e-Mapping of Prunus dulcis chromosomes

The global Navigation Electronic Map market is poised for substantial expansion, projected to reach an impressive USD 3,615 million by 2025, demonstrating a robust Compound Annual Growth Rate (CAGR) of 26.6% throughout the forecast period of 2025-2033. This dynamic growth is fueled by a confluence of escalating demand from both personal and commercial sectors, driven by the pervasive adoption of smartphones, in-car navigation systems, and the burgeoning interest in location-based services. The increasing sophistication of mapping technologies, encompassing the transition from 2D to more immersive and detailed 3D navigation electronic maps, is a significant evolutionary trend. Furthermore, the integration of AI and machine learning for real-time traffic updates, personalized routing, and enhanced predictive analytics is further propelling market penetration. The military application segment, while smaller, also contributes to market expansion through its reliance on precise and reliable geospatial data for strategic operations and intelligence gathering. The market's trajectory is not without its challenges. Restraints such as data privacy concerns, the high cost of developing and maintaining accurate and comprehensive map data, and the need for robust cybersecurity measures to protect sensitive location information could temper the growth. However, these are being actively addressed through advancements in data anonymization techniques, collaborative mapping initiatives, and the development of more efficient data collection and processing methodologies. The competitive landscape is characterized by the presence of established technology giants alongside specialized mapping companies, all vying for market share through innovation and strategic partnerships. The widespread availability of open-source mapping platforms and increasing investments in R&D are expected to foster a more dynamic and competitive environment, ultimately benefiting end-users with more advanced and accessible navigation solutions across diverse applications and regions. This in-depth report delves into the dynamic global Navigation Electronic Map market, offering a comprehensive analysis of its trajectory from the historical period of 2019-2024 through to the forecast period of 2025-2033, with a base year of 2025. The report leverages extensive research to provide actionable insights, market sizing in millions, and strategic recommendations. It meticulously examines key market drivers, challenges, emerging trends, and leading players, equipping stakeholders with the knowledge to navigate this evolving landscape. The report’s detailed segmentation and forward-looking analysis are designed to assist businesses in identifying growth opportunities and formulating robust strategies within the multi-billion dollar navigation electronic map industry.

Discover the booming Navigation Electronic Map market! Explore its $14.75B (2025) size, projected 8% CAGR, key players (Google, TomTom, etc.), and regional breakdowns. Learn about driving trends, market segmentation, and future opportunities in this insightful analysis.

The Navigation Electronic Map market is booming, projected to reach $37.46 billion by 2033 with a CAGR of 12%. Discover key trends, driving factors, and leading companies shaping this dynamic industry. Explore market segmentation and regional analysis for a comprehensive overview.

Taiwan e-Map (Taiwan e-Map) is to provide the necessary basic map data for various national policy initiatives. It is built by the National Land Surveying and Mapping Center of the Ministry of the Interior using aerial photogrammetry in accordance with the Taiwan e-Map surveying and mapping specifications (the current contour lines only display elevations above 200 meters). This is an "open data network map service" that is smaller than the 1:18,000 scale tile (i.e. the 15th level of the tile scale). If you need a file, please refer to the "Taiwan e-Map tile packaging file" or the "Taiwan e-Map MBTiles file (for offline map use with the APP)" dataset. WMTS EPSG: 3857 WMS EPSG: 4326, 3826, 3857 The layer name is EMAP5_OPENDATA.

The Navigation Electronic Map market is booming, projected to reach $3021 million by 2025 with a 25.4% CAGR. This report analyzes market drivers, trends, restraints, and key players, offering insights into 2D/3D maps across personal, commercial, and military applications. Explore regional market shares and future growth projections.

