This document provides a summary of Esri's support for geospatial standards from the Open Geospatial Consortium (OGC) and the International Organization for Standardization's Technical Committee 211 (ISO/TC 211). It lists OGC specifications and ISO standards that Esri products implement as well as Esri's roles in supporting the development and customization of these standards. The document is intended to help users understand Esri's commitment to and implementation of open standards for geospatial interoperability.
Infrastructure Standards For Geospatial StandarizationBiplov Bhandari
The document summarizes a course on spatial data infrastructure. It provides an overview of international standardization organizations like ISO, IEC, and ITU. It discusses the roles and benefits of ISO standards. It also covers challenges in geographic standardization, the need for interoperability, examples of location-based services, impacts of internet and mobile technologies on spatial applications, and published ISO/TC 211 standards for spatial data infrastructure.
Geospatial Temporal Open Standards for Big Data from Space (BiDS2014)George Percivall
Presentation to ESA Big Data From Space (BiDS2014), November 2014.
Big data from space requires processing large amounts of data in a distributed environment. For efficient, quality and cost-effective deployment, these environments must be based on open standards. The Open Geospatial Consortium (OGC) open standards for geospatial-temporal information have been tuned through implementations to meet the needs of big data.
GeoSolutions has been involved into a number of projects, ranging from local administrations to global institutions, involving GeoNode deployments, customizations and enhancements. A gallery of projects and use cases will showcase the versatility and effectiveness of GeoNode, both as a standalone application and as a service component, for building secured geodata catalogs and web mapping services. Lastly, ongoing and future developments will be presented ranging from the upcoming integration with MapStore to the monitoring and analytics dashboard or the support for time series data.
CyberGIS Architectures for Collaborative Problem Solving - OGC perspectiveGeorge Percivall
The document discusses CyberGIS architectures for collaborative problem solving. It states that the geospatial interoperability plumbing is in place through standards like OGC web services. However, improvements are still needed for big data applications and discrete global grid systems. It also notes that conceptual models and implementations are needed for knowledge objects like decisions and hypotheses to fully enable collaborative knowledge environments.
Analysis Ready Data workshop - OGC presentation George Percivall
The Open Geospatial Consortium (OGC) has activities relevant to the workshop scope of "the current state-of-the-art in satellite data interoperability”. This presentation will focus on two main topics with the option to discuss other relevant topics that the participants may wish to discuss, e.g., WFS3. The two focus areas of development: 1) Geospatial Datacubes and 2) Earth Observation Exploitation Platforms. 1) A Geospatial Datacube provides access to and analytics on analysis ready data (ARD) organized with coordinate axes of space and time with cells in the cube containing data of geospatial features, e.g., imagery. OGC members implementing geospatial datacubes are documenting common practices to spur development and leading to the possibility to federated geospatial datacubes. 2) OGC is forming a Earth Observation Exploitation Platform Domain Working Group with the goal of defining a standards-based framework for cloud-based access to and analysis of EO data. An ad-hoc meeting was held in March 2018 to scope the working group with the results issued in a request for comment: http://www.opengeospatial.org/pressroom/pressreleases/2792
OGC Update for State of Geospatial Tech at T-RexGeorge Percivall
An update on OGC activities in three time horizons: Now, Next and After Next. Finishing with how to keep updated on OGC activities.
Now
Recently approved OGC standards
Implementation of approved standards
Next
Standards Program
Innovation Program
After Next
Tech Forecast
How to keep in touch
This presentation has been prepared with the objective to give readers a quick introduction to the Open Source GeoNode platform and its functionalities for the creation of a Spatial Data Infrastructure completely based on open Source components.
Euskaltel has been continuously upgrading its GIS system since 1998 to improve functionality and integration with other systems. Key milestones include migrating to ArcGIS 8.1 in 2002 to use SQL Server and address performance issues, integrating with a new .NET CRM system in 2004-2005, and a major migration to ArcGIS 9.2 and ArcGIS Server in 2008. The GIS now supports various telecommunications network management and analysis tasks but continued improvements are needed, such as a dedicated telecommunications management solution and faster web viewer.
Infrastructure Standards For Geospatial StandarizationBiplov Bhandari
The document summarizes a course on spatial data infrastructure. It provides an overview of international standardization organizations like ISO, IEC, and ITU. It discusses the roles and benefits of ISO standards. It also covers challenges in geographic standardization, the need for interoperability, examples of location-based services, impacts of internet and mobile technologies on spatial applications, and published ISO/TC 211 standards for spatial data infrastructure.
Geospatial Temporal Open Standards for Big Data from Space (BiDS2014)George Percivall
Presentation to ESA Big Data From Space (BiDS2014), November 2014.
Big data from space requires processing large amounts of data in a distributed environment. For efficient, quality and cost-effective deployment, these environments must be based on open standards. The Open Geospatial Consortium (OGC) open standards for geospatial-temporal information have been tuned through implementations to meet the needs of big data.
GeoSolutions has been involved into a number of projects, ranging from local administrations to global institutions, involving GeoNode deployments, customizations and enhancements. A gallery of projects and use cases will showcase the versatility and effectiveness of GeoNode, both as a standalone application and as a service component, for building secured geodata catalogs and web mapping services. Lastly, ongoing and future developments will be presented ranging from the upcoming integration with MapStore to the monitoring and analytics dashboard or the support for time series data.
CyberGIS Architectures for Collaborative Problem Solving - OGC perspectiveGeorge Percivall
The document discusses CyberGIS architectures for collaborative problem solving. It states that the geospatial interoperability plumbing is in place through standards like OGC web services. However, improvements are still needed for big data applications and discrete global grid systems. It also notes that conceptual models and implementations are needed for knowledge objects like decisions and hypotheses to fully enable collaborative knowledge environments.
Analysis Ready Data workshop - OGC presentation George Percivall
The Open Geospatial Consortium (OGC) has activities relevant to the workshop scope of "the current state-of-the-art in satellite data interoperability”. This presentation will focus on two main topics with the option to discuss other relevant topics that the participants may wish to discuss, e.g., WFS3. The two focus areas of development: 1) Geospatial Datacubes and 2) Earth Observation Exploitation Platforms. 1) A Geospatial Datacube provides access to and analytics on analysis ready data (ARD) organized with coordinate axes of space and time with cells in the cube containing data of geospatial features, e.g., imagery. OGC members implementing geospatial datacubes are documenting common practices to spur development and leading to the possibility to federated geospatial datacubes. 2) OGC is forming a Earth Observation Exploitation Platform Domain Working Group with the goal of defining a standards-based framework for cloud-based access to and analysis of EO data. An ad-hoc meeting was held in March 2018 to scope the working group with the results issued in a request for comment: http://www.opengeospatial.org/pressroom/pressreleases/2792
OGC Update for State of Geospatial Tech at T-RexGeorge Percivall
An update on OGC activities in three time horizons: Now, Next and After Next. Finishing with how to keep updated on OGC activities.
Now
Recently approved OGC standards
Implementation of approved standards
Next
Standards Program
Innovation Program
After Next
Tech Forecast
How to keep in touch
This presentation has been prepared with the objective to give readers a quick introduction to the Open Source GeoNode platform and its functionalities for the creation of a Spatial Data Infrastructure completely based on open Source components.
Euskaltel has been continuously upgrading its GIS system since 1998 to improve functionality and integration with other systems. Key milestones include migrating to ArcGIS 8.1 in 2002 to use SQL Server and address performance issues, integrating with a new .NET CRM system in 2004-2005, and a major migration to ArcGIS 9.2 and ArcGIS Server in 2008. The GIS now supports various telecommunications network management and analysis tasks but continued improvements are needed, such as a dedicated telecommunications management solution and faster web viewer.
