ArcGIS Online's Scene viewer allows layers to be visualised in 3D. To open a new scene:Click the 'Hamburger' iconClick SceneNew Scene

3D scene viewer application - City of St. Augustine - 2023 Eagleview 3D mesh

Simple Scene Viewer is a configurable app template that supports creation of a web app based on a global or local scene. Use CasesUse this app to share a scene with an your audience when you need a custom color theme, to provide more context such as a title and subtitle, and the target audience would benefit from a more minimal UI than the scene viewer provides. Users could view slides from the scene, search for places, and toggle layers.Configurable OptionsChoose a web a scene, a color theme and optionally enable a layer list.Data RequirementsThis application has no data requirements.Get Started This application can be created in the following ways:Click the Create a Web App button on this pageOn the Content page, click Create - App - From Template Click the Download button to access the source code. Do this if you want to host the app on your own server and optionally customize it to add features or change styling.Click Create a Web App on the item detail page for a web scene.

The aim of this exercise is to bring data from the previous exercises into ArcGIS Online's Scene Viewer to create a 3D model where we can visualise the data in 3D and understand how a flood depth of 1m in the flood alert areas might impact on buildings in these areas.

3D model was generated using drone flight data from Oct 2, 2024 flight. This 3D scene viewer shows the users exploring various facility structures within the South Treatment Plant in 3D model scene.

The aim of this exercise is to bring data from the previous exercises into ArcGIS Online's Scene Viewer to create a 3D model where we can visualise the data in 3D and understand how a flood depth of 1m in the flood alert areas might impact on buildings in these areas.

Important Note: This item is in mature support as of December 2024. See blog for more information.This 3D scene layer presents OpenStreetMap (OSM) trees data hosted by Esri. Esri created buildings and trees scene layers from the OSM Daylight map distribution, which is supported by Facebook and others. The Daylight map distribution has been sunsetted and data updates supporting this layer are no longer available. You can visit openstreetmap.maps.arcgis.com to explore a collection of maps, scenes, and layers featuring OpenStreetMap data in ArcGIS. You can review the 3D Scene Layers Documentation to learn more about how the building and tree features in OSM are modeled and rendered in the 3D scene layers, and see tagging recommendations to get the best results.OpenStreetMap is an open collaborative project to create a free editable map of the world. Volunteers gather location data using GPS, local knowledge, and other free sources of information and upload it. The resulting free map can be viewed and downloaded from the OpenStreetMap site: www.OpenStreetMap.org. Esri is a supporter of the OSM project.Note: This layer is supported in Scene Viewer and ArcGIS Pro 3.0 or higher.

Use the 3D Viewer template to showcase your scene with default 3D navigation tools, including zoom controls, pan, rotate, and compass. Include a locator map and bookmarks to provide context to your scene and guide app viewers to points of interest. Line of sight, measure, and slice tools allow viewers to interpret 3D data. Set the option to disable scrolling in the app to seamlessly embed this app in another app or site. Examples: Present a detailed 3D view of a mountainous region at a large scale while the 2D inset map provides context of where you are in the world. Display a 3D plan for new urban development that app viewers can explore with slice and measurement tools. Allow users to visualize the impact of shadows on a scene using daylight animation. Data requirements The 3D Viewer template requires a web scene. Key app capabilities 3D navigation and Compass tool - Allow app users to pan or rotate the scene and orient their view to north. Locator map - Display an inset map with the app's map area in the context of a broader area. Line of sight - Visualize whether one or multiple targets are visible from an observer point. Measurement tools - Provide tools that measure distance and area and find and convert coordinates. Slice - Excludes specific layers to change the view of a scene. Bookmarks - Provide a collection of preset extents that are saved in the scene to which users can navigate the map. Disable scroll - Prevent the map from zooming when app users scroll Language switcher - Provide translations for custom text and create a multilingual app. Home, Zoom controls, Legend, Layer List, Search Supportability This web app is designed responsively to be used in browsers on desktops, mobile phones, and tablets. We are committed to ongoing efforts towards making our apps as accessible as possible. Please feel free to leave a comment on how we can improve the accessibility of our apps for those who use assistive technologies.

Actualiteit: zie dit itemDeze webscene bevat de BAG-gebouwen van Nederland in 3D. De data is gebaseerd op de 3D BAG data van de TU Delft. Meer informatie over deze dataset kunt u hier terugvinden. De kaart toont de gebouwen naar functietype, zoals wonen, winkel, religie etc.Deze web scene maakt onderdeel uit van een uitgebreide collectie van 3D-kaarten die gebruikt kunnen worden als basis voor uw eigen 3D-informatieproducten. Het is mogelijk om deze laag toe te voegen in een scene in ArcGIS Pro, in de ArcGIS Online-scene viewer en in ArcGIS Earth. Vervolgens kunt u eigen informatie aan de kaart toevoegen en als scene opslaan in ArcGIS Online.

