The NYC 3D Model by Community District is a publicly available model consisting of every building in New York City present in 2014. The model is based on DOITT’s 2014 aerial survey, which provides roof structure details, including a high-level of detail for certain iconic buildings. The Department of City Planning imported and enhanced the DOITT files by converting the entire model into .3dm format, which is compatible with Rhinoceros 3D modeling software. DCP also divided the model into the City’s 59 Community Districts and enriched each CD with base layers, including lots, streets, parks, and rail lines. The 3D model is capable of being imported into most common 3D-modeling software, including Sketchup and AutoCAD.

This three-dimensional (3-D) building massing model of New York City is one of the many digital tools provided by the Office of Technology and Innovation. There are three file formats available to download via the buttons below. For more information on all the tools available, view the OTI's Digital Tools web page.

This Scene consists of the detailed 2014 USGS CMGP Post Sandy LiDAR Survey of New York City. along with over 1 million 3D Buildings for the city of New York available as part of the New York Cities OpenData initiative. A thematically symbolized 3D tree inventory for Roosevelt Island shows the value of LiDAR in validating tree survey heights. The LiDAR Dataset consists of data acquired and processed to assist in the evaluation of storm damage and erosion of the local environment as part of USGS Hurricane Sandy response along the Atlantic Seaboard.

This dataset, developed to substantiate the findings of the study by Zhuang et al. [1], comprises 1,521 building envelopes from the Central Business District (CBD) of New York City (NYC), represented in three formats: the wavefront (obj) format, the Signed Distance Function (SDF) format and 3D binary-volume format.

The original mesh data is procured from the NYC Open Data Portal [2]. The process of data manipulation is thoroughly delineated in the referenced research paper [1].

[1] Zhuang, X., Ju, Y., Yang, A., & Caldas, L. (2023). Synthesis and Generation for 3D Architecture Volume with Generative Modeling. International Journal of Architecture Computing, AI, Architecture, Accessibility, & Data Justice. DOI: 10.1177/14780771231168233.

[2] New York city department of city planning. NYC 3D model by community district, manhattan district, MN05. 2018. Available at: https://www.nyc.gov/site/planning/data-maps/open-data/dwn-nyc-3d-model-download.page. Accessed 15 July 2023.

3D scan of a Hammond typewriter (No. 12) with and without cover, “Ideal visible Hammond”, formerly used in the Geological & Paleontological department of the Natural History Museum. The typewriter is named after its inventor James Bartlett Hammond (1839–1913). The first Hammond typewriters were produced in 1881, the company based in New York existed until the 1930s.

3D City Modelling Platform Market Outlook

According to our latest research, the Global 3D City Modelling Platform market size was valued at $2.1 billion in 2024 and is projected to reach $8.7 billion by 2033, expanding at a robust CAGR of 16.8% during the forecast period from 2025 to 2033. The primary growth driver for the 3D City Modelling Platform market globally is the increasing adoption of smart city initiatives and digital twin technologies by urban planners and municipal governments. These platforms enable cities to visualize, analyze, and manage urban spaces more efficiently, fostering sustainable development and improved public services. As urbanization accelerates worldwide, the demand for sophisticated modelling tools to address complex urban challenges has become a critical priority for both public and private stakeholders, further fueling market expansion.

Regional Outlook

North America currently holds the largest share of the global 3D City Modelling Platform market, accounting for over 38% of total revenue in 2024. This dominance is attributed to the region’s mature technology infrastructure, early adoption of smart city solutions, and robust investments in digital urban planning. The United States, in particular, has seen widespread deployment of 3D city models across metropolitan areas such as New York, San Francisco, and Chicago, driven by federal and municipal policies supporting urban innovation. Furthermore, the presence of leading technology vendors and a strong ecosystem of GIS and modelling software providers give North America a significant competitive edge. The market here is also bolstered by large-scale infrastructure projects and a growing focus on disaster management, public safety, and sustainability.

The Asia Pacific region is projected to be the fastest-growing market for 3D City Modelling Platforms, with a forecasted CAGR of 19.2% from 2025 to 2033. Rapid urbanization, rising investments in smart city projects, and the proliferation of government-led digital transformation initiatives are key factors propelling growth in this region. Countries like China, Japan, South Korea, and Singapore are leveraging 3D city modelling for urban planning, environmental monitoring, and infrastructure management. The increasing availability of cloud-based solutions and scalable platforms has made 3D city modelling more accessible to both large cities and smaller municipalities. Additionally, collaborations between governments, technology firms, and academic institutions are fostering innovation and accelerating the deployment of advanced urban modelling technologies across Asia Pacific.