GeoNode is an open source platform for developing spatial data infrastructures (SDIs) that aims to make uploading, sharing, and working with geospatial data as easy as blogging. It provides tools for publishing, styling, and mapping data; generating metadata; allowing federated searches across datasets; and including social features to encourage participation and ensure data quality. The software is being developed through a partnership between OpenGeo and organizations like the World Bank to support disaster risk reduction efforts and build an open geospatial web.
The development of a Geographic Information System for traffic route planni...Matthew Pulis
This was my MSc. Informatics thesis. The project started with a Literature Review studying the historic advancements of Location Based Services and Geographic Information Systems, in particular Open Source GIS. Case Studies were reviewed so as to gain knowledge from past experiences. The methodology used for this project followed the DSDM methodology and requirements were drawn following the MoSCoW priorities. A full working version of the project which is presented in
a Web Interface can be accessed online.
Towards Geo-Enablement - Location Matters Seminar 29 Mar 2012GeoEnable Limited
Presentation Title: ‘Towards Geo-Enablement’
• As changes in ICT and GIS happen so fast, what opportunities does this bring for further Business Process integration? Is there a risk we are missing opportunities?
• I will discuss the steps towards a ‘Geo-Enables’ enterprise and how it is critical that business drivers lead any ‘IM strategy’ and GIS strategy. An ICT strategy should follow these.
• Is the IT industry in need of business process management (BPM) integration, rather that business process automation (BPA) (workflow) led initiatives?
A presentation of the underlying motivations and institutional context behind GeoNode, some of its major design decisions, and unresolved challenges for its sustainability.
I gave this talk at UC Berkeley School of Information's research seminar on Information and Communication Technology for Development (ICTD).
Much of the material comes from an older presentation I wrote with Rolando Peñate.
The State of Big Data for Geo - ESRI Big Data Meetupseagor
1. Big data in geospatial applications is characterized by volume, velocity, and variety due to the rise of GPS-enabled devices and social media.
2. Technologies like MrGeo, Esper, and Neo4j Spatial help scale geoprocessing and spatial analysis to large datasets using techniques like MapReduce, complex event processing, and graph databases.
3. Case studies on the NYC Marathon and Colorado wildfires demonstrate how big data can enhance geoanalysis to provide insights when connecting large datasets to GIS.
The document summarizes the Geohazards TEP (GEP) service, which provides on-demand and systematic processing of Earth observation (EO) data to support geohazards analysis. The GEP offers access to Copernicus and other satellite data, massive cloud computing power, and processing services via a web portal, APIs, and command line tools. It processes data for applications like earthquake response, landslide mapping, and regularly monitors the Alps with Sentinel-1 data. Documentation and tutorials are available on the GEP website.
The document provides an overview of the Geo Analytics Canada demonstration platform. It describes how the platform addresses the challenge of analyzing large satellite datasets using traditional desktop tools by bringing algorithms to scalable cloud data and computing resources. Key features highlighted include on-demand compute and storage, tools for querying, discovering and analyzing satellite data, pre-processing pipelines, and personal analytic environments for interactive exploration and scaling of analyses. The platform aims to enable big data analytics of satellite datasets through open-source technologies and partnerships between IT and Earth observation experts.
Spatio-temporal Data Handling With GeoServer for MetOc And Remote SensingGeoSolutions
This presentation will provide detailed information on how to handle SpatioTemporal metadata in GeoServer for serving with OGC Services, with a particular focus on WMS and WCS.
Esri Location Analytics: Four Implementation ModelsEsri
This document describes four models for implementing Esri Location Analytics:
1. A cloud model using only ArcGIS Online
2. A hybrid cloud/on-premises model using ArcGIS Online and ArcGIS for Server
3. A hybrid model using ArcGIS Online and Portal for ArcGIS on-premises
4. An on-premises model using only Portal for ArcGIS
It discusses the products involved, security considerations for each model, and when sensitive data may be transmitted outside an organization's firewall.
This document provides a functionality matrix to help select the appropriate edition and level of ArcGIS for Server. It describes the core functionality included in each edition such as support for spatially enabled databases, web services, and geoprocessing. It also provides examples of how different editions may be used in scenarios like supporting a large city government with advanced analysis, extensive data, and internal and public applications. The Enterprise Advanced edition is recommended for large organizations with many users and petabytes of imagery requiring advanced analysis.
The document provides a roadmap for the ArcGIS platform in 2014. It outlines Esri's commitment to continued development of the platform with regular updates. The roadmap details planned releases for apps like ArcGIS Pro, Collector, and ArcGIS Online. It discusses drivers like user needs, technology advances, and enterprise readiness. Long term themes are also outlined around 3D capabilities, usability improvements, performance, and offline functionality. The vision is to develop a comprehensive online and offline GIS platform to help businesses solve problems using geographic approaches.
Esri is a leading GIS software and services company founded in 1969. It develops the ArcGIS software suite used by about 70% of GIS professionals. ArcGIS includes desktop, server, and mobile GIS products. The desktop component allows authoring, analysis, and mapping of geospatial data. Server products enable deployment of GIS functionality across organizations. Mobile products integrate GIS with GPS and location services for field data collection.
This document provides a matrix that outlines the functionality and capabilities available with different editions and license levels of ArcGIS for Server 10.2.x. It compares editions based on supported web services, applications, editing tools, geoprocessing, and other functions. It also outlines the capacity limits of the Workgroup and Enterprise license levels in terms of connections, storage, and cores. Use case scenarios are presented to help determine the appropriate edition and level.
Portal for ArcGIS is a content management system that provides a framework to easily manage and secure geographic assets within an organization. It extends the reach of GIS to everyone in an organization, enabling better decision making. Portal for ArcGIS can be used to implement web GIS on-premises or in the cloud for organizations with specialized security requirements. It will be included with ArcGIS for Server Standard and Advanced starting at version 10.3.
Esri presentation at FOSS4G conference, 08 Sept 2010, in Barcelona. Recognition of the value of FOSS contributions, alongside commercial platforms. The IT world is not black/white; most large deployments around the world are mixed FOSS and commercial. Here Esri presents several modest contributions to further the possibility of collaboration with FOSS developers: to build value-added extensions on a widely used platform.
ArcGIS Online subscriptions allow organizations to leverage a secured, cloud-based geospatial content management system for their web and mobile mapping apps.
Esri News for Petroleum Winter 2013/2014 newsletterEsri
Hart Energy launched its extensive North American energy infrastructure dataset on Esri's ArcGIS Online platform. This allows Hart Energy customers to access high-quality GIS data on demand from anywhere using GIS tools. Hart Energy is the first energy data provider to use Esri's cloud service, strengthening its lead in the industry. Users can add Hart Energy's pipeline and attribute data to maps on ArcGIS Online along with other data layers. The dataset is continually updated by Hart Energy and provides comprehensive energy infrastructure mapping for analysis.
This document provides a matrix to help determine the appropriate edition and capacity level of ArcGIS for Server. It compares editions of ArcGIS for Server (Basic, Standard, Advanced) based on functionality and capacity levels (Workgroup, Enterprise). Functionality is grouped into categories like web services, geoprocessing, and extensions. The matrix shows which capabilities are included in each edition. It also outlines the capacity limits of the Workgroup and Enterprise levels to help selection.