Naast deze web scene heeft Esri Nederland de scene layer apart beschikbaar gesteld in zowel RD als WGS84. Een overzicht van alle beschikbare 3D Content is te vinden in de groep 3D.

Deze laag is aangeboden vanuit Esri Nederland Content. Esri Nederland Content biedt landsdekkende data en services aan die gebruikt kunnen worden in het ArcGIS platform. Het content-team actualiseert het aanbod en voegt geregeld nieuwe content toe. Door content van Esri Nederland te combineren met andere gegevens creëert u snel en eenvoudig nieuwe informatieproducten. Meer informatie over het content aanbod is te vinden via: esri.nl/content. Heeft u vragen of opmerkingen dan horen wij dat graag via content@esri.nl. Volg ons op GeoNet om op de hoogte te blijven van al het Esri Nederland Content-nieuws. Volg ons op GeoNet om op de hoogte te blijven van al het Esri Nederland Content-nieuws.

An exercise to introduce mapping in 2D and 3D in ArcGIS Online using the map viewer and the scene viewer.

The Terrain 3D layer provides global elevation surface to use in ArcGIS 3D applicationsWhat can you do with this layer?Use this layer to visualize your maps and layers in 3D using applications like the Scene Viewer in ArcGIS Online and ArcGIS Pro. Show me how1) Working with Scenes in ArcGIS Pro or ArcGIS Online Scene Viewer2) Select an appropriate basemap or use your own3) Add your unique 2D and 3D data layers to the scene. Your data are simply added on the elevation. If your data have defined elevation (z coordinates) this information will be honored in the scene4) Share your work as a Web Scene with others in your organization or the publicDataset Coverage To see the coverage and sources of various datasets comprising this elevation layer, view the Elevation Coverage Map. Additionally, this layer uses data from Maxar’s Precision 3D Digital Terrain Models for parts of the globe.This layer is part of a larger collection of elevation layers. For more information, see the Elevation Layers group on ArcGIS Online.

The web service publishing DMR 4G data is designed for a displaying of the detailed elevation model via a web interface in 3D, in S-JTSK/Krovak East North (EPSG 5514) coordinate reference system. Service provides data in a specialized data format LERC (https://github.com/Esri/lerc), that enables efficient data compression with regard to fast data transmission and displaying data in 3D applications. For the displaying data it is possible to use existing Esri application such as Scene Viewer (https://www.esri.com/software/scene-viewer), ArcGIS Pro (http://www.esri.com/en/software/arcgis-pro), or ArcGIS Earth (http://www.esri.com/software/arcgis-earth).The service can also be used for displaying the elevation model in 3D in a proper web application using a library ArcGiS API for JavaScript 4.x or native applications using ArcGIS Runtime SDK.

The web service publishing DMR 4G data is designed for a displaying of the detailed elevation model via a web interface in 3D, in Web Mercator coordinate reference system. Service provides data in a specialized data format LERC (https://github.com/Esri/lerc), that enables efficient data compression with regard to fast data transmission and displaying data in 3D applications. For the displaying data it is possible to use existing Esri application such as Scene Viewer (https://www.esri.com/software/scene-viewer), ArcGIS Pro (http://www.esri.com/en/software/arcgis-pro), or ArcGIS Earth (http://www.esri.com/software/arcgis-earth).The service can also be used for displaying the elevation model in 3D in a proper web application using a library ArcGiS API for JavaScript 4.x or native applications using ArcGIS Runtime SDK.

This web scene shows 3D bathymetric data with nearshore benthic habitat features (coral reef, artificial reef, dredged areas, etc.). The web scene was compiled to demonstrate the use of bathymetry elevation data in the web scene viewer and subsequent applications. The web scene was compiled using 2002 LADS bathymetry data (Palm Beach County Department of Environmental Management), Southeast Florida Reef-Tract (Florida Fish and Wildlife Conservation Commission) and Florida Artificial Reefs (Florida Fish and Wildlife Conservation Commission).For additional information on data:Palm Beach County LADS DataUnified Coral Reef Map - FWCFlorida Artificial Reefs

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

A novel dataset and method for 3D Scene Synthesis. It includes training data for both supervised fine-tuning and reinforcement learning, as well as a manually refined test set. The dataset enables the development of spatial reasoning capabilities in large language models for generating coherent 3D scenes.