The Taiwan e-Map is developed by the Ministry of the Interior's Land Surveying and Mapping Center to provide reference for the basic map data needed for various national policy promotions, using aerial photogrammetric methods in accordance with the Taiwan e-Map surveying and mapping specifications. It is produced as map tile files (currently, contour lines are only displayed above 200 meters in elevation). If you need to access the service, please refer to the "Taiwan e-Map (overlay contour lines, scale less than one eight-thousandth)" or "Taiwan e-Map (excluding contour lines, scale less than one eight-thousandth)" data sets.

e-mapping of Prunus persica chromosomes

According to Cognitive Market Research, the global electronic cartography market size is USD 26.94 billion in 2024 and will expand at a compound annual growth rate (CAGR) of 9.49% from 2024 to 2031. Market Dynamics of Electronic Cartography Market

Key Drivers for Electronic Cartography Market

Rising use of Smartphones and IoT - The prominent factor that drives the market growth include the widespread use of smartphones, tablets, and electronic devices. In addition rise in the usage of Internet of Things (IoT) devices, heightened the demand for real-time mapping solutions, consequently driving the demand for the electronic cartography market. In addition, growing dependence on location-based services (LBS), Geographic Information Systems (GIS), and GPS applications for searching nearby theatre halls, gasoline stations, restaurants, urban planning, disaster management, is another factor that drives the demand for electronic cartography during the forecast period.
The increasing need for real-time data mapping to create precise and current digital representations, combined with the capability to analyze and visualize streaming data from sensors, devices, and social media feeds, is expected to propel market growth.

Key Restraints for Electronic Cartography Market

Integrating geographic,and geo-social data from different sources, such as social media and satellite imagery, can be challenging due to differences in data formats and scales.
Lack of expertise among users regarding the adoption of electronic cartography in marine industry may hampered the market growth

Introduction of the Electronic Cartography Market

Electronic cartography is a technology that allows to simulate the surrounding area with the help of special technical means and computer programs. Electronic cartography integrated with various processes such as data processing, data acquisitions, map distribution, and map creation. As the demand for topographical information systems grows, the deployment of digital mapping has grown in the government and public sectors. The Science & Technology Directorate (S&T), in May 2024,has launched a digital indoor map navigator Mappedin. This digital indoor map navigator transform floor plans into interactive and easily maintainable digitized maps, and is currently being used by both response agencies and corporate clients. Mappedin provides high-quality 3D map creation, easy-to-use mapping tools and data, map sharing, and data maintenance, to city executives, building owner operators and first responders to make and deliver maps for a variety of safety-related situations—from advance preparation and planning to assistance during emergency incidents. Additionally the rapid rise in the number of smartphone and internet users has fueled industry expansion. Additionally, the increasing number of connected and semi-autonomous vehicles along with anticipated advancements in self-driving and navigation technologies, are expected to boost the demand for electronic cartography market.