GeoNode is an open source platform for developing spatial data infrastructures (SDIs) that aims to make uploading, sharing, and working with geospatial data as easy as blogging. It provides tools for publishing, styling, and mapping data; generating metadata; allowing federated searches across datasets; and including social features to encourage participation and ensure data quality. The software is being developed through a partnership between OpenGeo and organizations like the World Bank to support disaster risk reduction efforts and build an open geospatial web.
The development of a Geographic Information System for traffic route planni...Matthew Pulis
This was my MSc. Informatics thesis. The project started with a Literature Review studying the historic advancements of Location Based Services and Geographic Information Systems, in particular Open Source GIS. Case Studies were reviewed so as to gain knowledge from past experiences. The methodology used for this project followed the DSDM methodology and requirements were drawn following the MoSCoW priorities. A full working version of the project which is presented in
a Web Interface can be accessed online.
Towards Geo-Enablement - Location Matters Seminar 29 Mar 2012GeoEnable Limited
Presentation Title: ‘Towards Geo-Enablement’
• As changes in ICT and GIS happen so fast, what opportunities does this bring for further Business Process integration? Is there a risk we are missing opportunities?
• I will discuss the steps towards a ‘Geo-Enables’ enterprise and how it is critical that business drivers lead any ‘IM strategy’ and GIS strategy. An ICT strategy should follow these.
• Is the IT industry in need of business process management (BPM) integration, rather that business process automation (BPA) (workflow) led initiatives?
A presentation of the underlying motivations and institutional context behind GeoNode, some of its major design decisions, and unresolved challenges for its sustainability.
I gave this talk at UC Berkeley School of Information's research seminar on Information and Communication Technology for Development (ICTD).
Much of the material comes from an older presentation I wrote with Rolando Peñate.
The State of Big Data for Geo - ESRI Big Data Meetupseagor
1. Big data in geospatial applications is characterized by volume, velocity, and variety due to the rise of GPS-enabled devices and social media.
2. Technologies like MrGeo, Esper, and Neo4j Spatial help scale geoprocessing and spatial analysis to large datasets using techniques like MapReduce, complex event processing, and graph databases.
3. Case studies on the NYC Marathon and Colorado wildfires demonstrate how big data can enhance geoanalysis to provide insights when connecting large datasets to GIS.
The document summarizes the Geohazards TEP (GEP) service, which provides on-demand and systematic processing of Earth observation (EO) data to support geohazards analysis. The GEP offers access to Copernicus and other satellite data, massive cloud computing power, and processing services via a web portal, APIs, and command line tools. It processes data for applications like earthquake response, landslide mapping, and regularly monitors the Alps with Sentinel-1 data. Documentation and tutorials are available on the GEP website.
The document provides an overview of the Geo Analytics Canada demonstration platform. It describes how the platform addresses the challenge of analyzing large satellite datasets using traditional desktop tools by bringing algorithms to scalable cloud data and computing resources. Key features highlighted include on-demand compute and storage, tools for querying, discovering and analyzing satellite data, pre-processing pipelines, and personal analytic environments for interactive exploration and scaling of analyses. The platform aims to enable big data analytics of satellite datasets through open-source technologies and partnerships between IT and Earth observation experts.
Spatio-temporal Data Handling With GeoServer for MetOc And Remote SensingGeoSolutions
This presentation will provide detailed information on how to handle SpatioTemporal metadata in GeoServer for serving with OGC Services, with a particular focus on WMS and WCS.
Esri Location Analytics: Four Implementation ModelsEsri
This document describes four models for implementing Esri Location Analytics:
1. A cloud model using only ArcGIS Online
2. A hybrid cloud/on-premises model using ArcGIS Online and ArcGIS for Server
3. A hybrid model using ArcGIS Online and Portal for ArcGIS on-premises
4. An on-premises model using only Portal for ArcGIS
It discusses the products involved, security considerations for each model, and when sensitive data may be transmitted outside an organization's firewall.
This document provides a functionality matrix to help select the appropriate edition and level of ArcGIS for Server. It describes the core functionality included in each edition such as support for spatially enabled databases, web services, and geoprocessing. It also provides examples of how different editions may be used in scenarios like supporting a large city government with advanced analysis, extensive data, and internal and public applications. The Enterprise Advanced edition is recommended for large organizations with many users and petabytes of imagery requiring advanced analysis.
The document provides a roadmap for the ArcGIS platform in 2014. It outlines Esri's commitment to continued development of the platform with regular updates. The roadmap details planned releases for apps like ArcGIS Pro, Collector, and ArcGIS Online. It discusses drivers like user needs, technology advances, and enterprise readiness. Long term themes are also outlined around 3D capabilities, usability improvements, performance, and offline functionality. The vision is to develop a comprehensive online and offline GIS platform to help businesses solve problems using geographic approaches.
Esri is a leading GIS software and services company founded in 1969. It develops the ArcGIS software suite used by about 70% of GIS professionals. ArcGIS includes desktop, server, and mobile GIS products. The desktop component allows authoring, analysis, and mapping of geospatial data. Server products enable deployment of GIS functionality across organizations. Mobile products integrate GIS with GPS and location services for field data collection.
This document provides a matrix that outlines the functionality and capabilities available with different editions and license levels of ArcGIS for Server 10.2.x. It compares editions based on supported web services, applications, editing tools, geoprocessing, and other functions. It also outlines the capacity limits of the Workgroup and Enterprise license levels in terms of connections, storage, and cores. Use case scenarios are presented to help determine the appropriate edition and level.
Portal for ArcGIS is a content management system that provides a framework to easily manage and secure geographic assets within an organization. It extends the reach of GIS to everyone in an organization, enabling better decision making. Portal for ArcGIS can be used to implement web GIS on-premises or in the cloud for organizations with specialized security requirements. It will be included with ArcGIS for Server Standard and Advanced starting at version 10.3.
Esri presentation at FOSS4G conference, 08 Sept 2010, in Barcelona. Recognition of the value of FOSS contributions, alongside commercial platforms. The IT world is not black/white; most large deployments around the world are mixed FOSS and commercial. Here Esri presents several modest contributions to further the possibility of collaboration with FOSS developers: to build value-added extensions on a widely used platform.
ArcGIS Online subscriptions allow organizations to leverage a secured, cloud-based geospatial content management system for their web and mobile mapping apps.
Esri News for Petroleum Winter 2013/2014 newsletterEsri
Hart Energy launched its extensive North American energy infrastructure dataset on Esri's ArcGIS Online platform. This allows Hart Energy customers to access high-quality GIS data on demand from anywhere using GIS tools. Hart Energy is the first energy data provider to use Esri's cloud service, strengthening its lead in the industry. Users can add Hart Energy's pipeline and attribute data to maps on ArcGIS Online along with other data layers. The dataset is continually updated by Hart Energy and provides comprehensive energy infrastructure mapping for analysis.
This document provides a matrix to help determine the appropriate edition and capacity level of ArcGIS for Server. It compares editions of ArcGIS for Server (Basic, Standard, Advanced) based on functionality and capacity levels (Workgroup, Enterprise). Functionality is grouped into categories like web services, geoprocessing, and extensions. The matrix shows which capabilities are included in each edition. It also outlines the capacity limits of the Workgroup and Enterprise levels to help selection.
ArcGIS for Server allows sharing of GIS resources as web services across organizations. It includes three editions - Basic, Standard, and Advanced - that provide different levels of functionality. It also includes two capacity levels - Workgroup and Enterprise - that determine the maximum storage, connections, and deployment options. The document provides a matrix comparing the editions and levels to help select the appropriate version based on required functionality and capacity needs.
