This document provides a functionality matrix for ArcGIS 10.1 for Desktop. It outlines capabilities for mapping, page layout and printing, publishing and sharing maps and data, automating workflows, advanced labeling, advanced cartography, address matching, data support and interoperability including support for raster data, document and data formats, and CAD files. Specific functions listed include navigation, queries, tables, graphs, map display of various data types, labeling, annotation, geoprocessing, geocoding, reading and editing different file types, and coordinate system support.
This document provides a functionality matrix for ArcGIS 10.2 for Desktop. It outlines the program's capabilities in areas such as mapping, page layout and printing, publishing and sharing maps and data, geoprocessing, labeling, advanced cartography, address matching, data support and interoperability, and CAD support. Specific functions are listed under each area, such as map interaction tools, different types of map display like raster data display, and direct read/write support of various data formats.
This document provides an administrator manual for Atoll version 3.1.0. It discusses installing and configuring Atoll and its components, setting up distributed calculation servers, managing licenses, and working with Atoll databases. The manual is divided into several sections covering topics such as supported technologies, installation, license management, database management, and more.
As part of the Solar Energy and innovation module, our team Zaid Hani Bani, Cecilia Moramarco, Minh Pham Quang and myself designed, fabricated and tested these solar blinds.
This document provides a 3-page user manual summary for Atoll 3.1.0 radio network planning and optimization software. It includes sections on the working environment, explorer window, working with objects, maps, and LTE technology specifications. The manual aims to familiarize users with Atoll's interface and enable efficient use of its features and functions for radio network design.
This document is a final report for the Advanced Radio Transmission Experimental Michigan Satellite (ARTEMIS) project. It provides an overview of the mission requirements and design drivers for the subsystems of the ARTEMIS CubeSat. The report describes the preliminary analyses and simulation tools used to evaluate the performance of the satellite's orbits, communication system, propulsion system, electrical power system, attitude determination and control system, command and data handling system, structures, thermal control system, and guidance system.
Report on Integrated Modular Avionics (DO-297/ED-124) for Requirement Enginee...Nikhil Dantkale
Considering the integration within Avionics, the Report covers the brief knowledge on Integrated Modular Avionics(IMA) Document DO-297. It also includes the communication bus architectures used in avionics applications, MIL-STD-1553, ARINC 429, and Most advanced AFDX/ARINC 664 Protocol. It covers a brief description on Core Processing Input Output Modules (CPIOMs) computers used in Airbus 380 flight.
This document provides an overview of how to use Atoll software to model UMTS networks. It covers installing the software, importing network data like site locations and RF parameters, setting the propagation model, calculating coverage predictions, simulating traffic, and analyzing results. The document contains 11 sections that describe these processes in detail with screenshots and examples.
This document provides documentation for MapServer version 5.4.2. It includes sections on an introduction to MapServer, installing MapServer on Unix and Windows systems, a MapServer tutorial, and details on Mapfile configuration including layers, styles, symbols and other elements. The document aims to help users get started with MapServer and configure map projects.
This document provides a functionality matrix for ArcGIS 10.2 for Desktop. It outlines the program's capabilities in areas such as mapping, page layout and printing, publishing and sharing maps and data, geoprocessing, labeling, advanced cartography, address matching, data support and interoperability, and CAD support. Specific functions are listed under each area, such as map interaction tools, different types of map display like raster data display, and direct read/write support of various data formats.
This document provides an administrator manual for Atoll version 3.1.0. It discusses installing and configuring Atoll and its components, setting up distributed calculation servers, managing licenses, and working with Atoll databases. The manual is divided into several sections covering topics such as supported technologies, installation, license management, database management, and more.
As part of the Solar Energy and innovation module, our team Zaid Hani Bani, Cecilia Moramarco, Minh Pham Quang and myself designed, fabricated and tested these solar blinds.
This document provides a 3-page user manual summary for Atoll 3.1.0 radio network planning and optimization software. It includes sections on the working environment, explorer window, working with objects, maps, and LTE technology specifications. The manual aims to familiarize users with Atoll's interface and enable efficient use of its features and functions for radio network design.
This document is a final report for the Advanced Radio Transmission Experimental Michigan Satellite (ARTEMIS) project. It provides an overview of the mission requirements and design drivers for the subsystems of the ARTEMIS CubeSat. The report describes the preliminary analyses and simulation tools used to evaluate the performance of the satellite's orbits, communication system, propulsion system, electrical power system, attitude determination and control system, command and data handling system, structures, thermal control system, and guidance system.
Report on Integrated Modular Avionics (DO-297/ED-124) for Requirement Enginee...Nikhil Dantkale
Considering the integration within Avionics, the Report covers the brief knowledge on Integrated Modular Avionics(IMA) Document DO-297. It also includes the communication bus architectures used in avionics applications, MIL-STD-1553, ARINC 429, and Most advanced AFDX/ARINC 664 Protocol. It covers a brief description on Core Processing Input Output Modules (CPIOMs) computers used in Airbus 380 flight.
This document provides an overview of how to use Atoll software to model UMTS networks. It covers installing the software, importing network data like site locations and RF parameters, setting the propagation model, calculating coverage predictions, simulating traffic, and analyzing results. The document contains 11 sections that describe these processes in detail with screenshots and examples.
This document provides documentation for MapServer version 5.4.2. It includes sections on an introduction to MapServer, installing MapServer on Unix and Windows systems, a MapServer tutorial, and details on Mapfile configuration including layers, styles, symbols and other elements. The document aims to help users get started with MapServer and configure map projects.
This document provides guidance on architecting and deploying MetroCluster configurations, including an overview of MetroCluster, planning considerations, installation steps, and best practices. It covers stretched, switched, and fabric MetroCluster topologies using NetApp storage and includes configuration examples for 16-port and 8-port Brocade switches. The intended audience is field personnel responsible for MetroCluster implementations.
The document describes the Thematic Mapping Engine (TME), an open source application that allows users to create thematic maps using Keyhole Markup Language (KML). TME takes statistical data, spatial features, and mapping parameters as input and generates KML/KMZ files that can be viewed in geobrowsers like Google Earth. It includes a web interface that allows non-programmers to create thematic maps through an interactive form, and an Application Programming Interface (API) that allows programmers to generate KML/KMZ files from code. The document discusses how TME was implemented and evaluates its capabilities for thematic mapping using open data and open source tools.
The document discusses cloud computing and its advantages. It notes that cloud computing enables higher IT efficiency through technologies like virtualization which allow companies to reduce capital expenditures and convert IT costs to operating expenses. Cloud computing also allows for faster and more flexible application development by providing on-demand access to computing resources. Finally, the document discusses how cloud computing is driving new business opportunities through compelling ecosystem models.
The document is the user's guide for Lexmark printer models MS312, MS315, and MS415. It contains information about safety, setup, use, maintenance and troubleshooting of the printers. The guide includes details on installing internal and external options, loading paper, networking, managing supplies, using printer menus and clearing jams. It provides specifications for supported paper sizes and types, and contains regulatory notices and an index.
Integrating wind and solar energy in india for a smart grid platformFarhan Beg
This paper proposes that integration of enhanced electrical capacity realized through a large-scale integration of renewable energy resources, such as wind and solar energy, in the Indian electrical grid can lead to a smarter grid platform. This platform will ensure increased efficiency, reliability, and security, as well as reducing the environmental impact of supplying the electrical power needs of the modern society. The result is an enhanced electricity management environment and a dynamic programable renewable source mobilization in India leading to energy independence and an electrical grid that is much more reliable, secure, efficient, and greener.
This document describes a 3D microwave scanning system project. The goal is to design a scanner that can move in three dimensions and use microwave radiation to scan objects and detect defects. The scanner will obtain 3D data by merging multiple 2D image layers taken at different depths. LabVIEW will be used to control the scanner hardware and collect voltage data, which will then be converted to a 3D image using MATLAB. The project aims to address issues with an existing scanner design and improve the system's ability to acquire accurate 3D microwave imaging data.
