Media Map maximizes the potential of your map with map navigation tools, time animation, and swipe. Display and animate time enabled data to highlight changes over time. Set the option to disable scroll and configure Hover Pop-ups to optimize for embedding. Enable the print tool to allow users to save the map to a file for export.Examples:Support your map with descriptive text by including an info panel with a title and description, and/or a splash screen to help orient your audience and prime them to receive your message.Enable tools on the map including a legend, layer list, basemap toggle, overview map, swipe, time slider, etc.Allow your app viewers to choose between two basemaps to experience different perspectives on your phenomena.Data RequirementsThis app has no data requirements.Key App CapabilitiesTime slider - Animate changes in data over timeSwipe - Compare two layers in the map by viewing them simultaneouslyHover pop-ups - Provide viewers quick access to attribute information that appears when hovering on a featureInset map - Show a map with the app's map area in the context of a broader areaView a layer's table - Provide viewers a way to view an attribute of a layer, with an option to export table to CSVBookmarks - Enable bookmarks configured in the Map Viewer to include a collection of preset extentsPrint and export - Generate an image from the app with option to print or export as a PDFNavigation boundary - Keep the area in the map in focus by using a navigation boundary or disabling the ability to scrollFilter options - Configure filter options that allow the viewer to filter data in the mapLanguage switcher - Publish a multilingual app that combines your translated custom text and the UI translations for supported languagesHome, Zoom Controls, Legend, Layer List, SearchSupportabilityThis 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.

The dataset presents a list of laboratories set up in the humanities, digital humanities, and media studies within universities across the world in 1983-2018. The data are collected and organized in an interactive map designed in the digital StoryMapJS tool, creating a valuable visible representation of the laboratory concept from a geographical and historical perspective. Based on the interactive map, I analyze the history of the laboratory in the humanities within a global context from the 1980s to 2018. The dataset includes 214 laboratories.

Data collection

I identified laboratories by using different resources such as universities’ websites, articles, and research projects. Besides, I sent a questionnaire to the most relevant networks in October 2018 to identify even more labs created in (digital) humanities and media studies at universities.

Data organization

I collected data about each lab based on its website and other resources. I extracted the following data: year established, year ended (if applicable), lab’s name, university, city, country, affiliation and location (if provided), disciplines and keywords (based on labs’ statements and projects and aiming to situate a lab), selected projects (if provided), purpose (a short quotation of a lab’s statement published on its website), website, and geographical latitude and longitude. I organized all the data in chronological order according to year established in Google Sheets. Next, I used StoryMapJS, a free tool designed by the Northwestern University’s Knight Lab, to map my data.

Live Maps is a configurable app template that provides the ability to consume a live data feeds from a variety of sources.Use CasesProvide a map that shows locations of health care facilities and the reported cases of the influenza.Present the locations of political campaign events with related tweets.Configurable OptionsLive Maps is used to combine social media feeds with your operational content, it can be configured using the following options:Map: Choose the web map used in your application.Title: The application name displayed in the header.Subitle: The application subtitle displayed in the header.Color: Choose the color scheme for the application.Feed: The live feed to use in the application, currently supports: Twitter, Flickr, SickWeather.Keyword: Optional search keyword for feeds like Twitter and Flickr.Interval: The interval in minutes to switch between records.Refresh interval: The interval in minutes to refresh the feed.Supported DevicesThis application is responsively designed to support use in browsers on desktops, mobile phones, and tablets.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 pageShare a map and choose to Create a Web AppOn 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.

The post-digital era is characterized by the vast presence of platforms imposing their digital affordances and algorithmic control on our behavior. This environment is challenging education and training, with implications for digital and transmedial literacy. Investigating instructional methodologies is crucial to foster critical comprehension of such novel informational environments. The argument maps (AM), which were first created and evaluated in static information contexts (analogical/old web), could be useful in the emergence of dynamic (post-digital) textual forms.

The current paper describes a comprehensive literature review based on the assumptions above. We looked into state of the art in research on using AM to handle dynamic information. We found 150 papers using a PRISMA procedure and then examined 25 of them. Our review produced pertinent data about the current state of AM, including the sorts of texts on which they are used and the tools (especially digital and AI-based) that have been employed. Our research lays the groundwork for teaching the literacies needed in new informational settings, such as multimodal, dynamic, algorithmic, and data-driven contexts, with a specific focus on AM as an effective mediational tool.