Emerging economies in Latin America, the Middle East, and Africa are beginning to recognize the value of 3D City Modelling Platforms but face unique adoption challenges. Limited budgets, lack of skilled professionals, and infrastructure constraints often hinder widespread implementation in these regions. However, localized demand for urban resilience, efficient land use, and sustainable development is driving interest in 3D city modelling, particularly in rapidly growing urban centers. Policy reforms, international partnerships, and targeted funding are gradually improving market penetration. As governments in these regions prioritize modernization and digital governance, the adoption of 3D city modelling platforms is expected to accelerate, albeit at a slower pace compared to developed markets.

Report Scope

This database contains the data used in the manuscript - Alves-Cardoso, F.A.; Campanacho, V. To Replicate, or Not to Replicate? The Creation, Use, and Dissemination of 3D Models of Human Remains: A Case Study from Portugal. Heritage 2022, 5

Abstract:

Advancements in digital technology have conquered a place in cultural heritage. The widespread use of three-dimensional scanners in bioanthropology have increased the production of 3D digital replicas of human bones that are freely distributed online. However, ethical considerations about such 3D models have not reached Portuguese society, making it impossible to assess their societal impact and people’s perception of how these models are created and used. Therefore, Portuguese residents were asked to take part in an online survey. The ratio of male to female participants was 0.5:1 in 312 contributors. The age ranged between 18 and 69 years. The majority had a higher education degree. Only 43% had seen a 3D model, and 43% considered the 3D replicas the same as real bone. Also, 87% would be willing to allow their skeleton and family members to be digitalized after death, and 64% advocated the controlled dissemination of replicas through registration and login and context description association (84%). Overall, the results suggest agreement in disseminating 3D digital replicas of human bones. On a final note, the limited number of participants may be interpreted as a lack of interest in the topic or, more importantly, a low self-assessment of their opinion on the subject.

Overview

New York, NY – Oct 30, 2025 – Global 3D Printed Brain Model Market was valued at USD 42.8 Million in 2024 and is anticipated to register substantial growth of USD 227.8 Million by 2034, with 18.2% CAGR. In 2023, North America led the market, achieving over 34% share with a revenue of US$ 14.5 Million.

A new 3D-printed brain model has been developed to advance education, research, and clinical demonstration in neuroscience. The model has been designed to support accurate visualization of complex brain structures, enabling enhanced understanding for medical students, researchers, and healthcare professionals. Three-dimensional printing technology has been employed to recreate anatomical detail with high precision, resulting in a tactile, interactive tool for learning and demonstration purposes.

The model incorporates key anatomical features, including the cerebrum, cerebellum, and brainstem, while highlighting essential neural pathways. Durable bio-compatible materials have been utilized to ensure longevity and repeated handling, making the model suitable for academic institutions, simulation laboratories, and neurosurgical training environments. The adoption of additive manufacturing techniques has enabled cost-efficient production, while facilitating customization based on clinical or educational needs.

The global emphasis on simulation-based medical training has been increasing, driven by demand for safe and effective learning tools. According to industry estimates, the medical 3D printing market has been expanding at a steady pace, supported by technological advancements and growing applications in anatomical modeling. The introduction of this 3D-printed brain model is expected to strengthen educational outcomes by offering a realistic, patient-safe alternative for anatomical study and surgical planning.

Future developments are anticipated to include modular components, interactive labeling, and integration with augmented visualization systems, further enhancing academic and clinical training capabilities in neuroscience.

Comprehensive dataset containing 107 verified 3D printing service businesses in New York, United States with complete contact information, ratings, reviews, and location data.

computational chemistry data (very complex; need to be an expert to understand and use. This dataset is associated with the following publication: Lee, S., and M. Barron. 3D-QSAR Study of Steroidal and Azaheterocyclic Human Aromatase Inhibitors using Quantitative Profile of Protein-Ligand Interactions. Journal of Cheminformatics. Springer, New York, NY, USA, 10(2): 1-13, (2018).

USGS 3DHP project status for New York State. For more information on this Federal Program please visit https://www.usgs.gov/3d-hydrography-programFor more information on the 3DHP program and status in New York please visit https://gis.ny.gov/3dhpPlease contact NYS ITS Geospatial Services at nysgis@its.ny.gov if you have any questions.