This document is a report submitted for the degree of Bachelor of Technology in Electronics and Communication Engineering. It discusses the design of a solar tracking system using a microcontroller. The system aims to use sensors to detect sunlight and motors to adjust the position of a solar panel to maximize sunlight exposure. It provides objectives of the project and lists main components as sensors, DC motors, panels and microcontrollers. It also includes sections on the theoretical background of these components and a literature review of past solar tracking system projects.
This document is Sebastian Fabian's master's thesis which presents a novel method for predicting upcoming road topography using a self-learning geographical and topographical raster map. The system constructs the map from GPS trace data, predicts routes by looking ahead in the map, and updates the map each time an area is driven through. It is designed for use in embedded automotive control systems to enable features like adaptive cruise control. The thesis describes the implementation of the map building, route prediction, and other aspects of the system with considerations for memory and processing constraints. It also evaluates the performance of different design choices and parameters through testing on sample route data.
The document provides an operation manual for the SATAID program. It describes how to install and uninstall the program, how to start and quit the program, and gives an overview of the program's main functions which include displaying case study materials, satellite images, and other meteorological data. The document also provides information on data formats and how to use additional functions like measuring images, drawing on images, and displaying statistical analysis.
This document provides an overview and instructions for using the SATAID Operation Manual software. It describes how to install and uninstall the software, start and quit the program, navigate the main menu and operation panel, and perform basic functions like registering and viewing case study data, images, and weather data. Advanced functions covered include adjusting image gradation, measuring image data, drawing on images, and displaying other observation data. The document also outlines additional program options, settings, and functions specific to tropical cyclone analysis.
Haiti GIS-Based Hydropower Potential Mapping AtlasFrancis Mitchell
A GIS based analysis of potential hydropower sites is useful for planning and prioritizing development projects for government entities, developers, and renewable energy companies. This is a fast procedure to quantify available potential. The preliminary identification, and ranking of these sites provide the justification for further in-depth studies.
ACHIEVING THE VISION OF 80 PERCENT RENEWABLES BY 2030 SRILANKAPrivate Consultants
a draft report to be presented to President of Sri Lanka, Gotabaya Rajapaksha, by State Minister of Renewable Energy, Duminda Dissanayake in September 2020, outlining the state of renewable energy in Sri Lanka
This document is a table of contents for a manual on using GeoGraphix Discovery software. It outlines 5 chapters that cover topics like creating a project, managing land and well data, defining a stratigraphic column, and more. Each chapter is broken down into sections that provide more specific instructions on tasks in the software like importing data, displaying layers, editing attributes, and creating graphs and maps.
3D magnetic steering wheel angle and suspension travel detectionBruno Sprícigo
This document describes a thesis submitted by Bruno Paes Spricigo to the Federal University of Santa Catarina in Brazil. The thesis proposes using a 3D magnetic sensor to simultaneously measure steering wheel angle and suspension travel in vehicles. This could increase safety by providing more data inputs for systems like traction control and stability control. The document outlines the objectives, structure, background topics on suspensions, steering, and magnetic position sensing, and the proposed approach of using magnetic fields around a sensor to calculate linear and angular displacement. Details are provided on the materials used, including software, microcontrollers, sensors and magnets. The approach aims to decrease sensor overhead while improving measurement precision for smart suspension applications.
This document outlines Argonne National Laboratory's site sustainability plan for fiscal year 2015. Some key highlights include:
- Reducing potable water intensity by 36% from the 2007 baseline and recycling 77% of construction and demolition debris in 2014.
- Decreasing energy intensity by 30% from the 2003 baseline through energy efficiency projects and evaluations.
- Establishing goals and strategies around reducing greenhouse gas emissions, increasing sustainable building practices, optimizing fleet management, conserving water usage, and growing renewable energy generation.
- Implementing energy performance contracts and metering systems to monitor resource usage and drive further sustainability improvements across Argonne's facilities.
This chapter introduces the Arduino project and the structure of the book. It discusses the success of the Arduino, which is attributed to its low cost, easy to use open source software programming interface, and the large community support through software libraries and online projects. However, the many online projects can lack detailed explanations and a common connecting theme, potentially causing confusion for beginners. The book aims to address this by providing a structured introduction to Arduino concepts through examples and explanations of theoretical foundations.
This document provides documentation on how to use the Zend Framework 2. It covers topics such as installation, getting started with a skeleton application, routing, controllers, models, forms, actions, testing, events, configuration, navigation, and pagination. The document contains numerous code examples and step-by-step instructions for creating a sample album application using Zend Framework 2.
The NetApp solution provides several benefits for Citrix XenDesktop deployments including:
1) Storage efficiency through thin provisioning, deduplication, and FlexClone which can save 50-90% on storage costs.
2) Performance enhancement using technologies like Virtual Storage Tiering and write optimization.
3) Improved operational agility through tight integration with partner solutions and simplified management.
4) Robust data protection for both virtual desktop operating systems and user data with low overhead.
This document summarizes a study on using gyroscopes and differential wheel speeds for land vehicle navigation. It examines four different sensor data fusion filters that integrate GPS, gyroscope, and odometry sensors. The filters estimate vehicle position, heading, wheel radii, and other parameters. Test data is collected from a vehicle equipped with these three sensors. The filters are evaluated based on their ability to estimate states like position and heading during GPS outages. Key findings include that integrating gyroscope and odometry data can enable continued navigation when GPS is unavailable, with errors accumulating over time without correction from GPS.
This document contains national and state energy action plans for the Federated States of Micronesia (FSM). The national plan focuses on promoting energy efficiency, conservation, and renewable energy. Key strategies include establishing standards and incentives for energy efficient appliances and buildings, assessing renewable energy alternatives during design and construction, and conducting nationwide awareness campaigns. Individual state plans for Yap and Chuuk then outline priority energy projects, programs, and 10-year action plans to pursue conventional energy sources, supply and demand side efficiency measures, and solar and wind power on their main islands and remote outer islands.
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.
This document provides guidance on architecting and deploying MetroCluster configurations, including an overview of MetroCluster, planning considerations, installation steps, and best practices. It covers stretched, switched, and fabric MetroCluster topologies using NetApp storage and includes configuration examples for 16-port and 8-port Brocade switches. The intended audience is field personnel responsible for MetroCluster implementations.
The document describes the Thematic Mapping Engine (TME), an open source application that allows users to create thematic maps using Keyhole Markup Language (KML). TME takes statistical data, spatial features, and mapping parameters as input and generates KML/KMZ files that can be viewed in geobrowsers like Google Earth. It includes a web interface that allows non-programmers to create thematic maps through an interactive form, and an Application Programming Interface (API) that allows programmers to generate KML/KMZ files from code. The document discusses how TME was implemented and evaluates its capabilities for thematic mapping using open data and open source tools.
The document discusses cloud computing and its advantages. It notes that cloud computing enables higher IT efficiency through technologies like virtualization which allow companies to reduce capital expenditures and convert IT costs to operating expenses. Cloud computing also allows for faster and more flexible application development by providing on-demand access to computing resources. Finally, the document discusses how cloud computing is driving new business opportunities through compelling ecosystem models.
The document is the user's guide for Lexmark printer models MS312, MS315, and MS415. It contains information about safety, setup, use, maintenance and troubleshooting of the printers. The guide includes details on installing internal and external options, loading paper, networking, managing supplies, using printer menus and clearing jams. It provides specifications for supported paper sizes and types, and contains regulatory notices and an index.
Integrating wind and solar energy in india for a smart grid platformFarhan Beg
This paper proposes that integration of enhanced electrical capacity realized through a large-scale integration of renewable energy resources, such as wind and solar energy, in the Indian electrical grid can lead to a smarter grid platform. This platform will ensure increased efficiency, reliability, and security, as well as reducing the environmental impact of supplying the electrical power needs of the modern society. The result is an enhanced electricity management environment and a dynamic programable renewable source mobilization in India leading to energy independence and an electrical grid that is much more reliable, secure, efficient, and greener.