ArcGIS is a geographic information system (GIS) platform that allows users to gather, organize, analyze and share spatial data. It can be used on mobile devices, desktops and the web to improve planning, operations and decision-making. ArcGIS includes basemaps, demographic and imagery data. Developers can build custom applications using ArcGIS APIs and SDKs. Esri also offers maintenance programs, training, books and professional services to support ArcGIS users.
1. ArcCatalog allows you to organize and manage spatial data, create and manage geodatabases, and document data with metadata.
2. ArcMap is used for mapping, editing, and map-based analysis tasks. You can view, query, and symbolize data in ArcMap.
3. ArcToolbox provides geoprocessing tools for data conversion and analysis tasks.
The document summarizes a presentation given by Steven Myhill-Jones and Victoria McDonald of Geocortex at the Esri Norsk Conference on February 4th, 2015. The presentation provided a technology update on Geocortex Essentials and the company's roadmap, including a focus on building applications for the ArcGIS platform, enhanced support for disconnected mobile, and the development of a new product called Geocortex Insight.
ArcGIS provides tools and capabilities to enable naval units to operate self-sufficiently in remote locations with limited bandwidth. It allows warfighters to access and analyze geospatial data through familiar applications like dashboards and Microsoft Office. The ArcGIS platform delivers low-cost and interoperable solutions to support maritime operations and command and control decisions. It helps transform raw data into actionable intelligence through geoanalytics and visualization.
ArcGIS Server provides software components for building server-based GIS applications. It allows for centrally managed applications, exposing advanced GIS functionality to multiple users through server-to-server and embedded applications. ArcGIS Server includes ArcObjects libraries, a developer kit, and application frameworks for Java/.NET. It can be deployed on single or multiple computers with GIS server, web application server, and client components.
We NSG India, a ESRI Gold Partner, have been working with many companies on a collaborative mode and delivering solutions on ESRI platform configured to their businesses.
NSG has global presence in India, UAE, NewZealand, United states and we offer services in the following ESRI and Microsoft technology areas: NSGI has a special focus on application development, geo-database implementation and web deployment. We develop applications across the entire ESRI suite of products – from ArcPad to ArcGIS Server and ArcGIS Online,
ArcFM Desktop and ArcFM Server based application customisation using.NET, Java using SQL Server and Oracle spatial databases.
We are ESRI-Centric working on Strategic GIS Consulting, Enterprise GIS Implementations catering to specific vertical markets and domains like Ports, Building Inspection Management and Citizen centric incident and complaints management system for Local Government (Municipal Councils, Counties), Climate Change, Marine, Utilities and Spatial Data Infrastructure.
We have expertise in small to medium to large scale ESRI and Microsoft Based projects. We specialize in offshore-based application development & have proven track record in providing turnkey solution to GIS Companies and Governments. We provide offshore technical and development support on Geocortex Spatial application infrastructure with future proof technologies with minimum custom code requirements. Our offshore development model has a proven cost saving and enable the organization to:
1. Create GIS applications that meet the demand for maps and applications for administrators and project stakeholders;
2. Provide end-users with simple and repeatable processes for accessing information, inside applications tailored to their needs.
3. Reduce the cost of development, support, maintaining/administering applications.
4. Share geospatial information with internal or external stakeholders on an array of desktop/mobile devices.
I have also attached a brief presentation on our corporate background and service capabilities. If you need any additional information or have a query, please do feel free to contact us.
INIA- CISA: Análisis de las amenazas en la fauna silvestreEsri
El documento describe cómo un centro de investigación utilizó herramientas SIG para analizar datos sobre animales silvestres ingresados en un centro de recuperación con el fin de identificar especies, áreas y períodos con mayor riesgo de amenazas y sus relaciones con factores humanos y ambientales. Esto permitió enfocar medidas correctivas de manera más eficiente para conservar la fauna silvestre y prevenir amenazas. En particular, se analizó el riesgo de colisión de rapaces nocturnas con vehículos, identificando las zonas de mayor
Aena Aeropuerto Adolfo Suárez-Barajas crea potentes aplicaciones para sus cli...Esri
Aena Aeropuerto Adolfo Suárez-Barajas creó aplicaciones personalizadas para sus clientes internos utilizando ArcGIS, aprovechando su experiencia previa. Estas nuevas aplicaciones son fáciles de usar y gestionar, y permiten responder más rápidamente a las necesidades de los usuarios. Ahora los usuarios internos y externos tienen acceso a herramientas de mapeo actualizadas que mejoran la eficiencia de las operaciones en el aeropuerto.
El Ayuntamiento de Móstoles implementó una plataforma Smart City utilizando ArcGIS para mejorar la eficiencia, permitir la participación ciudadana y gestionar los activos municipales en tiempo real. La solución integró toda la información municipal en una sola plataforma e incorporó sensores para supervisar servicios como el alumbrado público. Además, una aplicación permite a los ciudadanos reportar incidencias y el ayuntamiento responder más rápido, ahorrando costos.
ArcGIS Online es una plataforma en la nube que permite crear y compartir mapas, aplicaciones y datos geográficos. Los usuarios pueden publicar y almacenar servicios web en la nube, crear mapas interactivos a partir de datos como hojas de cálculo, y colaborar y compartir contenido con otros mediante grupos privados o públicos.
GIS-Based Web Services Provide Rapid Analysis and Dissemination of Maritime DataEsri
The Royal Australian Navy's Hydrography, Meteorology and Oceanography Branch is responsible for collecting, managing, analyzing, and disseminating meteorological and oceanographic data to enable defense users to properly consider environmental impacts. This data comes in large volumes and various formats. Using ArcGIS for Server and custom scripts, the branch can serve this data as OGC web services, including nautical charts and bathymetry as WMS and netCDF weather data as WMS and WCS. This allows for rapid analysis and dissemination of data to gain knowledge of the battlespace and environment.
An Effective Tool for Drinking Water ProtectionEsri
The document discusses ICWater, a tool developed by Leidos to predict the spread and impact of hazardous material releases in river systems. ICWater forecasts (1) where contaminants will travel, (2) if they will reach drinking water intakes, (3) when they will arrive, and (4) if concentrations will threaten human health. It interfaces with USGS stream gauges and databases on infrastructure to provide timely information to decision makers. ICWater successfully modeled the 2014 Elk River chemical spill in West Virginia to advise authorities and protect drinking water.
GeoCollector for ArcPad is a mobile GIS solution that combines Esri's ArcPad software with Trimble GPS hardware to improve the accuracy of collected location data. It provides field workers with a rugged tablet equipped with an integrated GPS receiver and ArcPad software for mapping and data collection. This solution allows organizations to make timely decisions based on reliable location information gathered by field staff.
GeoCollector for ArcGIS for Windows Mobile is a mobile GIS solution that combines Esri's GIS software with Trimble's GPS hardware to improve the accuracy of collected data. It allows field workers to visualize maps, collect geo-located data, and integrate accurate location information into organizational decision making. The solution includes a Trimble Geo 7X handheld device with integrated GPS receiver and ArcGIS for Windows Mobile software for mobile field mapping and data collection with minimal training.
Data Appliance for ArcGIS is an enterprise solution that provides high performance and secure access to terabytes of preloaded geospatial data stored on a network-attached storage device. It includes global basemaps that allow users to immediately build mapping applications. Organizations can publish maps and build apps to share securely behind their firewall. A server bundle is also available for organizations that do not have ArcGIS for Server.
This document describes new premium imagery services from Esri and BlackBridge that provide continuously updated 5-band, 5-meter imagery for use in ArcGIS. The services include a Living Image Basemap service sourced from BlackBridge's RapidEye constellation, regional Mosaics services with virtually cloud-free hand-picked images, and a Living Image Multispectral service providing temporal multispectral imagery through online services.