Supplemental material for "Hughes MF, Clapper HM, Tedla G, Sowers TD, Rogers KR. Simulated gastric leachate of 3D printer metal-fill filaments induces cytotoxic effects in rat and human intestinal models. Toxicol In Vitro. 2024 Mar 6;97:105805. doi: 10.1016/j.tiv.2024.105805. Epub ahead of print. PMID: 38458500.". Portions of this dataset are inaccessible because: N/A. They can be accessed through the following means: Data will be made available on request from Michael Hughes (hughes.michaelf@epa.gov). Format: N/A. This dataset is associated with the following publication: Hughes, M., H. Clapper, G. Tedla, T. Sowers, and K. Rogers. Simulated gastric leachate of 3D printer metal-fill filaments induces cytotoxic effects in rat and human intestinal models. TOXICOLOGY IN VITRO. Elsevier Science Ltd, New York, NY, USA, 97: 105805, (2024).

The Middle East and Africa 3D/4D technology market is experiencing robust growth, fueled by increasing adoption across diverse sectors. The market, valued at approximately $XX million in 2025 (estimated based on global market size and regional penetration), is projected to exhibit a Compound Annual Growth Rate (CAGR) of 13.50% from 2025 to 2033. Key drivers include the burgeoning healthcare sector's reliance on 3D imaging for diagnostics and surgical planning, the entertainment and media industry's embrace of immersive 3D/4D experiences, and the expanding educational applications leveraging 3D visualization for enhanced learning. Furthermore, the industrial sector's adoption of 3D printing for prototyping and manufacturing adds significant momentum to market expansion. Government initiatives promoting technological advancement and digital transformation across the region further contribute to the market's upward trajectory. While challenges such as high initial investment costs for advanced technologies and a need for skilled professionals may present some restraints, the overall market outlook remains positive. Significant growth is anticipated in segments like 3D printing (driven by the rise of additive manufacturing) and 3D imaging (fueled by medical applications and advancements in imaging technologies). Leading companies like LG Electronics, Samsung, and 3D Systems are playing a key role in shaping this growth through product innovation and strategic partnerships. Specific regional growth within the Middle East will likely be strongest in countries like Saudi Arabia and the UAE, due to their robust economies and investments in advanced technologies. The forecast for the Middle East and Africa 3D/4D technology market anticipates substantial expansion throughout the 2025-2033 period. The high CAGR reflects a confluence of factors, including increasing digitalization, growing demand for personalized healthcare, and a surge in investments in infrastructure development across the region. The consumer electronics segment will also experience significant growth, driven by increasing affordability and accessibility of 3D-enabled devices. However, market penetration will vary across the region, with countries possessing better infrastructure and technological literacy experiencing faster adoption rates. Ongoing research and development efforts focused on enhancing resolution, affordability, and accessibility of 3D/4D technologies will further propel market growth. Strategic collaborations between technology providers and end-users, alongside favorable government policies, will continue to act as key catalysts for market expansion in the coming years. While challenges like cybersecurity concerns and data privacy regulations need to be addressed, the long-term prospects for the Middle East and Africa 3D/4D technology market remain exceptionally strong. This comprehensive report provides an in-depth analysis of the burgeoning Middle East and Africa 3D and 4D technology market, covering the period from 2019 to 2033. The study offers valuable insights into market size, growth drivers, key players, and emerging trends, equipping businesses with the knowledge needed to navigate this dynamic landscape. With a focus on key segments like 3D printing, 3D imaging, and 3D displays, this report is essential for strategic decision-making in this rapidly expanding sector. The report uses 2025 as the base year and provides forecasts until 2033. Recent developments include: September 2021: LG Electronics USA (LG) has launched an immersive 3D multimedia series to commemorate the start of the school year, which debuted this week on the company's giant high-definition digital billboard above New York City's historic Times Square. LG's first 3D content series for billboards, timed for the back-to-school season, ushers in a three-phase visual spectacular that represents LG's efforts to communicate with viewers directly around seasons that everyone experiences, despite the distance created by the new normal., May 2021: 3D Systems has announced focused investments to meet rapidly developing additive manufacturing (AM) application prospects in medical and high-reliability industrial applications. These investments are part of the company's aggressive four-phase plan to reorganize, restructure, divest non-core businesses, and invest for faster development.. Key drivers for this market are: Increasing Applications of 3D Printing in Construction, Increased investment in R&D expected to boost market growth. Potential restraints include: Costs and availability of Raw Material, Economic Instability of The Region. Notable trends are: Healthcare is Expected to Hold SIgnificant Share.