This document describes a 3D microwave scanning system project. The goal is to design a scanner that can move in three dimensions and use microwave radiation to scan objects and detect defects. The scanner will obtain 3D data by merging multiple 2D image layers taken at different depths. LabVIEW will be used to control the scanner hardware and collect voltage data, which will then be converted to a 3D image using MATLAB. The project aims to address issues with an existing scanner design and improve the system's ability to acquire accurate 3D microwave imaging data.
This document is a report submitted for the degree of Bachelor of Technology in Electronics and Communication Engineering. It discusses the design of a solar tracking system using a microcontroller. The system aims to use sensors to detect sunlight and motors to adjust the position of a solar panel to maximize sunlight exposure. It provides objectives of the project and lists main components as sensors, DC motors, panels and microcontrollers. It also includes sections on the theoretical background of these components and a literature review of past solar tracking system projects.
This document is Sebastian Fabian's master's thesis which presents a novel method for predicting upcoming road topography using a self-learning geographical and topographical raster map. The system constructs the map from GPS trace data, predicts routes by looking ahead in the map, and updates the map each time an area is driven through. It is designed for use in embedded automotive control systems to enable features like adaptive cruise control. The thesis describes the implementation of the map building, route prediction, and other aspects of the system with considerations for memory and processing constraints. It also evaluates the performance of different design choices and parameters through testing on sample route data.
The document provides an operation manual for the SATAID program. It describes how to install and uninstall the program, how to start and quit the program, and gives an overview of the program's main functions which include displaying case study materials, satellite images, and other meteorological data. The document also provides information on data formats and how to use additional functions like measuring images, drawing on images, and displaying statistical analysis.
This document provides an overview and instructions for using the SATAID Operation Manual software. It describes how to install and uninstall the software, start and quit the program, navigate the main menu and operation panel, and perform basic functions like registering and viewing case study data, images, and weather data. Advanced functions covered include adjusting image gradation, measuring image data, drawing on images, and displaying other observation data. The document also outlines additional program options, settings, and functions specific to tropical cyclone analysis.
Haiti GIS-Based Hydropower Potential Mapping AtlasFrancis Mitchell
A GIS based analysis of potential hydropower sites is useful for planning and prioritizing development projects for government entities, developers, and renewable energy companies. This is a fast procedure to quantify available potential. The preliminary identification, and ranking of these sites provide the justification for further in-depth studies.
ACHIEVING THE VISION OF 80 PERCENT RENEWABLES BY 2030 SRILANKAPrivate Consultants
a draft report to be presented to President of Sri Lanka, Gotabaya Rajapaksha, by State Minister of Renewable Energy, Duminda Dissanayake in September 2020, outlining the state of renewable energy in Sri Lanka
This document is a table of contents for a manual on using GeoGraphix Discovery software. It outlines 5 chapters that cover topics like creating a project, managing land and well data, defining a stratigraphic column, and more. Each chapter is broken down into sections that provide more specific instructions on tasks in the software like importing data, displaying layers, editing attributes, and creating graphs and maps.
3D magnetic steering wheel angle and suspension travel detectionBruno Sprícigo
This document describes a thesis submitted by Bruno Paes Spricigo to the Federal University of Santa Catarina in Brazil. The thesis proposes using a 3D magnetic sensor to simultaneously measure steering wheel angle and suspension travel in vehicles. This could increase safety by providing more data inputs for systems like traction control and stability control. The document outlines the objectives, structure, background topics on suspensions, steering, and magnetic position sensing, and the proposed approach of using magnetic fields around a sensor to calculate linear and angular displacement. Details are provided on the materials used, including software, microcontrollers, sensors and magnets. The approach aims to decrease sensor overhead while improving measurement precision for smart suspension applications.
This document outlines Argonne National Laboratory's site sustainability plan for fiscal year 2015. Some key highlights include:
- Reducing potable water intensity by 36% from the 2007 baseline and recycling 77% of construction and demolition debris in 2014.
- Decreasing energy intensity by 30% from the 2003 baseline through energy efficiency projects and evaluations.
- Establishing goals and strategies around reducing greenhouse gas emissions, increasing sustainable building practices, optimizing fleet management, conserving water usage, and growing renewable energy generation.
- Implementing energy performance contracts and metering systems to monitor resource usage and drive further sustainability improvements across Argonne's facilities.
This chapter introduces the Arduino project and the structure of the book. It discusses the success of the Arduino, which is attributed to its low cost, easy to use open source software programming interface, and the large community support through software libraries and online projects. However, the many online projects can lack detailed explanations and a common connecting theme, potentially causing confusion for beginners. The book aims to address this by providing a structured introduction to Arduino concepts through examples and explanations of theoretical foundations.
This document provides documentation on how to use the Zend Framework 2. It covers topics such as installation, getting started with a skeleton application, routing, controllers, models, forms, actions, testing, events, configuration, navigation, and pagination. The document contains numerous code examples and step-by-step instructions for creating a sample album application using Zend Framework 2.
The NetApp solution provides several benefits for Citrix XenDesktop deployments including:
1) Storage efficiency through thin provisioning, deduplication, and FlexClone which can save 50-90% on storage costs.
2) Performance enhancement using technologies like Virtual Storage Tiering and write optimization.
3) Improved operational agility through tight integration with partner solutions and simplified management.
4) Robust data protection for both virtual desktop operating systems and user data with low overhead.
This document summarizes a study on using gyroscopes and differential wheel speeds for land vehicle navigation. It examines four different sensor data fusion filters that integrate GPS, gyroscope, and odometry sensors. The filters estimate vehicle position, heading, wheel radii, and other parameters. Test data is collected from a vehicle equipped with these three sensors. The filters are evaluated based on their ability to estimate states like position and heading during GPS outages. Key findings include that integrating gyroscope and odometry data can enable continued navigation when GPS is unavailable, with errors accumulating over time without correction from GPS.
This document contains national and state energy action plans for the Federated States of Micronesia (FSM). The national plan focuses on promoting energy efficiency, conservation, and renewable energy. Key strategies include establishing standards and incentives for energy efficient appliances and buildings, assessing renewable energy alternatives during design and construction, and conducting nationwide awareness campaigns. Individual state plans for Yap and Chuuk then outline priority energy projects, programs, and 10-year action plans to pursue conventional energy sources, supply and demand side efficiency measures, and solar and wind power on their main islands and remote outer islands.
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.
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.
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.
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.
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
El documento describe los sistemas y procedimientos de seguridad y mantenimiento en hoteles. Se enfatiza la importancia de la seguridad de los huéspedes, empleados y propiedad del hotel. Los hoteles implementan circuitos cerrados, cajas de seguridad, y personal entrenado para maximizar la seguridad. El departamento de mantenimiento se encarga de tareas preventivas y correctivas para sistemas eléctricos, plomería, calefacción y más, con el fin de evitar molestias a los clientes y reducir costos.
ArcGIS 10.2.2 for Desktop Functionality MatrixEsri
This document provides a functionality matrix for ArcGIS 10.2.2 for Desktop. It outlines capabilities for mapping, map display, publishing/sharing, geoprocessing, data management, and analysis across the Basic, Standard, and Advanced license levels. Key areas covered include mapping, queries, tables, graphs, routing, visualization of various data types, page layout/printing, sharing maps/data, geocoding, automation, labeling, cartography, editing, geodatabases, networks, metadata, and spatial statistics. The matrix provides a detailed overview of what functions are available at each license level.
ArcGIS 10.2.1 for Desktop Functionality MatrixEsri
ArcGIS 10.2.1 for Desktop allows users to author geographic information, examine relationships in data, analyze data, test predictions, and make better decisions. It includes integrated applications, user interfaces, and a development environment. The license levels are Basic, Standard, and Advanced and provide the same core functionality with increased advanced analysis, geoprocessing, and cartography tools at higher levels. Capabilities include mapping, page layout and printing, publishing and sharing maps and data, automating workflows, labeling, advanced cartography, geocoding, data support and interoperability, and data manipulation and analysis functions.
This document provides a functionality matrix for ArcGIS Desktop 10. It outlines capabilities for mapping, map display, publishing and sharing maps, map text, advanced cartography, address matching, data support and interoperability, application framework, data automation, data management and validation, and data manipulation and analysis. Functionality ranges from basic to advanced and is categorized by license level from ArcReader to ArcInfo.