This Zenodo record presents the full dataset composed of the following sheets:

1. Codebook
2. Italian Journals
3. List of articles extracted from SCOPUS
4. List of articles extracted from ERIC
5. List of articles extracted from WOS
6. List of articles extracted from DOAJ
7. PRISMA workflow
8. Analysis - First Level (classification of 25 articles selected)
9. Analysis - Second Level (List of 19 articles selected)
10. Final Dataset
11. Interrater Agreement.

As for the Keywords' Map, a primo file .txt displays the text over which basis was performed the keyword maps analysis. The second .txt file shows notes relating to the analysis procedures using the software VOS-Viewer http://www.vosviewer.com/

Any comments or improvements are welcome!

This game presents the libraries and media libraries of Île-de-France as well as the constructions supported by the Region between 2000 and 2013.

Source: cross-referenced files of the Ile-de-France departments and the Ministry of culture, verified and updated. On the result file were added aid from the Region for construction, with the amount and the year, over the period 2000-2013 (data communicated by the Book service of the Region).

Only facilities open to the public appear in the file (projects under construction or facilities not open to the public do not appear).

The global digital indoor map market is experiencing robust growth, driven by the increasing adoption of indoor navigation systems in various sectors. The market size is projected to reach $XXX million by 2033, expanding at a CAGR of XX% over the forecast period of 2025-2033. Key drivers include the rising demand for indoor mapping solutions in public sector agencies and retail establishments, the integration of advanced technologies such as augmented reality and artificial intelligence, and the growing emphasis on indoor safety and security measures. Segmentation of the digital indoor map market reveals distinct application areas including automotive navigation, mobile and the internet, public sector agencies and enterprises, and others. Types of digital indoor maps available in the market include retail indoor maps, airport indoor maps, and others. Geographic regions considered in the analysis include North America, South America, Europe, Middle East & Africa, and Asia Pacific. Leading companies operating in the digital indoor map market include WoNoBo, Bing Maps, GeoMapserver, MapQuest, ArcGIS Online, and Yahoo! Maps, among others.

Important Note: This item is in mature support as of July 2021. A new version of this item is available for your use. Esri recommends updating your maps and apps to use the new version.This web map contains the same layers as the 'Imagery with Labels' basemap that is available in the basemap gallery in the ArcGIS applications but also adds the World Transportation map serviceThe World Transportation map service shows streets, roads and highways and their names. When you zoom in to the highest level of detail the lines disappear and you just see the street names and road numbers.The 'Imagery with Labels' basemap contains the World Imagery map service and the World Boundaries and Places map service, so when you use that basemap you get boundaries and places, but you don't get streets and roads at small scales or street and road labels at large scale. So by adding the World Transportation map service into your map as well you get those too.Want to use this map as the basemap for your own web map? If you have not created your web map yet, simply open this map and then do Save As to save a copy of it as your own map, and then make changes to it like zooming in and adding more data. If you have already created your web map, open it and choose the Imagery With Labels basemap from the Basemap dropdown. Then add the World Transportation service into your map by searching for it. This 'Imagery with Labels and Transportation' web map shows you what this looks like. The World Transportation map service is designed to be drawn underneath the World Boundaries and Places map service, as you can see in this web map.In this web map, we have set the Transportation layer with partial transparency to make the transportation network less prominent relative to the imagery. You can manipulate the level of transparency that you use for the basemap and reference layers in the web maps that you create. You can do this in the layer properties of the layers in the map table of contents.Feedback: Have you ever seen a problem in the Esri World Imagery Map that you wanted to see fixed? You can use the Imagery Map Feedback web map to provide feedback on issues or errors that you see. The feedback will be reviewed by the ArcGIS Online team and considered for one of our updates.Tip: This web map is a useful general purpose map that you can link to from web pages, emails, social media, etc, and embed in your own web page. Just open the map and then choose the Share option. Like with any public map in ArcGIS Online, you don't need to have an ArcGIS Online account in order to share this map by linking or embedding. In addition, by adding extent parameters in the URL you use to link or embed the map, you can take users directly to particular locations. So anyone can immediately take advantage of this map on the web to show any location in the world without even being signed in to ArcGIS Online. See this help topic for more information. For example, here are some links that use extent parameters to open this map at some famous locations. Some of these specify a rectangular extent on the map to zoom to. Others specify a center point and a zoom level to zoom to:Grand Canyon, Arizona, USAGolden Gate, California, USATaj Mahal, Agra, IndiaVatican CityBronze age white horse, Uffington, UKUluru (Ayres Rock), AustraliaMachu Picchu, Cusco, PeruOkavango Delta, Botswana