GeoPlanner for ArcGIS is a web-based app that helps users create, assess, and share planning designs using the geographic knowledge and tools of the ArcGIS platform. It allows users to bring in their own planning data, sketch design plans, compare alternative designs using dashboards, and enable collaboration throughout the planning process. GeoPlanner incorporates each aspect of a geodesign workflow into a single app so that designers, evaluators, and the public can assess the impacts of various scenarios. The app runs on both desktop and mobile devices with touch-enabled tools, supporting planning and design access from anywhere.
This document summarizes an Esri and AccuWeather partnership that provides weather data and warnings through ArcGIS Online. It allows key personnel to access real-time weather reports and warnings to communicate updates. The partnership protects people, property, and assets from severe weather threats with AccuWeather warnings developed by meteorologists. ArcGIS tools can analyze weather data to understand weather impacts and help determine emergency procedures. AccuWeather aims to provide the earliest warnings to enact procedures and save lives.
Esri and Airbus Defense & Space provide imagery products and services including thematic imagery layers with region-specific basemaps and fresh 50cm resolution orthorectified imagery. Their site monitoring service analyzes changes at targeted sites on a daily, weekly or monthly basis and delivers a detailed change detection report as an ArcGIS image service and Story Map app. Their satellite tasking and archive app allows users to task Airbus Defense & Space satellites to acquire new imagery over areas of interest or order images from the archive, with images delivered as an ArcGIS image service.
This document provides a summary of various US demographic and business data sources available from Esri, including descriptions, frequencies of updates, and data vintages. It describes datasets covering topics such as population, households, income, businesses, retail sales, crime, banking and demographics. The data comes from sources including the US Census Bureau, Bureau of Labor Statistics, Dun & Bradstreet and other public and private organizations. Most datasets are updated annually, with some updated decennially, quarterly or semiannually.
ArcGIS for Server on Microsoft Azure JumpstartEsri
This document discusses ArcGIS for Server on Microsoft Azure and the ArcGIS for Server on Microsoft Azure Jumpstart offering from Esri. It provides an overview of deploying ArcGIS for Server in the Microsoft Azure cloud, including advantages such as lower hardware costs, automatic scaling, and leveraging the Azure management portal. It then describes the Jumpstart as providing on-site support and training to help customers get started with ArcGIS Server on Azure, including orientation, VM setup, data loading, service creation, and custom VM configuration. It notes that Esri Professional Services can determine if the Jumpstart is a good fit or provide custom services if additional needs exist. The Jumpstart can be purchased through Esri Professional Services or a customer's
Esri Geoportal Server is an open source product that enables discovery and use of geospatial resources like datasets, rasters, and web services. It helps organizations manage and publish metadata for their geospatial resources so users can discover and connect to those resources. Key features include supporting international standards, cataloging GIS resources regardless of location or type, and facilitating discovery through a customizable geoportal web interface.
GeoEvent Extension for Server allows users to connect streaming sensor data to GIS applications in real time to monitor assets and alert personnel of specified conditions. It can process and filter multiple data streams using user-defined rules, and includes connectors for common sensors. Key benefits include incorporating real-time data into existing GIS systems to show updated information and detect important spatial or attribute events. The software can be integrated with various monitoring applications and deployed on-premises or in the cloud.
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This document provides shortcuts for navigating maps, working with tables, editing features, and using representations in ArcGIS Desktop. Some key shortcuts include using the mouse wheel to zoom and pan maps, Ctrl+Tab to cycle through data frames, Ctrl+Enter to work through table records, and Ctrl+Z to undo edits. Common editing shortcuts are Ctrl+P to create parallel segments and Ctrl+E for perpendicular segments.
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Trusted Execution Environment for Decentralized Process MiningLucaBarbaro3
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A Comprehensive Guide to DeFi Development Services in 2024Intelisync
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3. J9462
Esri White Paper i
Esri-Supported Open Geospatial
Consortium and ISO/TC 211
Standards
An Esri White Paper
Contents Page
Supported OGC Specifications............................................................. 2
OGC Interoperability ...................................................................... 2
Supported ISO/TC 211 International Standards ................................... 5
Extensibility and Customization........................................................... 7
Domain and National Standards ........................................................... 8
For More Information ........................................................................... 8
Appendix
Appendix A: OGC's Exhibit A—Compliant Product Listing for
Esri..................................................................................................... 9
4. J9462
Esri White Paper
Esri-Supported Open Geospatial
Consortium and ISO/TC 211
Standards
Esri's ArcGIS® platform is interoperable with other geographic
information system (GIS) technologies and integrates seamlessly with
nongeospatial IT solutions.
GIS interoperability is enabled by a number of factors including support of openly
developed and adopted IT and GIS standards. This paper focuses on Esri's support for
geospatial standards from ISO Technical Committee 211 (ISO/TC 211) and the Open
Geospatial Consortium (OGC).
■ Interoperability Enablers
ArcGIS supports the following GIS interoperability enablers:
● Openly published data formats and data models
● Openly published application programming interfaces (APIs)
● Direct read/write of a wide variety of data formats
● Extraction, transformation, and loading (ETL) technology
● Hardware platform choices
● Database choices
● Operating environment choices
● Support for multiple coordinate, address, and temporal reference systems
● Support for thousands of datums and projections
● Adoption and use of mainstream IT, web, and cloud standards, patterns, and best
practices
■ Role of Interoperability
The goal of GIS interoperability is to support users in finding, utilizing, and deploying
data from various geographic information systems.
In addition to interoperability, key success factors that enable GIS users to successfully
work in heterogeneous environment include having a GIS infrastructure that fulfills the
following requirements:
● Secure
● Reliable
● Scalable
● Extensible
● Usable in mobile, desktop, server, and cloud
● Easy to use
5. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
March 2013 2
This document provides a list of all OGC specifications and ISO/TC 211 geographic
information standards supported by Esri. This list is current as of the date of this
document. For the latest information, visit esri.com/standards.