This document provides an introduction to using R, a programming environment for statistical analysis and graphics. It describes basic R operations like vectors, factors, arrays, matrices, lists and data frames. It also covers getting help, executing commands interactively or from files, and removing objects from memory. The document is intended to help new users learn the fundamentals of the R programming language.
This document provides an introduction and tutorial for using ArcGIS Desktop 10. It begins with an overview of ArcGIS and its main components: ArcMap, ArcCatalog, ArcScene and ArcGlobe. The majority of the document consists of exercises that teach basic ArcMap skills like opening and saving map documents, navigating and zooming, identifying features, editing layers and symbols, and using geoprocessing tools. It also includes introductory sections on map design, creating geodatabases, editing data, image processing, and data logging.
This document is the user guide for Quantum GIS (QGIS) version 1.7.0. It begins with introductory information about GIS concepts and using QGIS. The guide then provides overviews of key QGIS features like the user interface, working with vector and raster data, output options, and more. It includes tutorials for tasks like loading data, styling layers, labeling features, and using tools like measuring and bookmarks. The document aims to help new users get started with QGIS and learn its functionality.
This document provides a practical guide to geostatistical mapping of environmental variables. It discusses key concepts in geostatistics such as spatial variability and different spatial prediction models. It focuses on regression-kriging, describing how it combines regression analysis and kriging to provide the best linear unbiased prediction of spatial data. The document also provides hands-on examples of performing geostatistical analysis and mapping using open-source software packages like ILWIS, SAGA GIS, R and Google Earth. It includes a detailed case study applying these techniques to map soil properties in a study area.
This document provides an introduction and getting started guide for the contouring and 3D surface mapping software Surfer. It discusses who uses Surfer, system requirements, installation, the user interface, file types, gridding, map layers, map types, and includes a tutorial. The guide aims to help new users understand the basics of using Surfer to visualize XYZ data in map form.
The document describes the Thematic Mapping Engine (TME), an open source application that allows users to create thematic maps using Keyhole Markup Language (KML). TME takes statistical data, spatial features, and mapping parameters as input and generates a KML/KMZ file that can be viewed in geobrowsers like Google Earth. It includes a web interface where non-programmers can create maps, as well as an Application Programming Interface (API) for developers. The document discusses data preparation and storage, thematic mapping techniques using KML, and an evaluation of the TME website which received feedback from its user community.
This document provides an overview and getting started guide for AutoCAD Civil 3D 2009:
- It describes how to install AutoCAD Civil 3D 2009 on a single computer or network. It also highlights new features in the 2009 release related to project management, survey, pipe networks, labels, surfaces, grading, alignments, profiles, corridors, mass haul, Google Earth integration, and hydraulics/hydrology.
- It provides an overview of sample data, tutorials, guides, and training materials that are included to help users learn how to use AutoCAD Civil 3D 2009.
- It introduces the object-based design approach in AutoCAD Civil 3D 2009 and describes tools for object management, editing,
This document provides an introduction to using R, an open-source programming language and software environment for statistical analysis and graphics. It covers basic R operations like vectors, arrays, matrices, data frames, reading data, probability distributions, and writing functions. The document contains copyright information and a table of contents describing its 10 chapters on getting started with R and its core functionality.
This document discusses configuring and deploying the chassis cluster feature on Juniper Networks J Series services routers to provide high availability. It describes the hardware and software requirements, feature overview, configuration, monitoring, deployment scenarios including active/passive and active/active, special considerations, and upgrade process. The chassis cluster allows two J Series routers to work as a single device, increasing redundancy and reliability.
SMA - SUNNY DESIGN 3 and SUNNY DESIGN WEBHossam Zein
This document is the user manual for the Sunny Design 3 and Sunny Design Web software from SMA Solar Technology AG. It provides legal information, descriptions of the product and its functions, system requirements for use, instructions for installation and use, and other guidance. The document is copyright protected and intended to help users design PV projects and systems using SMA's Sunny Design software.
The document provides design considerations for building a high-performance campus local area network (LAN). It discusses a layered network architecture with access, aggregation and core layers. Key access layer topics include wired/wireless connectivity, power-over-Ethernet, VLANs and wireless solutions. Aggregation design focuses on segmentation and distributed switching. The core layer section reviews high-performance solutions and consolidating the core and aggregation layers. High availability techniques like device redundancy, link aggregation and virtual chassis are also covered.
This document provides instructions for installing and administering R on various operating systems. It covers obtaining R sources, installing on Unix-like systems, Windows, and OS X. It also discusses installing add-on packages, internationalization, choosing 32- vs 64-bit builds, and using the standalone Rmath library. The document is intended as a manual for installing and managing R versions 3.0.2 or higher.
This document provides contact information and revision history for the MATLAB Primer. It lists ways to contact MathWorks for sales, support, and community help. It also provides the copyright information and lists revisions made from 1996 to 2014. The document contains 23 printing revisions and online revisions for MATLAB releases from versions 5 through 8.4 (R2014b).
This document provides an overview of aggregation and data processing in MongoDB. It describes three main modalities for performing aggregation: 1) the aggregation pipeline, which allows documents to pass through multi-stage pipelines that transform them into aggregated results; 2) map-reduce functions, which perform aggregation through map and reduce phases; and 3) single purpose aggregation operations like count, distinct, and group that support common aggregation needs. The document also covers aggregation concepts, examples, and reference materials.
The document discusses different methods for aggregating data in MongoDB, including:
1) The aggregation pipeline, which allows data to be transformed through multi-stage pipelines of operations modeled on data processing. It is the preferred method.
2) Map-reduce operations, which use custom JavaScript functions to perform aggregation but are less efficient than pipelines.
3) Single-purpose aggregation commands that provide counts, distinct values, and grouping in a simple way but with less flexibility than pipelines.
An Introduction to MATLAB for Geoscientists.pdfvishnuraj764102
This document provides an introduction to MATLAB for geoscientists. It covers obtaining MATLAB and useful resources, the basic MATLAB interface and commands, working with variables and simple operations, built-in functions, logical operators and flow control, importing and exporting data, 2D and 3D plotting, interpolation, optimization, and image analysis. The goal is to provide geoscientists with the fundamental MATLAB skills needed to perform common scientific tasks.
The document provides tips and tricks for advanced business reporting in Microsoft Excel. It discusses the Excel interface and various functions and features like PivotTables, sorting, conditional formatting, and formulas. It also provides a history of spreadsheets and details of Excel version updates. The tips are intended to help users work more efficiently and effectively in Excel for business reporting and decision making.
Similar to ArcGIS10.1 for Desktop Functionality Matrix (20)
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
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.
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.
The NATO Core Geographic Services system provides centralized geospatial capabilities for NATO forces through an enterprise GIS. It was implemented in 2006 to replace outdated, disconnected legacy systems and provide standardized geospatial data, products, services and software across NATO headquarters. The system delivers centralized cartographic, GIS and mapping services through desktop and web applications to over 18 NATO headquarters around the world, allowing all NATO staff to access the same strategic geospatial information. It is based on Esri ArcGIS software and uses open standards to enable interoperability with other NATO systems. The system provides critical geospatial support for NATO missions worldwide.
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.
ArcGIS Online is a cloud-based platform for making and sharing maps, apps, and other geographic data. It allows users to create web maps using their own data combined with basemaps and map layers from Esri and other users. Content can be shared publicly or with private groups for collaboration. ArcGIS Online also provides ready-to-use apps, analysis tools, and templates to help organizations visualize and analyze their geographic data.
The ArcGIS platform provides more than just 3D maps by enabling users to share, create, and add 3D content through web browsers and mobile apps. It allows existing 2D data and processes to be used to automate the creation of 3D models from imagery and lidar data. This facilitates large-scale 3D mapping of cities, facilities, and other areas. The platform also supports augmented reality and delivering 3D content anywhere through web scenes.
