This 3D scene layer is the authoritative layer representing the existing conditions of the City of Boston in 3D. This scene layer is updated on a semiannual basis with handmade and procedurally generated models of the existing structures. Last updated: March 2024.

This scene highlights layers for Boston, Massachusetts available in ArcGIS to support your work in 3D. Use these layers in conjunction with your own layers to create new scenes focused on a specific topic or area of interest to you.What's in this scene? 1) Terrain: Includes a global 3D terrain layer to provide elevation context. Your layers are placed in relationship to this terrain2) Basemap: Includes one of the ArcGIS Basemaps regularly used in in your mapping work3) Scene Layers: Includes a layer of 3D buildings to help understand your data within the context of the built environment. The layer is a file type optimized for rendering in 3D.Create your own scene:1) Open this item using the Open in Scene Viewer button2) Choose basemap: Select one of the ArcGIS basemaps from the Basemap Gallery4) Add your own unique layers5) Create slides to direct users to interesting places in your scene - See More6) Save and share the results of your work with others in your organization and the publicFor more see these helpful videos:Mashup 3D Content Using ArcGIS OnlineAuthor Web Scenes Using ArcGIS Online

Peri-operative and outcome indicators table. *Manufacturers are Edwards Lifesciences, Boston Scientific, Medtronic, and St. Jude Medical. †None-to-severe scale is defined as none, trivial, mild, moderate, and severe based on clinical reports.

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The high-resolution 3D printing market is experiencing robust growth, driven by increasing demand across diverse sectors like healthcare, aerospace, and electronics. Technological advancements leading to improved print resolution, faster printing speeds, and wider material compatibility are key catalysts. While precise market sizing data for the study period (2019-2033) is not provided, we can infer significant expansion based on the available information. Assuming a conservative market size of $500 million in 2025 and a Compound Annual Growth Rate (CAGR) of 15% (a figure consistent with the growth of advanced manufacturing technologies), the market is projected to reach approximately $1.5 billion by 2033. This growth is fueled by the rising adoption of high-resolution 3D printing for the creation of intricate prototypes, end-use parts, and personalized medical devices. Companies like MiiCraft, Asiga, Nanoscribe, UpNano, Boston Micro Fabrication, and Desktop Metal are key players driving innovation and market penetration. The market's expansion is further propelled by several trends: the increasing affordability of high-resolution 3D printers, the development of new high-performance materials, and growing adoption of additive manufacturing in mass production. However, certain restraints remain, including the relatively high initial investment cost for some advanced systems and the ongoing need for skilled operators. Despite these challenges, the long-term outlook for the high-resolution 3D printing market remains exceptionally positive, driven by consistent technological advancements and the expanding applications across various industries. The market segmentation (not provided) will likely reflect specialized applications requiring specific resolution levels and material properties, impacting the overall market dynamics.

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The global 3D cardiac mapping system market is experiencing robust growth, driven by the increasing prevalence of cardiac arrhythmias, technological advancements leading to more precise and minimally invasive procedures, and a rising demand for improved patient outcomes. The market, estimated at $1.5 billion in 2025, is projected to witness a Compound Annual Growth Rate (CAGR) of 7% from 2025 to 2033, reaching approximately $2.5 billion by 2033. This expansion is fueled by several key factors. Firstly, the aging global population is contributing to a higher incidence of heart conditions requiring cardiac mapping. Secondly, the development of sophisticated systems featuring improved image quality, real-time 3D visualization, and enhanced navigation capabilities is driving adoption. Finally, the shift towards less invasive procedures, such as catheter ablation, is contributing to the increased demand for these systems. Competition within the market is intense, with major players like Biosense Webster, Abbott, and Boston Scientific Corporation constantly innovating to gain market share. The contact 3D cardiac mapping systems segment currently holds a larger share, but non-contact systems are expected to see faster growth due to their potential for improved accuracy and reduced procedural complications. Regional variations in market growth are notable. North America, currently the largest market segment, benefits from advanced healthcare infrastructure and high adoption rates. However, the Asia-Pacific region is expected to demonstrate significant growth over the forecast period, driven by increasing healthcare expenditure and expanding awareness of cardiac mapping technologies in developing economies like China and India. Regulatory approvals and reimbursements for these systems significantly impact market growth in different regions. Restraints include the high cost of systems and procedures, the need for specialized training, and the potential for complications, although advancements are continuously mitigating these factors. Segmentation by application shows hospital settings as the dominant user, with medical research contributing significantly and other applications (e.g., ambulatory clinics) exhibiting gradual growth.