Supported OGC
Specifications
OGC Interoperability
Specification Provider Consumer
Web Map Service
(WMS) 1.1.1
ArcGIS for Server
ArcIMS®
ArcGIS .NET and Java™
ADF™
ArcGIS Explorer
ArcGIS for Desktop
ArcGIS for INSPIRE
ArcGISSM
Online
ArcGlobe™
Esri® Geoportal Server
Web Map
Service 1.3
ArcGIS for Server
ArcGIS Online
ArcIMS
ArcGIS .NET and Java
ADF
ArcGIS Data
Interoperability
ArcGIS for Desktop
ArcGIS for INSPIRE
ArcGIS Online
Esri Geoportal Server
Styled Layer Descriptor
(SLD) 1.0
ArcGIS for Server
ArcIMS
ArcGIS for Desktop
ArcGIS for INSPIRE
Esri Geoportal Server
Web Feature Service
(WFS) 1.0
ArcGIS for Server
ArcIMS
ArcGIS Data
Interoperability
ArcGIS for Desktop
ArcGIS for INSPIRE
Esri Geoportal Server
6. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
Esri White Paper 3
Specification Provider Consumer
Web Feature
Service 1.1
ArcGIS for Server
ArcIMS
ArcGIS Data
Interoperability
ArcGIS for Desktop
ArcGIS for INSPIRE
Esri Geoportal Server
Web Feature
Service 2.0
ArcGIS for INSPIRE ArcGIS for INSPIRE
Web Feature
Service 1.1
(Transactions)
ArcGIS for Server OpenLayers Based Client
Tool
Filter Encoding 1.0 ArcIMS ArcGIS Data
Interoperability
ArcGIS for Desktop
ArcGIS for INSPIRE
Esri Geoportal Server
Filter Encoding 1.1 ArcGIS for Server ArcGIS Data
Interoperability
ArcGIS for Desktop
Esri Geoportal Server
Web Coverage Service
(WCS) 1.0
ArcGIS for Server WCS
capability available
with/without ArcGIS Image
Extension for Server
ArcGIS Data
Interoperability
ArcGIS for Desktop
Esri Geoportal Server
Web Coverage
Service 1.1
ArcGIS for Server WCS
capability available
with/without ArcGIS Image
Extension for Server
ArcGIS for Desktop
Esri Geoportal Server
Web Coverage
Service 1.1.1
ArcGIS for INSPIRE
ArcGIS for Server
ArcGIS Data
Interoperability
ArcGIS for Desktop
ArcGIS for INSPIRE
Esri Geoportal Server
Catalog Services 1.0—
Z39.50
ArcIMS
Esri Geoportal Server
Esri Geoportal Server
Catalog Service for the
Web (CSW) 2.0.1
ArcIMS
Esri Geoportal Server
CSW Client for ArcGIS
Esri Geoportal Server
7. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
March 2013 4
Specification Provider Consumer
CSW 2.0.2 ArcIMS
Esri Geoportal Server
CSW Client for ArcGIS
Esri Geoportal Server
Simple Features
(SF) 1.1
ArcGIS
ArcSDE®
ArcGIS
Geography Markup
Language (GML) 2.x
ArcIMS WFS Connector ArcGIS Data
Interoperability
Geography Markup
Language 3.1.x
ArcGIS Data
Interoperability
ArcGIS Data
Interoperability
Esri Geoportal Server
Simple Features GML
(SF-GML)
ArcGIS Data
Interoperability
ArcGIS for Desktop
ArcGIS for Server
ArcGIS Data
Interoperability
ArcGIS for Desktop
ArcGIS for INSPIRE
Esri Geoportal Server
KML Version 2.1 ArcGIS for Desktop
ArcGIS for Server
ArcGIS Data
Interoperability
ArcGIS Explorer
ArcGIS for Desktop
ArcGIS Online
ArcGlobe
OGC KML Version 2.2 ArcGIS for Desktop
ArcGIS for INSPIRE
ArcGIS for Server
ArcGIS Online
Esri Geoportal Server
ArcGIS Data
Interoperability
ArcGIS Explorer
ArcGIS for Desktop
ArcGIS for INSPIRE
ArcGIS Online
ArcGlobe
Esri Geoportal Server
Web Map Tile Service
(WMTS) 1.0
ArcGIS for Server ArcGIS for Desktop
ArcGIS Web Mapping
APIs
Web Processing Service
(WPS) 1.0
ArcGIS for Server
8. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
Esri White Paper 5
Specification Provider Consumer
Sensor Observation Service
(SOS) 2.0
SOS for ArcGIS for Server ArcGIS for Desktop SOS
Extension
SensorML 2.0 SOS for ArcGIS for Server
Observations and
Measurement (O&M) 2.0
SOS for ArcGIS for Server
All products mentioned in the table above refer to the most recent product versions where
the standard/specification is supported. Earlier versions of the products have also
supported many of these specifications.
For up-to-date information on OGC-compliant Esri products, visit the OGC website at
www.opengeospatial.org/resource/products/#ESRI.
Supported
ISO/TC 211
International
Standards
ISO/TC 211 Geographic
Information Standards
Esri's Implementation
ISO 19106:2004—Profiles Esri has used the concepts in this standard to
produce user-community profiles of metadata and
the Simple Features GML.
ISO 19107:2003—Spatial
Schema
Esri has used the concepts in this standard in the
development of ISO 19125 and ISO 19115; basic
concepts defined in this standard are implemented
in ArcGIS and in the design of geodatabases. This
is the foundation for Simple Features GML.
ISO 19108:2003—Temporal
Schema
Esri has implemented the concepts in this standard
in metadata and handling time-aware data in
ArcGIS.
ISO 19109:2005—Rules for
Application Schema
Using the concepts described in this standard, Esri
defines application schemas using a conceptual
schema language (e.g., UML). The ArcGIS Data
Interoperability extension applies the concepts of
mapping from one application schema to another
for data transfer as defined in the standard. Esri also
uses the same concepts as the general feature model
(GFM) as defined in the standard.
9. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
March 2013 6
ISO/TC 211 Geographic
Information Standards
Esri's Implementation
ISO 19110:2005—Methodology
for Feature Cataloging
Esri participates in several standards organizations
to develop an encoding for feature catalogs based
on the concepts in this standard. Encoded catalogs
can be used as additional metadata.
ISO 19111:2003—Spatial
Referencing by Coordinates
Esri implements the basic concepts defined in this
standard through GML and in coordinate reference
system libraries in ArcGIS.
ISO 19112:2003—Spatial
Referencing by Geographic
Identifiers
Esri uses the concepts defined in this standard in the
implementation of gazetteers as well as wherever
spatial referencing by geographic identifiers is used.
ISO 19113:2002—Quality
Principles;
ISO 19114:2003—Quality
Evaluation Procedures
Esri implements the concepts in these standards in
its mapping and charting solution products and
database production services.
ISO 19115:2003—Metadata Esri implements this standard with Esri Geoportal
Server and in ArcGIS for Desktop. Esri products
implement several major profiles of this standard:
North American Profile, Infrastructure for Spatial
Information in Europe (INSPIRE), and the
complete ISO 19115. Esri played a lead role in
supporting the development of this standard and is
leading the new revision project.
ISO 19118:2005—Encoding Esri used the concepts defined in this standard
while leading the development of SF-GML and ISO
19139.
ISO 19119:2005—Services Esri is using the concepts defined in this standard in
its implementation of the OGC W*S specifications.
ISO 19123:2005—Schema for
Coverage Geometry
Esri uses the concepts defined in this standard for
exchanging and interfacing with several raster,
matrix, and TIN structures.
ISO 19125:2004—Simple Feature
Access—Parts 1–2
Esri implements this standard with ArcSDE
technology and ArcGIS for Desktop. Esri played a
lead role in supporting the development of this
standard.
10. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
Esri White Paper 7
ISO/TC 211 Geographic
Information Standards
Esri's Implementation
ISO 19128:2005—Web Map
Server Interface
Esri supports this standard in both its server and
client implementations. From an implementation
perspective, this is equivalent to the OGC WMS 1.3
specification.
ISO 19136:2007—Geography
Markup Language
Esri implements this standard in ArcGIS for
INSPIRE and the ArcGIS Data Interoperability
extension. This is equivalent to OGC GML 3.2.1.
ISO 19139:2007—Metadata:
XML Schema Implementation
Esri implements this standard with Esri Geoportal
Server, and ArcGIS for Desktop supports the
importing, exporting, and validation of metadata
according to this standard.
In addition, Esri is participating in the review, development, and/or test implementation
of many of the Draft ISO Standards (DIS) and Final Draft ISO Standards (FDIS) being
finalized in ISO/TC 211, including these:
■ ISO 19117 Revision—Portrayal
■ ISO 19115-1—Metadata Fundamentals (revision)
■ ISO 19115-3—Metadata XML Schema Encoding of ISO 19115-1
■ ISO 19146—Cross-Domain Vocabularies
■ ISO 19157—Data Quality
■ ISO 19158—Quality Assurance of Data Supply
■ ISO 19160—Addressing
Extensibility and
Customization
Many specifications and standards are written to provide support for a wide variety of
domains and communities. Various interest groups, therefore, tend to use these
specifications as overall guidance to define custom profiles and application schemas that
are relevant to their domain.