This document discusses how a retail bank used location analytics to optimize its branch network and improve business performance. The bank analyzed customer transaction data and demographic information to identify key factors influencing branch performance. It found that branches in areas with higher-income households and daytime worker populations outperformed others. The bank also closed underperforming branches, developed new products tailored to customer locations, and saw a 14% improvement in overall branch performance. Location analytics helped the bank enhance customer insights and make more informed business decisions.
CityEngine software allows users to quickly create realistic 3D city models for applications such as urban planning, architecture, simulations, and film production. It features easy-to-use tools for sketching, texturing, and editing 3D building models. Models can be integrated with ArcGIS and shared online. CityEngine supports common 3D formats and its data can improve communication and understanding of 3D urban planning challenges.
GlobalLogic Java Community Webinar #18 “How to Improve Web Application Perfor...GlobalLogic Ukraine
Під час доповіді відповімо на питання, навіщо потрібно підвищувати продуктивність аплікації і які є найефективніші способи для цього. А також поговоримо про те, що таке кеш, які його види бувають та, основне — як знайти performance bottleneck?
Відео та деталі заходу: https://bit.ly/45tILxj
Conversational agents, or chatbots, are increasingly used to access all sorts of services using natural language. While open-domain chatbots - like ChatGPT - can converse on any topic, task-oriented chatbots - the focus of this paper - are designed for specific tasks, like booking a flight, obtaining customer support, or setting an appointment. Like any other software, task-oriented chatbots need to be properly tested, usually by defining and executing test scenarios (i.e., sequences of user-chatbot interactions). However, there is currently a lack of methods to quantify the completeness and strength of such test scenarios, which can lead to low-quality tests, and hence to buggy chatbots.
To fill this gap, we propose adapting mutation testing (MuT) for task-oriented chatbots. To this end, we introduce a set of mutation operators that emulate faults in chatbot designs, an architecture that enables MuT on chatbots built using heterogeneous technologies, and a practical realisation as an Eclipse plugin. Moreover, we evaluate the applicability, effectiveness and efficiency of our approach on open-source chatbots, with promising results.
"Choosing proper type of scaling", Olena SyrotaFwdays
Imagine an IoT processing system that is already quite mature and production-ready and for which client coverage is growing and scaling and performance aspects are life and death questions. The system has Redis, MongoDB, and stream processing based on ksqldb. In this talk, firstly, we will analyze scaling approaches and then select the proper ones for our system.
Dandelion Hashtable: beyond billion requests per second on a commodity serverAntonios Katsarakis
This slide deck presents DLHT, a concurrent in-memory hashtable. Despite efforts to optimize hashtables, that go as far as sacrificing core functionality, state-of-the-art designs still incur multiple memory accesses per request and block request processing in three cases. First, most hashtables block while waiting for data to be retrieved from memory. Second, open-addressing designs, which represent the current state-of-the-art, either cannot free index slots on deletes or must block all requests to do so. Third, index resizes block every request until all objects are copied to the new index. Defying folklore wisdom, DLHT forgoes open-addressing and adopts a fully-featured and memory-aware closed-addressing design based on bounded cache-line-chaining. This design offers lock-free index operations and deletes that free slots instantly, (2) completes most requests with a single memory access, (3) utilizes software prefetching to hide memory latencies, and (4) employs a novel non-blocking and parallel resizing. In a commodity server and a memory-resident workload, DLHT surpasses 1.6B requests per second and provides 3.5x (12x) the throughput of the state-of-the-art closed-addressing (open-addressing) resizable hashtable on Gets (Deletes).
"Scaling RAG Applications to serve millions of users", Kevin GoedeckeFwdays
How we managed to grow and scale a RAG application from zero to thousands of users in 7 months. Lessons from technical challenges around managing high load for LLMs, RAGs and Vector databases.
What is an RPA CoE? Session 2 – CoE RolesDianaGray10
In this session, we will review the players involved in the CoE and how each role impacts opportunities.
Topics covered:
• What roles are essential?
• What place in the automation journey does each role play?
Speaker:
Chris Bolin, Senior Intelligent Automation Architect Anika Systems
ScyllaDB is making a major architecture shift. We’re moving from vNode replication to tablets – fragments of tables that are distributed independently, enabling dynamic data distribution and extreme elasticity. In this keynote, ScyllaDB co-founder and CTO Avi Kivity explains the reason for this shift, provides a look at the implementation and roadmap, and shares how this shift benefits ScyllaDB users.
Northern Engraving | Nameplate Manufacturing Process - 2024Northern Engraving
Manufacturing custom quality metal nameplates and badges involves several standard operations. Processes include sheet prep, lithography, screening, coating, punch press and inspection. All decoration is completed in the flat sheet with adhesive and tooling operations following. The possibilities for creating unique durable nameplates are endless. How will you create your brand identity? We can help!
MySQL InnoDB Storage Engine: Deep Dive - MydbopsMydbops
This presentation, titled "MySQL - InnoDB" and delivered by Mayank Prasad at the Mydbops Open Source Database Meetup 16 on June 8th, 2024, covers dynamic configuration of REDO logs and instant ADD/DROP columns in InnoDB.
This presentation dives deep into the world of InnoDB, exploring two ground-breaking features introduced in MySQL 8.0:
• Dynamic Configuration of REDO Logs: Enhance your database's performance and flexibility with on-the-fly adjustments to REDO log capacity. Unleash the power of the snake metaphor to visualize how InnoDB manages REDO log files.
• Instant ADD/DROP Columns: Say goodbye to costly table rebuilds! This presentation unveils how InnoDB now enables seamless addition and removal of columns without compromising data integrity or incurring downtime.
Key Learnings:
• Grasp the concept of REDO logs and their significance in InnoDB's transaction management.
• Discover the advantages of dynamic REDO log configuration and how to leverage it for optimal performance.
• Understand the inner workings of instant ADD/DROP columns and their impact on database operations.
• Gain valuable insights into the row versioning mechanism that empowers instant column modifications.
Session 1 - Intro to Robotic Process Automation.pdfUiPathCommunity
👉 Check out our full 'Africa Series - Automation Student Developers (EN)' page to register for the full program:
https://bit.ly/Automation_Student_Kickstart
In this session, we shall introduce you to the world of automation, the UiPath Platform, and guide you on how to install and setup UiPath Studio on your Windows PC.
📕 Detailed agenda:
What is RPA? Benefits of RPA?
RPA Applications
The UiPath End-to-End Automation Platform
UiPath Studio CE Installation and Setup
💻 Extra training through UiPath Academy:
Introduction to Automation
UiPath Business Automation Platform
Explore automation development with UiPath Studio
👉 Register here for our upcoming Session 2 on June 20: Introduction to UiPath Studio Fundamentals: https://community.uipath.com/events/details/uipath-lagos-presents-session-2-introduction-to-uipath-studio-fundamentals/
Northern Engraving | Modern Metal Trim, Nameplates and Appliance PanelsNorthern Engraving
What began over 115 years ago as a supplier of precision gauges to the automotive industry has evolved into being an industry leader in the manufacture of product branding, automotive cockpit trim and decorative appliance trim. Value-added services include in-house Design, Engineering, Program Management, Test Lab and Tool Shops.
Lee Barnes - Path to Becoming an Effective Test Automation Engineer.pdfleebarnesutopia
So… you want to become a Test Automation Engineer (or hire and develop one)? While there’s quite a bit of information available about important technical and tool skills to master, there’s not enough discussion around the path to becoming an effective Test Automation Engineer that knows how to add VALUE. In my experience this had led to a proliferation of engineers who are proficient with tools and building frameworks but have skill and knowledge gaps, especially in software testing, that reduce the value they deliver with test automation.
In this talk, Lee will share his lessons learned from over 30 years of working with, and mentoring, hundreds of Test Automation Engineers. Whether you’re looking to get started in test automation or just want to improve your trade, this talk will give you a solid foundation and roadmap for ensuring your test automation efforts continuously add value. This talk is equally valuable for both aspiring Test Automation Engineers and those managing them! All attendees will take away a set of key foundational knowledge and a high-level learning path for leveling up test automation skills and ensuring they add value to their organizations.