A map of the Film and Digital Media Production Tax Credit, Film Infrastructure Tax Credit and Digital Animation Production Company Tax Credit projects from the Department of Economic and Community Development- Tax Credit Portfolio. This map is updated in accordance with the schedule of that dataset.

BLM phrase bias: The average number of occurrences per article of certain phrases is seen to vary strongly between media sources.

The global navigation map market is experiencing robust growth, driven by increasing adoption of location-based services across various sectors. Our analysis projects a market size of $15 billion in 2025, exhibiting a Compound Annual Growth Rate (CAGR) of 12% from 2025 to 2033. This significant expansion is fueled by several key factors. The automotive industry's reliance on advanced driver-assistance systems (ADAS) and autonomous vehicles is a primary driver, demanding high-precision and regularly updated map data. Furthermore, the proliferation of mobile devices with integrated GPS and mapping applications continues to stimulate market growth. The burgeoning enterprise solutions segment, utilizing navigation maps for logistics, fleet management, and delivery optimization, contributes significantly to overall market value. Government and public sector initiatives promoting smart cities and infrastructure development further fuel demand. Technological advancements, such as the integration of LiDAR and improved GIS data, enhance map accuracy and functionality, attracting more users and driving market expansion. The market segmentation reveals substantial contributions from various application areas. The automotive segment is projected to maintain its dominance throughout the forecast period, followed closely by the mobile devices and enterprise solutions segments. Within the type segment, GIS data holds a significant market share due to its versatility and application across various sectors. However, LiDAR data is experiencing rapid growth, driven by its high precision and suitability for autonomous driving applications. Geographic regional analysis indicates strong market presence in North America and Europe, primarily driven by advanced technological infrastructure and high adoption rates. However, the Asia-Pacific region is poised for substantial growth, fueled by rapid urbanization, increasing smartphone penetration, and government investments in infrastructure development. Competitive landscape analysis reveals a blend of established players and emerging technology companies, signifying an increasingly dynamic and innovative market environment.

Summary of hyperparameters used.

This statistic describes the share of respondents who enable location-based services on social media in the Middle East and North Africa in 2016, by platform. During the survey period, the share of respondents who used map-based location services on social media apps such as Foursquare was 43.1 percent in the MENA region.

The Geospatial Data Gateway (GDG) provides access to a map library of over 100 high resolution vector and raster layers in the Geospatial Data Warehouse. It is the one stop source for environmental and natural resource data, available anytime, from anywhere. It allows a user to choose an area of interest, browse and select data, customize the format, then download or have it shipped on media. The map layers include data on: Public Land Survey System (PLSS), Census data, demographic statistics, precipitation, temperature, disaster events, conservation easements, elevation, geographic names, geology, government units, hydrography, hydrologic units, land use and land cover, map indexes, ortho imagery, soils, topographic images, and streets and roads. This service is made available through a close partnership between the three Service Center Agencies (SCA): Natural Resources Conservation Service (NRCS), Farm Service Agency (FSA), and Rural Development (RD). Resources in this dataset:Resource Title: Geospatial Data Gateway. File Name: Web Page, url: https://gdg.sc.egov.usda.gov This is the main page for the GDG that includes several links to view, download, or order various datasets. Find additional status maps that indicate the location of data available for each map layer in the Geospatial Data Gateway at https://gdg.sc.egov.usda.gov/GDGHome_StatusMaps.aspx