Similarly, some specifications provide an underlying framework that is information
model agnostic; the catalog specification (OGC CSW) can be implemented to support
multiple information models—ISO, ebRIM, and so forth.
Esri's family of products not only supports many of these profiles, application schemas,
and information models out of the box but also provides convenient tools for extending
and customizing the existing functionality to accommodate and work with these newly
emerging schemas and models.
11. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
March 2013 8
For example:
■ OGC Catalog Service for the Web and Metadata
● ArcGIS and Esri Geoportal Server CSW implementations support both the
ISO/TC 211 and ebRIM information models.
● The CSW provider (part of the metadata server) can be extended to support
additional queryables, returnables, and profiles.
● Esri's CSW client can be extended by users to support other CSW interfaces as
they become available.
● ArcGIS metadata editors may be extended to support specific national or
domain profiles (North American Profile, ANZLIC, etc.).
Domain and
National Standards
Many geospatial standards for specific communities and domains utilize OGC and
ISO/TC 211 standards. This includes standards-oriented organizations such as the Federal
Geographic Data Committee (FGDC), Geospatial Intelligence Standards Working Group
(GWG), and Defence Geographic Information Working Group (DGIWG). Additionally,
many GIS national standards bodies—the US InterNational Committee for Information
Technology Standards (INCITS), Standards Canada, Standards China, European Union's
INSPIRE Directives, and so forth—include OGC and ISO/TC 211 standards in their lists
of national geospatial standards.
By supporting OGC and ISO/TC 211 standards directly and by supporting customization
tools for building domain or national profiles of these standards, Esri supports these
standards development organizations' (SDOs) standards as well.
For More
Information
For the most up-to-date list of OGC and ISO/TC 211 standards supported by Esri, visit
esri.com/standards.
12. J9462
Esri White Paper 9
Appendix A: OGC's Exhibit A—
Compliant Product Listing for
Esri
Item Product Specification
Certification Date
(TSR Approved)
1. Spatial Database
Engine™ or
ArcSDE 3.02 for DB2
Datajoiner
OpenGIS Simple Features
Specification for SQL,
Version 1.0, Types and Functions
Alternative—SFS(TF) 1.1
Dec. 23, 1999
2. Spatial Database Engine
or ArcSDE 3.02 for
Informix
Open GIS Simple Features
Specification for SQL,
Version 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Dec. 23, 1999
3. Spatial Database Engine
3.02 for Oracle
OpenGIS Simple Features
Specification for SQL,
Version 1.1, Normalized
Geometry Alternative—
SFS(NG) 1.1
Dec. 23, 1999
4. ArcGIS 8.1 OpenGIS Simple Features
Specification for OLE/COM,
Version 1.1, SFO 1.1 Alternative
Jun. 21, 2001
5. ArcSDE 8.1 for DB2 OpenGIS Simple Features
Specification for SQL,
Version 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Jun. 21, 2001
6. ArcSDE 8.1 for
Informix
OpenGIS Simple Features
Specification for SQL,
Version 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Jun. 21, 2001
7. ArcSDE 9.0 for DB2 OpenGIS Simple Features
Specification for SQL,
Version 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Aug. 22, 2005
8. ArcSDE 9.0 for
Informix
OpenGIS Simple Features
Specification for SQL,
Version 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Aug. 22, 2005
9. ArcSDE 9.0 for Oracle OpenGIS Simple Features
Specification for SQL,
Version 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Aug. 22, 2005
10. ArcSDE 9.0 for SQL
Server
Open GIS Simple Features
Specification for SQL,
Version 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Aug. 22, 2005
13. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
March 2013 10
Item Product Specification
Certification Date
(TSR Approved)
11. ArcIMS 9.0 WMS OpenGIS Web Map Service
Implementation Specification,
Version 1.1.1—WMS 1.1.1
Aug. 25, 2005
12. ArcSDE 9.1 for DB2 OpenGIS Simple Features
Specification for SQL,
Version 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Aug. 22, 2005
13. ArcSDE 9.1 for
Informix
OpenGIS Simple Features
Specification for SQL,
Version 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Aug. 22, 2005
14. ArcSDE 9.1 for Oracle OpenGIS Simple Features
Specification for SQL,
Version 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Aug. 22, 2005
15. ArcSDE 9.1 for SQL
Server
OpenGIS Simple Features
Specification for SQL,
Version 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Aug. 22, 2005
16. ArcIMS 9.1 WMS OpenGIS Web Map Service
Implementation Specification,
Version 1.1.1—WMS 1.1.1
Aug. 25, 2005
17. ArcIMS 9.1 SP1 OpenGIS Web Feature Service
Implementation Specification,
Version 1.0—WFS 1.0
Nov. 1, 2005
18. ArcIMS 9.2 OpenGIS Web Feature Service
Implementation Specification,
Version 1.0—WFS 1.0
Oct. 24, 2006
19. ArcIMS 9.2 OpenGIS Web Map Service
Implementation Specification,
Version 1.1.1—WMS 1.1.1
Oct. 24, 2006
20. ArcGIS Server 9.2
Enterprise: DB2—
Spatial Types and
Functions
OpenGIS Simple Features
Specification for SQL,
Version 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Oct. 24, 2006
21. ArcGIS Server 9.2
Enterprise: Informix—
Spatial Types and
Functions
OpenGIS Simple Features
Specification for SQL,
Version 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Oct. 24, 2006
22. ArcGIS Server 9.2
Enterprise: Oracle—
Binary Schema
OpenGIS Simple Features
Specification for SQL,
Version 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Oct. 24, 2006
23. ArcGIS Server 9.2
Enterprise: Oracle—
Spatial Types and
Functions
OpenGIS Simple Features
Specification for SQL,
Version 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Oct. 24, 2006
14. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
Esri White Paper 11
Item Product Specification
Certification Date
(TSR Approved)
24. ArcGIS Server 9.2
Enterprise: SQL—
Binary Schema
OpenGIS Simple Features
Specification for SQL,
Version 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Oct. 24, 2006
25. ArcGIS Server 9.2
Workgroup: SQL
Server Express—Binary
Schema
OpenGIS Simple Features
Specification for SQL,
Version 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Oct. 24, 2006
26. ArcGIS Server 9.2 OpenGIS Web Map Service
Implementation Specification,
Version 1.1.1—WMS 1.1.1
Oct. 24, 2006
27. ArcIMS 9.3 OpenGIS Web Map Service
Implementation Specification,
Version 1.1.1—WMS 1.1.1
Oct. 9, 2008
28. ArcIMS 9.3 OpenGIS Web Map Service
Implementation Specification,
Version 1.3—WMS 1.3
Oct. 9, 2008
29. ArcIMS 9.3 OpenGIS Web Feature Service
Implementation Specification,
Version 1.0—WFS 1.0
Oct. 9, 2008
30. ArcGIS Server 9.3 for
DB2
Open GIS Simple Features