Getting the Most Out of ScyllaDB Monitoring: ShareChat's TipsScyllaDB
ScyllaDB monitoring provides a lot of useful information. But sometimes it’s not easy to find the root of the problem if something is wrong or even estimate the remaining capacity by the load on the cluster. This talk shares our team's practical tips on: 1) How to find the root of the problem by metrics if ScyllaDB is slow 2) How to interpret the load and plan capacity for the future 3) Compaction strategies and how to choose the right one 4) Important metrics which aren’t available in the default monitoring setup.
QA or the Highway - Component Testing: Bridging the gap between frontend appl...zjhamm304
These are the slides for the presentation, "Component Testing: Bridging the gap between frontend applications" that was presented at QA or the Highway 2024 in Columbus, OH by Zachary Hamm.
6. J9707 6 February 2013
Photos ............................................................................................................................................ 42
Parcel Fabric Tools ........................................................................................................................ 42
Core Analysis ................................................................................................................................. 42
Spatial Statistics Tools—Analyzing Patterns ................................................................................. 43
Spatial Statistics Tools—Mapping Clusters ................................................................................... 43
Spatial Statistics Tools—Measuring Geographic Distributions...................................................... 43
Spatial Statistics Tools—Modeling Spatial Relationships.............................................................. 43
Spatial Statistics Tools—Rendering............................................................................................... 43
Spatial Statistics Tools—Utilities.................................................................................................... 43
Multidimensional Tools................................................................................................................... 43
Workspace Management ............................................................................................................... 44
Geodatabase Administration.......................................................................................................... 44
Geometric Networks....................................................................................................................... 44
Table Joins..................................................................................................................................... 44
Data Indexing ................................................................................................................................. 44
ArcGIS for Server Management..................................................................................................... 44
Data .............................................................................................................................. 45
ArcGIS Online Services ....................................................................................................45
Basemap Services (via Add Basemap Menu) ............................................................................... 45
ArcGIS Online Data and Map Services (via Add Data from ArcGIS Online Menu)....................... 45
ArcGIS Online Tasks...................................................................................................................... 45
Data and Maps for ArcGIS ................................................................................................46
Esri Data and Maps (Most Datasets Also Online) ......................................................................... 46
Data Appliance for ArcGIS............................................................................................................. 46
StreetMap Premium for ArcGIS ..................................................................................................... 46
7. J9707 7 February 2013
ArcGIS®
for Desktop allows you to analyze your data and author geographic knowledge
to examine relationships; test predictions; and, ultimately, make better decisions. It is
available in three license levels—Basic, Standard, and Advanced (formerly ArcView®
,
ArcEditor™
, and ArcInfo®
, respectively). These license levels have the same integrated
applications, user interfaces, and development environment. Each successive level—
Basic to Standard to Advanced—provides additional GIS functionality.
Mapping
Map Interaction Basic Standard Advanced
Map Navigation
Pan, Zoom, and Rotate the Map ● ● ●
Find an X,Y (Latitude-Longitude) Location on a Map ● ● ●
Zoom to the Full Study Area of the Map ● ● ●
Zoom to the Extent of a Layer ● ● ●
Zoom to the Visible Scale of a Layer ● ● ●
Zoom to a Specific Map Scale ● ● ●
Use Spatial Bookmarks ● ● ●
Access Hyperlinks ● ● ●
Use Dynamic MapTips ● ● ●
Use Magnification Window ● ● ●
Interactively Reveal Areas beneath a Specific Layer (Swipe) ● ● ●
Save and Manage Locations for Use with Multiple Maps (My Places) ● ● ●
Create, Organize, and Share Spatial Bookmarks ● ● ●
Pan and Zoom the Map with the Mouse Wheel ● ● ●
Pan and Zoom to Selected Features ● ● ●
Switch Any Tool to a Pan/Zoom Tool Using Hot Keys ● ● ●
Create Hyperlink to External Application, Macro, or URL ● ● ●
Use Overview Window ● ● ●
Use Viewer Windows for Displaying Different Parts of a Map ● ● ●
Use Multiple Viewer Windows for Separate Data Frames ● ● ●
Queries
Identify Features in the Map ● ● ●
Interactively Measure Distances and Areas ● ● ●
Find Features in the Map ● ● ●
Find Places Using the ArcGIS
SM
Online World Gazetteer ● ● ●
Find North American and European Addresses Using ArcGIS Online ● ● ●
Find an Address by Using Local or Custom Locators ● ● ●
Show Related Data with Field Properties ● ● ●
View and Toggle Layer Selectability in Table of Contents ● ● ●
Select Data by Location ● ● ●
Select Data by Attribute ● ● ●
Interactively Select/Unselect Features ● ● ●
Unselect All, Switch the Selection, or Select All Features ● ● ●
Access Attribute Table and Layer Properties from Identify Dialog Box ● ● ●
8. J9707 8 February 2013
Map Interaction Basic Standard Advanced
Tables
Flash, Zoom to, Pan to, Select, and Identify Individual Features in a
Map Based on a Record in the Attribute Table
● ● ●
Interactively Highlight Selected Records/Features ● ● ●
Zoom to and Unselect Highlighted Records/Features ● ● ●
Interactively Add and Remove Records from a Selection ● ● ●
Copy Selected Records for Pasting into Other Applications ● ● ●
Turn Fields Off and On and Change Field Order and Size ● ● ●
Modify a Table's Appearance by Changing Cell and Field Size, Font,
and Color
● ● ●
Use Field Properties of Joined Tables ● ● ●
Reorder Fields ● ● ●
See Properties of Joins and Relates from Table Properties ● ● ●
Sort a Table by Multiple Fields ● ● ●
Drag Multiple Tables into the Table Window as Tabs ● ● ●
Create a Graph or Report ● ● ●
Find and Replace Attribute Values ● ● ●
Open Attachment Manager for Any Record (When Attachments Are
Enabled on the Layer)
● ● ●
Graphs
Plot Data from a Variety of Datasets in a Single Graph ● ● ●
Create 2D and 3D Graphs ● ● ●
Overlay Multiple Graphs in a Single Graph ● ● ●
Selections Automatically Propagate between Map, Table, and Graph ● ● ●
Graph Types
Horizontal and Vertical Bar, Line, and Area ● ● ●
Histogram Bar ● ● ●
Scatterplot ● ● ●
Scatterplot Matrix ● ● ●
Box Plot ● ● ●
Bubble ● ● ●
Polar ● ● ●
Pie ● ● ●
Routing Using ArcGIS Online or Network Datasets
(StreetMap
™
USA)
North American and European Point-to-Point Street Routing ● ● ●
Add Route Stops from Addresses and Existing Features and
Interactively Add Stops on the Map
● ● ●
Add Route Barriers from Addresses and Existing Features and
Interactively Add Stops on the Map
● ● ●
Snap Stops to Closest Address Using an Address Locator ● ● ●
Customize the Route for Quickest or Shortest Route ● ● ●
Reorder the Stops to Find the Fastest Route between Unordered
Stops
● ● ●
Modify Speed and Restriction Attributes of the Routing Service ● ● ●
Specify Trip Planning Timing (Start, Stop, Breaks, etc.) ● ● ●
Generate HTML Directions Using an Overview Map, Turn-by-Turn
Maps, and Vicinity Maps
● ● ●
9. J9707 9 February 2013
Map Display Basic Standard Advanced
General Mapping
Analyze Map for Potential Display Optimizations ● ● ●
Visualize the Map Page or a Specific Set of Data ● ● ●
Perform On-the-Fly Projection of All Data ● ● ●
Set Spatial Reference by Selection, Name Filter, or Spatial Filter ● ● ●
Set Custom/Compound Datum Transformation for Your Map Extent ● ● ●
Enable Full Cartographic Visualization of Any PMF File ● ● ●
Interactively Set Percent Transparency for All Data Layers ● ● ●
Legends Honor Layer Transparency ● ● ●
Set a Minimum and Maximum Scale to Display Data ● ● ●
Create Custom Relative Scales ● ● ●
Clip the Map Display to a Feature or Graphic ● ● ●
Create Graticules, Measured Grids, and Reference Grids ● ● ●
Create Extent Rectangles for Other Data
(Reference and Overview Maps)
● ● ●
Create Variable Depth Layer Masking ● ● ●
Convert Graphics (Point, Line, Polygon, Text) to Features ● ● ●
Create High-Performance Basemap Layers Computed Once for Any
Area
● ● ●
Add Data Menu Accesses Basemaps and Data from ArcGIS Online ● ● ●
Quick Pan Mode for Continuous Navigation of Basemap and
Accelerated Raster Layers
● ● ●
Tabular Data
Create On-the-Fly Dynamic Joins between Different Databases ● ● ●
Join Dialog Box Supports Join Validation prior to Execution ● ● ●
Create and Use Many-to-One and One-to-Many Relationships ● ● ●
Create Statistics ● ● ●
Summarize Data ● ● ●
Calculate Field Values of All or Selected Rows ● ● ●
Interactively Change the Visibility of Fields ● ● ●
Simplify Field Names with Field Aliases ● ● ●
Display Numeric Fields Formatted as Currency, Direction,
Percentage, etc.