3D Naked-Eye LED Billboard Market Outlook

According to our latest research, the Global 3D Naked-Eye LED Billboard market size was valued at $1.25 billion in 2024 and is projected to reach $6.8 billion by 2033, expanding at a robust CAGR of 20.4% during 2024–2033. This extraordinary growth trajectory is primarily driven by the increasing demand for immersive and attention-grabbing advertising solutions across urban landscapes, retail environments, and entertainment venues. The proliferation of digital out-of-home (DOOH) advertising, coupled with technological advancements in LED display resolution and 3D visualization, is fueling widespread adoption of 3D naked-eye LED billboards globally. As brands and organizations strive to differentiate themselves in crowded marketplaces, the adoption of high-impact visual communication tools such as 3D naked-eye LED billboards is expected to accelerate substantially over the forecast period.

Regional Outlook

North America currently commands the largest share of the global 3D naked-eye LED billboard market, accounting for approximately 38% of the global revenue in 2024. The region’s dominance can be attributed to a mature digital advertising ecosystem, widespread urbanization, and early adoption of advanced display technologies by leading brands and advertisers. Major metropolitan areas such as New York, Los Angeles, and Toronto have become hotspots for large-scale 3D billboard installations, particularly in high-traffic commercial districts and entertainment hubs. Favorable regulatory policies, a high concentration of technology providers, and a strong emphasis on experiential marketing have further cemented North America’s position as the epicenter of innovation and deployment in the 3D naked-eye LED billboard segment.

The Asia Pacific region is projected to register the fastest growth, with a remarkable CAGR of 25.1% between 2024 and 2033. Rapid urbanization, burgeoning consumer markets, and aggressive infrastructure development in countries such as China, Japan, and South Korea are fueling unprecedented investments in digital signage and outdoor advertising. Notably, China has emerged as a global leader in the deployment of 3D naked-eye LED billboards, driven by government-backed smart city initiatives, robust manufacturing capabilities, and a culture that embraces visual innovation. The increasing adoption of cutting-edge advertising formats by retail, transportation, and entertainment sectors across Asia Pacific is expected to drive significant market expansion in the coming years.

Emerging economies in Latin America and Middle East & Africa are witnessing gradual uptake of 3D naked-eye LED billboards, albeit at a slower pace compared to developed regions. Challenges such as high initial investment costs, limited availability of skilled installers, and inconsistent regulatory frameworks have restrained rapid adoption. However, growing interest from multinational advertisers, coupled with localized demand for modern advertising formats in urban centers like Dubai, Johannesburg, and São Paulo, is gradually paving the way for market penetration. Government initiatives aimed at urban beautification and tourism promotion are also expected to provide impetus for the adoption of 3D naked-eye LED billboards in these regions over the forecast period.

Report Scope

Discover the booming Middle East & Africa 3D/4D technology market! This comprehensive analysis reveals a 13.50% CAGR, driven by healthcare, entertainment, and industrial applications. Learn about key players, market trends, and future growth projections for 2025-2033. Recent developments include: September 2021: LG Electronics USA (LG) has launched an immersive 3D multimedia series to commemorate the start of the school year, which debuted this week on the company's giant high-definition digital billboard above New York City's historic Times Square. LG's first 3D content series for billboards, timed for the back-to-school season, ushers in a three-phase visual spectacular that represents LG's efforts to communicate with viewers directly around seasons that everyone experiences, despite the distance created by the new normal., May 2021: 3D Systems has announced focused investments to meet rapidly developing additive manufacturing (AM) application prospects in medical and high-reliability industrial applications. These investments are part of the company's aggressive four-phase plan to reorganize, restructure, divest non-core businesses, and invest for faster development.. Key drivers for this market are: Increasing Applications of 3D Printing in Construction, Increased investment in R&D expected to boost market growth. Potential restraints include: Increasing Applications of 3D Printing in Construction, Increased investment in R&D expected to boost market growth. Notable trends are: Healthcare is Expected to Hold SIgnificant Share.

The data set contains the details on the thermal degradation that takes place during 3D printing of six commercially-available 3D printer filaments containing either carbon nanotubes or metal particle additives. Volatile organic compound (VOC) emissions are measured and used to develop reaction mechanisms. This dataset is associated with the following publication: Potter, P.M., S.R. Al-Abed, F. Hasan, and S.M. Lomnicki. Influence of polymer additives on gas-phase emissions from 3D printer filaments. CHEMOSPHERE. Elsevier Science Ltd, New York, NY, USA, 279: 138543, (2021).

This dataset contains the raw data output from measurements of 3D printer emissions using both ABS and PLA feedstocks. This dataset is associated with the following publication: Byrley, P., W. Boyes, K. Rogers, and A. Jarabek. 3D Printer Particle Emissions: Translation to Internal Dose in Adults and Children.. JOURNAL OF AEROSOL SCIENCE. Elsevier Science Ltd, New York, NY, USA, 154: 105765, (2021).