Specification for SQL,
Revision 1.1, Types and
Functions Alternative—
SFS(TF) 1.1
Oct. 9, 2008
31. ArcSDE 9.3 for SQL
Server
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Oct. 9, 2008
32. ArcSDE 9.3 for
Postgres
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Types and
Functions Alternative—
SFS(TF) 1.1
Oct. 9, 2008
33. ArcSDE 9.3 for Oracle OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Types and
Functions Alternative—
SFS(TF) 1.1
Oct. 9, 2008
34. ArcSDE 9.3 for Oracle OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Oct. 9, 2008
35. ArcSDE 9.3 for
Informix
Open GIS Simple Features
Specification for SQL,
Revision 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Oct. 9, 2008
15. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
March 2013 12
Item Product Specification
Certification Date
(TSR Approved)
36. ArcGIS Server 9.3 OpenGIS Web Map Service
Interface Standard, Version 1.1.1—
WMS 1.1.1
Oct. 9, 2008
37. ArcGIS Server 9.3 OpenGIS Web Catalog Service
Interface Standard, Version 1.0—
WCS 1.0
Oct. 9, 2008
38. ArcGIS Server 9.3 OpenGIS Web Map Service
Interface Standard, Version 1.3.0—
WMS 1.3.0
Oct. 9, 2008
39. ArcGIS Server 9.3 SP1 OpenGIS Web Feature Service
Interface Standard, Version 1.0—
WFS 1.0
Jun. 22, 2009
40. ArcGIS Server 9.3.1 OpenGIS Web Feature Service
Interface Standard, Version 1.0—
WFS 1.0
Jul. 1, 2009
41. ArcGIS Server 9.3.1
Geoportal Extension
OpenGIS Catalog Service—Web,
Version 2.0.2—CSW 2.0.2
Jul. 1, 2009
42. ArcGIS Server 9.3.1 OpenGIS Web Map Service
Interface Standard, Version 1.3—
WMS 1.3
Jul. 1, 2009
43. ArcGIS Server 9.3.1
Enterprise (ArcSDE)
for SQL Server
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Jul. 6, 2009
44. ArcGIS Server 9.3.1
Enterprise (ArcSDE)
for Informix
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Types and Functions
Alternative—SFS(TF) 1.1
Jul. 6, 2009
45. ArcGIS Server 9.3.1
Enterprise (ArcSDE)
for Oracle
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Types and
Functions Alternative—
SFS(TF) 1.1
Jul. 6, 2009
46. ArcGIS Server 9.3.1
Enterprise (ArcSDE)
for Oracle
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Jul. 6, 2009
47. ArcSDE for PostgreSQL,
Version 9.3.1
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Types and
Functions Alternative—
SFS(TF) 1.1
Jul. 6, 2009
48. ArcGIS Server 9.3.1
Enterprise (ArcSDE) for
DB2—Spatial Types and
Functions
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Types and
Functions Alternative—
SFS(TF) 1.1
Jul. 6, 2009
16. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
Esri White Paper 13
Item Product Specification
Certification Date
(TSR Approved)
49. ArcGIS Server 10.0
Enterprise (ArcSDE)
for DB2
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Types and
Functions Alternative—
SFS(TF) 1.1
Jun. 1, 2010
50. ArcGIS Server 10.0
Enterprise (ArcSDE)
for Informix
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Types and
Functions Alternative—
SFS(TF) 1.1
Jun. 1, 2010
51. ArcGIS Server 10.0
Enterprise (ArcSDE)
for Oracle
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Types and
Functions Alternative—
SFS(TF) 1.1
Jun. 1, 2010
52. ArcGIS Server 10.0
Enterprise (ArcSDE)
for Oracle
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Jun. 1, 2010
53. ArcGIS Server 10.0
Enterprise (ArcSDE)
for PostgreSQL
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Types and
Functions Alternative—
SFS(TF) 1.1
Jun. 1, 2010
54. ArcGIS Server 10.0
Enterprise (ArcSDE)
for SQL Server
OpenGIS Simple Features
Specification for SQL,
Revision 1.1, Binary Geometry
Alternative—SFS(BG) 1.1
Jun. 1, 2010
55. ArcGIS Server 10.0 OpenGIS Web Map Service
Interface Standard,
Version 1.1.1—WMS 1.1.1
Jun. 1, 2010
56. ArcGIS Server 10.0 OpenGIS Web Map Service
Interface Standard,
Version 1.3.0—WMS 1.3.0
Jun. 1, 2010
57. ArcGIS Server 10.0 OpenGIS Web Feature Service
Interface Standard,
Version 1.0.0—WFS 1.0.0
Jun. 1, 2010
58. ArcGIS Server 10.0 OpenGIS Web Coverage Service
Interface Standard,
Version 1.0.0—WCS 1.0.0
Jun. 1, 2010
59. ArcGIS Server 10.0
Geoportal Extension
OpenGIS Catalog Service
Implementation Standard,
Version 2.0.2—CAT 2.0.2
Jun. 1, 2010
60. Esri Geoportal
Server 1.2.2
OpenGIS Catalog Service
Implementation Standard,
Version 2.0.2—CAT 2.0.2
Jun. 26, 2012
17. Esri-Supported Open Geospatial
Consortium and ISO/TC 211 Standards
J9462
March 2013 14
Item Product Specification
Certification Date
(TSR Approved)
61. ArcGIS 10.1 for Server OpenGIS Web Map Service
Implementation Standard,
Version 1.1.1—WMS 1.1.1
Jun. 26, 2012
62. ArcGIS 10.1 for Server OpenGIS Web Map Service
Implementation Standard,
Version 1.3.0—WMS 1.3.0
Jun. 26, 2012
63. ArcGIS 10.1 for Server OpenGIS Web Coverage Service
Implementation Standard,
Version 1.0.0—WCS 1.0.0
Jun. 26, 2012
64. ArcGIS 10.1 for Server OpenGIS Web Feature Service
Implementation Standard,
Version 1.0.0—WFS 1.0.0
Jun. 26, 2012
65. ArcGIS 10.1 for Server
Enterprise for DB2
OpenGIS Simple Features for
SQL Implementation Standard,
Types and Functions Alternative,
Version 1.1—SFS(TF) 1.1
Jun. 26, 2012
66. ArcGIS 10.1 for Server
Enterprise for SQL
Server
OpenGIS Simple Features for
SQL Implementation Standard,
Binary Geometry Alternative,
Version 1.1—SFS(BG) 1.1
Jun. 26, 2012
67. ArcGIS 10.1 for Server
Enterprise for
PostgreSQL
OpenGIS Simple Features for
SQL Implementation Standard,
Types and Functions Alternative,
Version 1.1—SFS(TF) 1.1
Jun. 26, 2012
68. ArcGIS 10.1 for Server
Enterprise for Informix
OpenGIS Simple Features for
SQL Implementation Standard,
Types & Functions Alternative,
Version 1.1—SFS(TF) 1.1
Jun. 26, 2012
69. ArcGIS 10.1 for Server
Enterprise for Oracle
OpenGIS Simple Features for
SQL Implementation Standard,
Binary Geometry Alternative,
Version 1.1—SFS(BG) 1.1
Jun. 26, 2012
70. ArcGIS 10.1 for Server
Enterprise for Oracle
OpenGIS Simple Features for
SQL Implementation Standard,
Types and Functions Alternative,
Version 1.1—SFS(TF) 1.1
Jun. 26, 2012
18. Printed in USA
Contact Esri
380 New York Street
Redlands, California 92373-8100 usa
1 800 447 9778
t 909 793 2853
f 909 793 5953
info@esri.com
esri.com
Offices worldwide
esri.com/locations
Esri inspires and enables people to positively impact their
future through a deeper, geographic understanding of the
changing world around them.
Governments, industry leaders, academics, and nongovernmental
organizations trust us to connect them with the analytic knowledge
they need to make the critical decisions that shape the planet. For
more than 40 years, Esri has cultivated collaborative relationships
with partners who share our commitment to solving earth’s most
pressing challenges with geographic expertise and rational resolve.
Today, we believe that geography is at the heart of a more resilient
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