● ● ●
Create Charts and Reports ● ● ●
Build Detailed Reports Using Esri®
Report Wizard ● ● ●
Connect to and Use Remote Database Tables ● ● ●
Display Tabular X,Y Point Data from a File or Table on a Map ● ● ●
Vector Data Display
Control Selection Color for Each Dataset ● ● ●
Create MapTips ● ● ●
Fix Symbology to a Specific Map Scale ● ● ●
Create a New Layer from a Selection ● ● ●
Control Which Features to Display Using a SQL Query ● ● ●
Control Which Data Fields Are Accessible from the Map ● ● ●
Thematic Vector Data Classifications
Single Symbol ● ● ●
Unique Value ● ● ●
Match to Predefined Style ● ● ●
Graduated Colors or Symbols ● ● ●
Proportional Symbols ● ● ●
10. J9707 10 February 2013
Map Display Basic Standard Advanced
Dot Density Mapping with Scale-Driven Density Management ● ● ●
Chart Mapping Including Pie and Bar Charts ● ● ●
Bivariate and Multivariate Data Rendering ● ● ●
Interactive Histogram for Data Classification ● ● ●
Symbology
Use Interactive Symbol Composer ● ● ●
Control Symbol Draw Order ● ● ●
Access More than 19,500 Predefined Symbols ● ● ●
Search for Symbols by Descriptive Tag ● ● ●
Add or Modify Symbol Search Tags ● ● ●
Use Halos and Advanced Background Symbols ● ● ●
Define Symbols for Fill, Lines, Outlines, and Points ● ● ●
User-Imported Picture Symbols (PNG, JPEG, GIF) ● ● ●
Elevation Surface Display
TIN Contour with Index Contours ● ● ●
TIN Face, Aspect, Elevation, Slope ● ● ●
Digital Elevation Model (DEM) Hillshade with Sun Position Control ● ● ●
DEM Shaded Relief Using Hillshade and Elevation ● ● ●
Terrain Contour with Index Contours ● ● ●
Terrain Face, Aspect, Elevation, Slope ● ● ●
DEM Elevation ● ● ●
Raster Data Display
Display Multiband Images by Assigning Color Values to the Bands ● ● ●
Display Raster Products from Image Sensor Raw Data and Metadata ● ● ●
Use Individual Band Settings ● ● ●
Display Each Unique Value with a Discrete Color ● ● ●
Display Image Values Using a Color Map ● ● ●
Display Multiband Raster Data Using Color Values ● ● ●
Save Current Display Statistics ● ● ●
Control Raster Display Contrast and Brightness ● ● ●
On-the-Fly Orthorectification ● ● ●
On-the-Fly Panchromatic Sharpening ● ● ●
On-the-Fly Hillshade Effect for Elevation Data ● ● ●
Display Raster Catalog Tiles as a Time Series ● ● ●
Import Renderer or Statistics from Another Layer ● ● ●
Display Raster Values While Navigating the Map with MapTips ● ● ●
Display Raster Resolution in Map Table of Contents ● ● ●
Apply and Edit Raster Function Chains ● ● ●
Accelerated Display Mode for Raster Layers ● ● ●
Raster Display: Gradual Color Ramp Data-
Stretching Algorithms
Standard Deviations ● ● ●
Histogram Equalize ● ● ●
Interactive Histogram ● ● ●
Minimum–Maximum ● ● ●
Custom ● ● ●
None ● ● ●
Esri Stretch (Modified Sigmoid) ● ● ●
11. J9707 11 February 2013
Map Display Basic Standard Advanced
Raster Panchromatic Sharpening
Bovey ● ● ●
Esri ● ● ●
Gram-Schmidt ● ● ●
IHS (Intensity Hue Saturation) ● ● ●
Simple Mean ● ● ●
Raster Display Statistics
Based on the Entire Raster Dataset ● ● ●
Based on the Display Extent ● ● ●
Based on a Custom Extent ● ● ●
Based on an Automated Sampling of Pixels ● ● ●
Raster Display Resample Methods
Nearest Neighbor ● ● ●
Bilinear Interpolation ● ● ●
Cubic Convolution ● ● ●
Majority ● ● ●
Raster Display Classification Methods
Manual Interval ● ● ●
Equal Interval ● ● ●
Defined Interval ● ● ●
Quantile Interval ● ● ●
Natural Breaks (Jenks) ● ● ●
Geometrical Interval ● ● ●
Standard Deviation ● ● ●
Raster Catalog Footprint Display
Footprints Only ● ● ●
Selected Footprints ● ● ●
Raster Tools
Pixel Inspector ● ● ●
Swipe Layer Tool ● ● ●
Image Analysis Window ● ● ●
Time Animation and Temporal Data
Create Time Series, Layer Transition, or Map Navigation Animation ● ● ●
Animate Data Change with Tabular (Charts), Vector, Raster Catalog,
and NetCDF Data
● ● ●
Export Animations as Sequential Images ● ● ●
Create Video from Sequential Images ● ● ●
View Temporal Data with the Time Slider ● ● ●
View Live Temporal Data in Real Time ● ● ●
Page Layout and Printing Basic Standard Advanced
Map Elements
Title ● ● ●
Text ● ● ●
Neatlines ● ● ●
Legend (May be Dynamically Generated from Features in the Map) ● ● ●
North Arrows ● ● ●
12. J9707 12 February 2013
Page Layout and Printing Basic Standard Advanced
Scale Bar (May Be Multiple Scales with a Common Zero Anchor) ● ● ●
Scale Text ● ● ●
Pictures ● ● ●
OLE Objects ● ● ●
Measured Reference Grid ● ● ●
Graticules ● ● ●
Export Formats
Enhanced Metafile (EMF) ● ● ●
Windows Bitmap (BMP) ● ● ●
Encapsulated PostScript (EPS) ● ● ●
Tagged Image File Format (TIFF) ● ● ●
Portable Document Format (PDF) ● ● ●
Joint Photographic Experts Group (JPEG) ● ● ●
Portable Network Graphics (PNG) ● ● ●
Graphic Interchange Format (GIF) ● ● ●
Scalable Vector Graphics (SVG) ● ● ●
Adobe Illustrator (AI) ● ● ●
PostScript Color Separates (with Page Marks) ● ● ●
Print with the Following Print Drivers
Windows ● ● ●
PostScript ● ● ●
ArcPress™
HP RTL (RGB, CMYK, and Monochrome) ● ● ●
ArcPress Epson Universal ● ● ●
ArcPress HP Universal ● ● ●
Process Print Jobs on the Local Machine for Faster Printing ● ● ●
Publishing and Sharing Maps and Data Basic Standard Advanced
Creating High-Performance Dynamic Maps
Analyze Maps for Errors, Unsupported Content, Performance Tips ● ● ●
Create Basemap Layers for Static Background Data ● ● ●
Preview Your Maps and Estimated Rendering Time ● ● ●
Publish a Map to ArcGIS for Server1
● ● ●
Sharing Maps, Layers, and Data
Consolidate Layers, Maps, Locators, or Results2
into a Folder ● ● ●
Create a Layer Package File ● ● ●
Upload a Layer Package File to ArcGIS Online and Share It ● ● ●
Extract a Layer Package ● ● ●
Create a Map Package File ● ● ●
Upload a Map Package File to ArcGIS Online and Share It ● ● ●
Extract a Map Package ● ● ●
Share a Map as a Service3
to an Enterprise1
or Cloud4
Server ● ● ●
Search for Maps, Data, and Tools in Local, Enterprise1
, or Cloud4
Sources
● ● ●
Share Map Tile Caches to Local, Enterprise1
, or Cloud4
Users ● ● ●
1
Requires ArcGIS for Server
2
Geoprocessing Results
3
Feature Service or Cached Map Tile Service
4
ArcGIS Online, Portal for ArcGIS, or Cloud-Hosted ArcGIS for Server Instance
13. J9707 13 February 2013
Publishing and Sharing Analysis Basic Standard Advanced
Sharing Geoprocessing
Create and Share5
Geoprocessing Results as Packages ● ● ●
Create and Share5
Geoprocessing Results as Services ● ● ●
Sharing Geocoding
Create and Share5
Locator Packages ● ● ●
5
Share locally or to an ArcGIS Online or Portal for ArcGIS Instance.
