD market, components are broadly categorized into software, hardware, and services. The software segment is poised to account for the largest market share owing to the essential role that software plays in the functionality of CAD systems. Software solutions in CAD are designed to handle emergency calls, coordinate dispatches, and manage resources efficiently. With advancements in software capabilities, features like real-time tracking, integration with GIS, and predictive analytics are becoming standard, enhancing the overall efficiency and reliability of CAD systems.

Hardware components, although not as dominant as software, are critical for the operation of CAD systems. This segment includes devices such as servers, workstations, and communication eq

Market Analysis of Hydraulic Modeling Software The global hydraulic modeling software market is projected to witness significant growth over the next decade, driven by the increasing demand for water management solutions. The market is estimated to have reached a size of USD 1.2 billion in 2025 and is forecast to expand at a CAGR of 5.4% during the period 2025-2033, reaching a value of USD 1.9 billion by 2033. The rising awareness of water conservation and the need for efficient distribution networks are key factors driving market growth. Additionally, the integration of advanced technologies such as GIS, CAD, and SCADA systems is enhancing the capabilities and accuracy of hydraulic modeling software. The market for hydraulic modeling software is segmented based on application, type, and region. Major applications include professional managed services, consulting services, and maintenance and support. Types include GIS hydraulic modeling software, simulation, and advanced pressure management. Regionally, North America and Europe dominate the market, with Asia-Pacific expected to witness the fastest growth over the forecast period. Key players in the market include Bentley Systems, Siemens Industry Software GmbH, and Innovyze, who are continuously innovating and developing advanced solutions to meet the evolving needs of the water industry. The global hydraulic modeling software market is expected to reach USD 436 million by 2026, from USD 270 million in 2019, exhibiting a CAGR of 7.1% during the forecast period. Emerging economies are expected to offer significant growth opportunities for global hydraulic modeling software providers, over the upcoming years. This growth can be attributed to the rising infrastructure development activities, increasing water scarcity, and stringent regulations for water conservation and management.

The global hydraulic modeling software market is highly competitive, with key players implementing various organic and inorganic growth strategies to gain market share. Leading players in the market include Bentley Systems (US), Siemens Industry Software GmbH (Germany), Innovyze (US), Hydraulic Analysis Group Limited (UK), Pannam Imaging Interface Solutions (India), Haestad Methods (US), Broomfield Colo. (US), Wallingford (US), MWH Global (US), IBM Corporation (US), and Ceinsys Tech Ltd (UK).

This six inch pixel resolution color aerial photography was flown between April 9, 2010 and April 18, 2010. The files are provided in JPEG2000, an open format supported by most GIS and CAD software packages. Its intended usage for viewing is 1" = 100. The photography has been orthorectified to meet National Map Accuracy Standards for its capture scale. The images are georeferenced to the Illinois State Plane, Eastern Zone, using the NAD83 NSRS2007 horizontal datum. The data set is tiled for dissemination into many separate tiles, each of which is 2500 feet on a side.

Click here to download this dataset directly.This three inch pixel resolution color aerial photography was flown between March 16 and April 13, 2024. The files are provided in JPEG 2000 format which is supported by most GIS and CAD software packages. Its intended usage for viewing is 1" = 100'. The photography has been orthorectified to meet National Map Accuracy Standards for its capture scale. The images are georeferenced to the Illinois State Plane, Eastern Zone. The data set is tiled for dissemination into separate tiles, each of which is 5280 feet (1 mile) on a side.This imagery is provided on an as-is basis, with no guarantees of accuracy or suitability for any particular purpose. Lake County, Illinois, assumes no responsibility for conclusions or decisions reached on the basis of this data.This dataset is projected using the Transverse Mercator map projection. The grid coordinate system used is the Illinois State Plane Coordinate System, East Zone (Zone Number Zone 3776, FIPS 1201), with ground coordinates expressed in U.S. Survey Feet.

This six inch pixel resolution color aerial photography was flown between April 18, 2014 and April 26, 2014. The files are provided in JPEG2000, an open format supported by most GIS and CAD software packages. Its intended usage for viewing is 1" = 100. The photography has been orthorectified to meet National Map Accuracy Standards for its capture scale. The images are georeferenced to the Illinois State Plane, Eastern Zone, using the NAD83 NSRS2007 horizontal datum. The data set is tiled for dissemination into many separate tiles, each of which is 2500 feet on a side.