Public Information is a configurable app template that highlights areas through authoritative data feeds and social content, allowing the public to contribute to your map. Use CasesEnhance your map by overlaying social media feeds on your operational layers. Displays geotagged social media contributions to understand what is trending through these networks centered on your theme and location. This is a good choice when you want to assess local sentiment on current events.Use a swipe tool to hide and reveal a layer within your map. This is a good choice for inspecting the difference between two scenarios. For example, you could show the difference between current sea level and a projected rise in sea level, or visualize an area before and after a tornado where the map view may want to closely inspect the difference between the scenarios at a large scale.Configurable OptionsPublic Information present content from a web map with social media feeds and can be configured using the following options:Provide a title and description, as well as configure a custom splash screen that displays when the app is first loaded.Set up an interactive layer for taking notes. This is a map notes layer contained in the web map.Enable a swipe layer and choose between vertical or horizontal orientation.Determine a default and alternate basemap to be offered in an on screen basemap widget.Enable layers to be generated via content from Instagram, Flickr, Twitter, Webcams.travel, and YouTube.Configure the ability for feature and location search.Enable or disable many UI and mapping configurable options such as overview map, bookmarks, share dialog, legend, summary information, views count, modified date, etc.Supported DevicesThis application is responsively designed to support use in browsers on desktops, mobile phones, and tablets.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 pageShare a map and choose to Create a Web AppOn 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.

Finding Schools is now easier than ever with the College Map, the first geographic search tool published by IPEDS (Integrated Postsecondary Education Data System) providing access to over 7,000 certificate, undergraduate and graduate-level schools. This all-in-one tool enables students, parents and counselors to filter potential programs for location, major, tuition and more. Including both certificate-level programs and advanced degrees, this public application makes the often overwhelming process of school searching simple, and it’s available on mobile devices.

Once the results are narrowed down, users can share their lists on social media or download in excel format. Additionally, the College Map integrates with the College Navigator, a research based search tool providing data from the complete list of IPEDS Survey indicators.

All information contained in this file is in the public domain. Data users are advised to review NCES program documentation and feature class metadata to understand the limitations and appropriate use of these data.

Generated during the project ‘GEOCIENTIFIC ATLAS DEL MEDIO NATURAL DE LA COMMUNIDAD DE MADRID’

Vector data from the basic DLM are generalized for the digital topographic maps and processed according to the ATKIS signature catalogue. The digital data can be submitted via download or on other media carriers. They are available in a maximum of 22 content levels (according to the technical regulations of the AdV) in three forms (individual levels, gray combination and color combination). It should be noted that a UTM grid is only output in the individual levels. The standard resolution is 200L/cm = 508dpi. The TK (ATKIS) presents a map issue with the same content as a printed map. The data is provided free of charge via automated processes or by self-extraction. When using the data, the license conditions must be observed.

Porous media are ubiquitous, a key component of the water cycle and locus of many biogeochemical transformations. Mapping media architecture and interstitial flows have been challenging because of the inherent difficulty of seeing through solids. Previous works used particle image velocimetry (PIV) coupled with refractive index-matching (RIM) to quantify interstitial flows, but they were limited to specialized and often toxic fluids that precluded investigating biological processes. To address this limitation, we present a low-cost and scalable method based on RIM coupled PIV (RIM-PIV) and planar laser induced fluorescence (RIM-PLIF) to simultaneously map both media architecture and interstitial velocities. Here, we store and report the data used in "A biologically friendly, low-cost and scalable method to map permeable media architecture and interstitial flow" by Hilliard et al., 2020, in Geophysical Review Letters, DOI: 10.1029/2020GL090462

Military spending phrase usage per article.

For the digital topographic maps, vector data from the basic DLM are generalised and processed according to the ATKIS signature catalogue. The digital data can be submitted by download or on other media media. They are available in a maximum of 22 content levels (according to the technical regulations of the AdV) in three forms (single layers, gray combination and color combination). It should be noted that a UTM grid is only output in the individual planes. The standard resolution is 200L/cm = 508dpi. A card issue of the same content represents the TK (ATKIS) as a printed card. The data is provided free of charge via automated procedures or by self-collection. When using the data, the license conditions must be observed.