3D Flower Dress Market Outlook

According to our latest research, the Global 3D Flower Dress market size was valued at $1.2 billion in 2024 and is projected to reach $2.8 billion by 2033, expanding at an impressive CAGR of 9.7% during 2024–2033. The primary factor propelling this robust growth is the increasing consumer appetite for unique, visually captivating fashion statements, with 3D floral embellishments emerging as a signature trend on runways and among social media influencers. As fashion houses and fast-fashion retailers alike embrace advanced textile techniques, the 3D flower dress market is evolving rapidly, appealing to a broad demographic that seeks both exclusivity and contemporary aesthetics. This surge is further bolstered by the integration of innovative materials and digital design processes, which are making intricate designs more accessible and affordable.

Regional Outlook

North America currently dominates the 3D Flower Dress market, accounting for over 32% of the global share in 2024. This leadership is attributed to the region's mature fashion industry, high disposable incomes, and a strong culture of adopting avant-garde fashion trends. Major metropolitan areas such as New York and Los Angeles serve as pivotal hubs for fashion innovation, where designers and retailers are quick to launch new collections featuring 3D floral designs. The presence of established e-commerce platforms and specialty boutiques further accelerates market penetration, while widespread social media influence creates a fertile ground for viral trends. Additionally, North American consumers are increasingly seeking personalized and statement-making garments, driving up demand for 3D flower dresses across both luxury and premium segments.

The Asia Pacific region is projected to be the fastest-growing market, boasting a CAGR of 12.4% through 2033. Key drivers include rapid urbanization, a burgeoning middle-class population, and heightened exposure to global fashion trends via digital channels. Countries such as China, Japan, and South Korea are witnessing a surge in demand for designer and occasion-specific apparel, particularly among younger consumers who are highly influenced by celebrity endorsements and K-fashion movements. Investment in advanced manufacturing technologies and the proliferation of local fashion startups are also fueling innovation, enabling mass customization and faster turnaround times. The region's expanding e-commerce infrastructure is making 3D flower dresses more accessible, even in tier-2 and tier-3 cities, thus unlocking new growth avenues.

Emerging markets in Latin America and the Middle East & Africa are experiencing steady but cautious adoption of 3D flower dresses. While these regions hold significant potential due to their youthful populations and evolving fashion sensibilities, challenges such as limited retail infrastructure, higher import duties, and cultural preferences for traditional attire can impede rapid growth. However, increasing participation in global fashion weeks, rising tourism, and gradual policy reforms supporting local textile industries are expected to bridge adoption gaps. Brands that localize their offerings to align with regional tastes and leverage social commerce platforms are likely to gain early-mover advantages, despite the current hurdles.

Report Scope

3D scan of the famous Charging bull statue on New York City

Created with Polycam

Source: Objaverse 1.0 / Sketchfab

Overview

New York, NY – Aug 28, 2025 – The global 3D Bioprinting Market size is expected to be worth around USD 6.9 Billion by 2032 from USD 2.1 billion in 2024, growing at a CAGR of 16.1% during the forecast period from 2025 to 2032.

The healthcare and biotechnology sectors are witnessing a paradigm shift with the rapid emergence of 3D bioprinting an advanced technology that enables the layer-by-layer fabrication of living tissues using bio-inks composed of cells, biomaterials, and growth factors. This transformative technique is redefining regenerative medicine, drug testing, and organ transplantation research.

The fundamental principle of 3D bioprinting lies in its ability to mimic natural tissue architecture through highly precise deposition of bio-inks. The technology has evolved from printing basic tissue structures to the development of vascularized and functional human tissue prototypes. Applications currently span skin, cartilage, liver, and cardiac patches, with long-term goals including full organ bioprinting.

Key growth drivers include rising demand for organ transplants, increasing investments in regenerative medicine, and technological advancements in stem cell research and biocompatible materials. According to recent industry analyses, the global 3D bioprinting market is projected to witness robust double-digit growth over the next decade.

Challenges remain, particularly in achieving vascularization, regulatory approvals, and ensuring long-term functionality of bioprinted tissues. However, collaboration between academic institutions, bioprinting firms, and healthcare providers is accelerating innovation.

3D bioprinting represents a convergence of biology, engineering, and informatics, with the potential to revolutionize patient-specific treatments and reduce dependency on organ donors. The technology’s continued evolution is poised to shape the future of personalized medicine and healthcare delivery.
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