RTB Maps is a cloud-based electronic Atlas. We used ArGIS 10 for Desktop with Spatial Analysis Extension, ArcGIS 10 for Server on-premise, ArcGIS API for Javascript, IIS web services based on .NET, and ArcGIS Online combining data on the cloud with data and applications on our local server to develop an Atlas that brings together many of the map themes related to development of roots, tubers and banana crops. The Atlas is structured to allow our participating scientists to understand the distribution of the crops and observe the spatial distribution of many of the obstacles to production of these crops. The Atlas also includes an application to allow our partners to evaluate the importance of different factors when setting priorities for research and development. The application uses weighted overlay analysis within a multi-criteria decision analysis framework to rate the importance of factors when establishing geographic priorities for research and development.Datasets of crop distribution maps, agroecology maps, biotic and abiotic constraints to crop production, poverty maps and other demographic indicators are used as a key inputs to multi-objective criteria analysis.Further metadata/references can be found here: http://gisweb.ciat.cgiar.org/RTBmaps/DataAvailability_RTBMaps.htmlDISCLAIMER, ACKNOWLEDGMENTS AND PERMISSIONS:This service is provided by Roots, Tubers and Bananas CGIAR Research Program as a public service. Use of this service to retrieve information constitutes your awareness and agreement to the following conditions of use.This online resource displays GIS data and query tools subject to continuous updates and adjustments. The GIS data has been taken from various, mostly public, sources and is supplied in good faith.RTBMaps GIS Data Disclaimer• The data used to show the Base Maps is supplied by ESRI.• The data used to show the photos over the map is supplied by Flickr.• The data used to show the videos over the map is supplied by Youtube.• The population map is supplied to us by CIESIN, Columbia University and CIAT.• The Accessibility map is provided by Global Environment Monitoring Unit - Joint Research Centre of the European Commission. Accessibility maps are made for a specific purpose and they cannot be used as a generic dataset to represent "the accessibility" for a given study area.• Harvested area and yield for banana, cassava, potato, sweet potato and yam for the year 200, is provided by EarthSat (University of Minnesota’s Institute on the Environment-Global Landscapes initiative and McGill University’s Land Use and the Global Environment lab). Dataset from Monfreda C., Ramankutty N., and Foley J.A. 2008.• Agroecology dataset: global edapho-climatic zones for cassava based on mean growing season, temperature, number of dry season months, daily temperature range and seasonality. Dataset from CIAT (Carter et al. 1992)• Demography indicators: Total and Rural Population from Center for International Earth Science Information Network (CIESIN) and CIAT 2004.• The FGGD prevalence of stunting map is a global raster datalayer with a resolution of 5 arc-minutes. The percentage of stunted children under five years old is reported according to the lowest available sub-national administrative units: all pixels within the unit boundaries will have the same value. Data have been compiled by FAO from different sources: Demographic and Health Surveys (DHS), UNICEF MICS, WHO Global Database on Child Growth and Malnutrition, and national surveys. Data provided by FAO – GIS Unit 2007.• Poverty dataset: Global poverty headcount and absolute number of poor. Number of people living on less than $1.25 or $2.00 per day. Dataset from IFPRI and CIATTHE RTBMAPS GROUP MAKES NO WARRANTIES OR GUARANTEES, EITHER EXPRESSED OR IMPLIED AS TO THE COMPLETENESS, ACCURACY, OR CORRECTNESS OF THE DATA PORTRAYED IN THIS PRODUCT NOR ACCEPTS ANY LIABILITY, ARISING FROM ANY INCORRECT, INCOMPLETE OR MISLEADING INFORMATION CONTAINED THEREIN. ALL INFORMATION, DATA AND DATABASES ARE PROVIDED "AS IS" WITH NO WARRANTY, EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO, FITNESS FOR A PARTICULAR PURPOSE. By accessing this website and/or data contained within the databases, you hereby release the RTB group and CGCenters, its employees, agents, contractors, sponsors and suppliers from any and all responsibility and liability associated with its use. In no event shall the RTB Group or its officers or employees be liable for any damages arising in any way out of the use of the website, or use of the information contained in the databases herein including, but not limited to the RTBMaps online Atlas product.APPLICATION DEVELOPMENT:• Desktop and web development - Ernesto Giron E. (GeoSpatial Consultant) e.giron.e@gmail.com• GIS Analyst - Elizabeth Barona. (Independent Consultant) barona.elizabeth@gmail.comCollaborators:Glenn Hyman, Bernardo Creamer, Jesus David Hoyos, Diana Carolina Giraldo Soroush Parsa, Jagath Shanthalal, Herlin Rodolfo Espinosa, Carlos Navarro, Jorge Cardona and Beatriz Vanessa Herrera at CIAT, Tunrayo Alabi and Joseph Rusike from IITA, Guy Hareau, Reinhard Simon, Henry Juarez, Ulrich Kleinwechter, Greg Forbes, Adam Sparks from CIP, and David Brown and Charles Staver from Bioversity International.Please note these services may be unavailable at times due to maintenance work.Please feel free to contact us with any questions or problems you may be having with RTBMaps.

The digital cartography market is booming, projected to reach $45 billion by 2033, driven by autonomous vehicles, e-commerce, and GIS advancements. Explore market trends, key players (Google, TomTom, etc.), and regional analysis in this comprehensive report.

This mapping tool provides a representation of the general watershed boundaries for stream systems declared fully appropriated by the State Water Board. The boundaries were created by Division of Water Rights staff by delineating FASS critical reaches and consolidating HUC 12 sub-watersheds to form FASS Watershed boundaries. As such, the boundaries are in most cases conservative with respect to the associated stream system. However, users should check neighboring FASS Watersheds to ensure the stream system of interest is not restricted by other FASS listings. For more information regarding the Declaration of Fully Appropriated Stream Systems, visit the Division of Water Rights’ Fully Appropriated Streams webpage. How to Use the Interactive Mapping Tool: If it is your first time viewing the map, you will need to click the “OK” box on the splash screen and agree to the disclaimer before continuing. Navigate to your point of interest by either using the search bar or by zooming in on the map. You may enter a stream name, street address, or watershed ID in the search bar. Click on the map to identify the location of interest and one or more pop-up boxes may appear with information about the fully appropriated stream systems within the general watershed boundaries of the identified location. The information provided in the pop-up box may include: (a) stream name, (b) tributary, (c) season declared fully appropriated, (d) Board Decisions/Water Right Orders, and/or (e) court references/adjudications. You may toggle the FAS Streams reference layer on and off to find representative critical reaches associated with the FASS Watershed layer. Please note that this layer is for general reference purposes only and ultimately the critical reach listed in Appendix A of Water Rights Order 98-08 and Appendix A together with any associated footnotes controls. Note: A separate FAS Watershed boundary layer was created for the Bay-Delta Watershed. The Bay-Delta Watershed layer should be toggled on to check if the area of interest is fully appropriated under State Water Board Decision 1594.