The TopoBathy 3D layer provides a global seamless topography (land elevation) and bathymetry (water depths) surface to use in ArcGIS 3D applications.What can you do with this layer?This layer is meant to be used as a ground in ArcGIS Online Web Scenes, ArcGIS Earth, and ArcGIS Pro to help visualize your maps and data in 3D.How do I use this layer?In the ArcGIS Online Web Scene Viewer:Sign-in with ArcGIS Online accountOn the Designer toolbar, click Add Layers Click Browse layers and choose Living Atlas.Search for TopoBathy 3DAdd TopoBathy 3D (Elevation Layer)The TopoBathy 3D will get added under Ground. Change basemap to OceansOptionally, add any other operational layers to visualize in 3DIn ArcGIS Pro:Ensure you are logged in with an ArcGIS Online accountOpen a Global SceneOn the Map tab, click Add Data > Elevation Source LayerUnder Portal, click Living Atlas and search for TopoBathy 3DSelect TopoBathy 3D (Elevation Layer) and click OKThe TopoBathy 3D will get added under GroundOptionally, remove other elevation layers from ground and choose the desired basemapDataset Coverage To see the coverage and sources of various datasets comprising this elevation layer, view the Elevation Coverage Map. Additionally, this layer uses data from Maxar’s Precision 3D Digital Terrain Models for parts of the globe.

These files supplement the publication

Einhäuser, W., Atzert, C., & Nuthmann, A. (2020). Fixation durations in natural scene viewing are guided by peripheral scene content. Journal of Vision.

The files fixationsByImg_Exp1.mat, fixationsByImg_Exp2.mat and saccadesByImage_Exp2.mat are Matlab (The MathWorks, Inc.) data files that contain the data as described below. To exemplify their usage, the functions figure2.m through figure5.m output the paper’s data figures. All functions were tested using Matlab version 9.6.0 (R2019a) on Windows 10 and on Ubuntu 14.04.

All files can be used free of charge for scientific purposes, provided the aforementioned publication is appropriately cited.

fixations_Exp1.mat contains the variables describing each fixation of experiment 1

dFixByImAndCon - fixation duration in ms tFixByImAndCon - start time of fixation relative to image onset in ms xFixByImAndCon - x position on the screen yFixByImAndCon - y position on the screen

Notes: - All variables have the dimensions subject (20) x image (60) x colorCondition (2 - grayscale/color) x contrastCondition (5) x fixation number in trial (50). - dFixByImAndCon(:,:,:,:,1), etc. denotes the first fixation ending after image onset, so tFixByImAndCon(:,:,:,:,1) will be negative. - missing data are filled by NaN - x,y position is relative to the screen (1920x1080), not relative to the image, which was presented in the screen center

fixations_Exp2.mat contains the variables describing each fixation of experiment 2

dFixByImAndCon - fixation duration in ms tFixByImAndCon - start time of fixation relative to image onset in ms xFixByImAndCon - x position on the screen yFixByImAndCon - y position on the screen isModByImAndCon - fixation on unmodified (0) or isoluminant (1) patches transByImAndCon - codes type of transition patch n -> patch n+1 unmodified -> unmodified 00 (0) unmodified -> isoluminant 01 (1) isoluminant -> unmodified 10 (10) isoluminant -> isoluminant 11 (11)

Notes: - All variables have the dimensions subject (20) x image (60) x condition (4 - unmodied, isoluminant, center-isoluminant, center-unmodified) x fixation number in trial (50). - isModByImAndCon is 1 if the fixated region is isoluminant, and 0 if unmodified, nan for fixations outside the image. - otherwise notation as in fixations_Exp1.mat

saccades_Exp2.mat contains the variables describing each saccade of experiment 2

xFromByImAndCon / yFromByImAndCon - saccade starting coordinate xToByImAndCon / yToByImAndCon - saccade starting coordinate

Notes: - variable dimensions as in fixations_Exp2.mat - coordinates refer to screen (1920x1080), not to image

The final aim for this practical is to create a 3D model to visualise how a flood depth of 1m might impact buildings within flood alert areas in Shrewsbury, including a potential new building we are going to create a simple 3D model for. By the end of the exercises in this practical you should be able to use Arc Online Apps to create a 3D model that looks like this -The learning objectives for making this model are as follows:Be able to open and navigate in the Map ViewerBe able to find and add suitable data into Map ViewerBe able to create datasets that allow you to perform visual analysis to understand why areas may have been identified as flood risk areasBe able to build a query to identify and extract building data for buildings within the Flood Alert AreaBe able to create a model to represent a potential new buildingBe able to use Scene Viewer to put this all together in a 3D model that allows you visualise this data

Percentage of correct scene recognition questions in Experiment 1.