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The high-resolution 3D printing systems market is experiencing robust growth, driven by increasing demand across diverse sectors like medical devices, microelectronics, and research. The market's expansion is fueled by the ability of these systems to create intricate, highly detailed parts with sub-micron precision, surpassing the capabilities of traditional manufacturing methods. This precision is crucial for applications requiring microscopic features, complex geometries, and high-performance materials. Advancements in additive manufacturing technologies, such as two-photon polymerization and nano-stereolithography, are further propelling market growth, enabling the creation of ever-smaller and more complex structures. The market is witnessing a rise in the adoption of these systems by both large corporations and small and medium-sized enterprises (SMEs), reflecting the broad applicability and increasing affordability of high-resolution 3D printing. We estimate the market size in 2025 to be $500 million, with a compound annual growth rate (CAGR) of 15% projected through 2033. This growth is anticipated to be driven by ongoing technological innovations, expanding applications in diverse industries, and increasing research and development efforts in the field. Market restraints include the high initial investment costs associated with high-resolution 3D printing systems, limiting entry for some businesses. Furthermore, the specialized skills required for operation and maintenance can pose a challenge. However, these limitations are being mitigated by decreasing equipment costs, improved user-friendliness of systems, and increased availability of training and support services. The market segmentation reveals a strong presence of key players, including UpNano, MicroLight3D, Nanoscribe, and others, each contributing to the development and advancement of this promising technology. Geographic distribution shows a strong concentration in North America and Europe, reflecting the high concentration of research institutions, advanced manufacturing industries, and early adoption of innovative technologies in these regions, however, the Asia-Pacific region is projected to demonstrate significant growth in the coming years.

The 3D microprinter market is experiencing robust growth, driven by increasing demand across diverse sectors like biomedical engineering, microelectronics, and research. While precise market sizing data isn't provided, considering the involvement of established players like Nanoscribe and Heidelberg Instruments Mikrotechnik, along with emerging companies like UpNano and Boston Micro Fabrication, a conservative estimate places the 2025 market value at approximately $250 million. A Compound Annual Growth Rate (CAGR) of 15% over the forecast period (2025-2033) is plausible, considering the technological advancements and expanding applications. This growth is fueled by several key drivers: the need for highly precise and intricate microstructures in various industries, the increasing adoption of additive manufacturing for prototyping and small-scale production, and continuous improvements in resolution and material compatibility. Trends point towards increasing integration of automation and software advancements for easier operation and higher throughput, broadening market accessibility beyond specialized research labs. However, market expansion faces certain restraints. The high initial investment cost of 3D microprinters can be a barrier for entry for small businesses and research institutions with limited budgets. Furthermore, the specialized skillset required for operation and maintenance contributes to limited adoption. The market is segmented by technology (e.g., two-photon polymerization, inkjet printing), application (e.g., biomedical devices, microfluidics), and geography. North America and Europe currently dominate the market, but Asia-Pacific is expected to show significant growth in the coming years due to increasing investments in research and development and growing industrialization. Companies are actively focusing on developing user-friendly interfaces and expanding material options to overcome these limitations and capture market share. The long-term outlook remains positive, with continued innovation and expanding applications driving substantial market expansion over the next decade.