The Taiwan e-Map has been created in offline map file (MBTiles format) to meet the demand for offline maps on mobile map apps. If you need to integrate the service, please refer to the "Taiwan General Electronic Map (with contour lines, scales smaller than 1:18,000)" or "Taiwan General Electronic Map (without contour lines, scales smaller than 1:18,000)" datasets.

*The minimum scoring function was used is each category.†The detection accuracy is highly overestimated since 85.87% of the PS pairs in the BioGRID were extracted from the E-MAP dataset.‡The detection accuracy is highly overestimated since 94.14% of the PS pairs in the BioGRID were extracted from the E-MAP dataset.aTrue positive rate (TPR, or sensitivity) at 10% false positive rate (FPR).b1-FPR (or specificity) at 70% TPR.cArea under the curve (AUC) at 50% FPR.dAUC at 100% FPR.

The layer structure and content attributes explanation document of the general electronic map of Taiwan, updated version of 114th year.

Electronic maps (E-maps) provide people with convenience in real-world space. Although web map services can display maps on screens, a more important function is their ability to access geographical features. An E-map that is based on raster tiles is inferior to vector tiles in terms of interactive ability because vector maps provide a convenient and effective method to access and manipulate web map features. However, the critical issue regarding rendering tiled vector maps is that geographical features that are rendered in the form of map symbols via vector tiles may cause visual discontinuities, such as graphic conflicts and losses of data around the borders of tiles, which likely represent the main obstacles to exploring vector map tiles on the web. This paper proposes a tiled vector data model for geographical features in symbolized maps that considers the relationships among geographical features, symbol representations and map renderings. This model presents a method to tailor geographical features in terms of map symbols and ‘addition’ (join) operations on the following two levels: geographical features and map features. Thus, these maps can resolve the visual discontinuity problem based on the proposed model without weakening the interactivity of vector maps. The proposed model is validated by two map data sets, and the results demonstrate that the rendered (symbolized) web maps present smooth visual continuity.

SSR mining, marker design, mapping and annotation data of Solanum lycopersicum

It belongs to the series ‘Regional Geological Map’ It includes a main geotechnical interpretation map and four auxiliary maps, included in the memory, of surface formations, geomorphological, hydrogeological and geotechnical characteristics.

description: BLM-New Mexico has partnered with the New Mexico Department of Game and Fish (NMDGF) to offer maps of NMDGF Big Game hunting units on the CarryMap Observer application. CarryMap Observer is a unique solution for reproducing maps as self-sufficient distributable electronic map applications for desktop computers and mobile devices. CMF and CMF2 map files are used with the CarryMap Observer and CarryMap applications on mobile devices and Windows computers in order to facilitate hunting and other recreational mapping needs in the field. Map files expire every year to ensure data doesn't 'go stale' and users are forced to download updated information.; abstract: BLM-New Mexico has partnered with the New Mexico Department of Game and Fish (NMDGF) to offer maps of NMDGF Big Game hunting units on the CarryMap Observer application. CarryMap Observer is a unique solution for reproducing maps as self-sufficient distributable electronic map applications for desktop computers and mobile devices. CMF and CMF2 map files are used with the CarryMap Observer and CarryMap applications on mobile devices and Windows computers in order to facilitate hunting and other recreational mapping needs in the field. Map files expire every year to ensure data doesn't 'go stale' and users are forced to download updated information.

This is a Topic Map from the e-IRG Knowledge Base used by the e-IRGSP5 project to analyse Key Performance Indicators (KPIs) for e-Infrastructure projects funded by Horizon 2020.