Automating Map Workflows Basic Standard Advanced
Using the ArcPy™ Mapping Module
Export and Print Maps ● ● ●
Manage Documents and Layers ● ● ●
Create and Manage Map Series and Books ● ● ●
Export Reports ● ● ●
Create and Analyze Map Service Definitions ● ● ●
Convert Web Map JSON to Map Document ● ● ●
Map Text Basic Standard Advanced
Labels
Set Default Label Engine and Font Name for Your Map Document ● ● ●
Creating Dynamic On-the-Fly Labels ● ● ●
Automatic Conflict Detection and Label Placement ● ● ●
Label Placement Rules for Setting Priority between Layers ● ● ●
Placement Rules for Setting Importance of Labels vs. Features ● ● ●
Many Predefined Label Styles (e.g., Highway Shields) ● ● ●
Labels Rotate from an Attribute Field ● ● ●
Multiple Dynamic Labeling Schemes Built for Each Map Layer ● ● ●
Control Which Features in a Layer Display Labels ● ● ●
Advanced Text Formatting Tags for Dynamic Label Symbology ● ● ●
Add Logic to Label Expressions with JScript, Python, and VBScript ● ● ●
Annotation
Use Interactive Label Tools (Callout, Label, Spline, and Paragraph
Text)
● ● ●
Create Text Annotation Data from Labels ● ● ●
Annotation Editing
Interactively Move, Rotate, and Scale Annotation ● ● ●
Add Horizontal or Angled Annotation ● ● ●
Add Annotation with a Leader Line ● ● ●
Create Annotation That Follows a Curved Line or the Shape of an
Existing Feature
● ● ●
Dynamically Pull Annotation Values from Layers in the Map ● ● ●
Interactively Manage Annotation That Could Not Be Placed during
Initial Annotation Creation
● ● ●
Edit Each Word in an Annotation String Independently ● ● ●
Interactively Stack and Unstack Annotation ● ● ●
14. J9707 14 February 2013
Map Text Basic Standard Advanced
Flip Annotation Strings ● ● ●
Interactively Modify the Curvature and Orientation of a Line ● ● ●
Edit the Symbology of a Single Annotation Feature or a Group of
Annotation Features Simultaneously
● ● ●
Annotation and Dimensions Management
Store Annotation in a Geodatabase or a Map Document ● ● ●
Create Annotation Subclasses ● ● ●
Create Aligned Dimensions Displaying the True Distance between
Points
● ●
Create Linear Dimensions Displaying Horizontal, Vertical, or an
Angled Distance between Points
● ●
Create and Edit Feature-Linked Annotation Feature Classes in a
Geodatabase
● ●
Advanced Labeling6
Basic Standard Advanced
Advanced Label Placement Rule Set
Create Advanced Labels ● ● ●
Advanced Python Expression Parser ● ● ●
Street Placement ● ● ●
Customizable Dynamic Stacking ● ● ●
Font Reduction ● ● ●
Customizable Abbreviation and Label White Space Management ● ● ●
Polygon Boundary Placement ● ● ●
Repeated Labeling ● ● ●
Character Spreading ● ● ●
Word Spreading for Polyline and Polygon Labels ● ● ●
Label Overrun on Features ● ● ●
Curved Polygon Placement ● ● ●
Graticule Labeling Alignment ● ● ●
User-Defined Point Label Zones ● ● ●
Background Labeling ● ● ●
Land Parcel Placement ● ● ●
Advanced Feature Weighting ● ● ●
Advanced Label Offsets ● ● ●
Advanced Line Label Positions ● ● ●
Advanced Curved Label Placement ● ● ●
Watermark-Style Background Labels ● ● ●
Geologic Strike and Dip Symbology ● ● ●
Asian Vertical Text Metric Support ● ● ●
Polygon Hole Avoidance for Callouts ● ● ●
Polygon Zone (Internal, External) Placement ● ● ●
Long Boundary Label Repetition ● ● ●
Logically Continuous Feature (Street, River, Contour) Placements ● ● ●
Label Fitting by Key Numbering into an Overflow Table ● ● ●
6
Advanced labeling functionality is available with the Maplex®
Label Engine, which was optional in previous versions of ArcGIS but is
now included in ArcGIS for Desktop.
15. J9707 15 February 2013
Advanced Cartography Basic Standard Advanced
Cartographic Editing Tools
Store Multiple Representations of GIS Features in a Geodatabase
for Use in a Variety of Map Products
● ●
Create Rules That Dynamically Manipulate the Geometry and
Symbology of a Feature (Representation Rules)
● ●
Share Representation Rules through Style Files ● ●
Change the Shape or Symbology for a Single Feature without
Changing the GIS Data It Represents
● ●
Define Feature Visibility and Transparency for Each Feature or
Based on an Attribute
● ●
Mask Individual Features or Parts of Features without Masking All
Features in a Layer
● ●
Dynamically Place Point Symbols along Lines or Polygons ● ●
Dynamically Modify the Geometry That Is Displayed for a Feature
(Geometric Effects)
● ●
Point Geometric Effects
Buffer ● ●
Radial from Point ● ●
Regular Polygon ● ●
Line Geometric Effects
Add Control Points ● ●
Arrow ● ●
Buffer ● ●
Cut ● ●
Dashes ● ●
Enclosing Polygon ● ●
Extension ● ●
Jog ● ●
Move ● ●
Offset ● ●
Offset Tangent ● ●
Reverse ● ●
Rotate ● ●
Scale ● ●
Simplify ● ●
Smooth ● ●
Suppress ● ●
Tapered Polygon ● ●
Wave ● ●
Polygon Geometric Effects
Add Control Points ● ●
Buffer ● ●
Cut ● ●
Dashes ● ●
Donut ● ●
Enclosing Polygon ● ●
Move ● ●
Offset ● ●
Rotate ● ●
Scale ● ●
16. J9707 16 February 2013
Advanced Cartography Basic Standard Advanced
Simplify ● ●
Smooth ● ●
Wave ● ●
Interactive Symbol Editing
Use the Marker Editor to Edit the Characteristics of a Point Symbol ● ●
Edit the Entire Representation or a Small Portion of One or More
Representations
● ●
Move an Entire Symbol ● ●
Move Line Symbols Parallel ● ●
Tool Dialog Boxes Accept Multiple Units of Measurement ● ●
Add, Delete, or Move Symbol Vertices ● ●
Modify the Geometric Effects of a Symbol: Line Width, Hatch Size ● ●
Move Linear Geometries Parallel ● ●
Reshape and Move a Feature to Align One Specified Point with
Another (Warp)
● ●
Erase All or Part of a Symbol ● ●
Resize a Feature Symbol by Resizing Its Bounding Box ● ●
Resize a Feature and Its Geometric Effects Simultaneously Using a
Ratio
● ●
Rotate Feature Symbols Interactively or by a Specific Angle ● ●
Orient a Symbol to a Specific Angle ● ●
Reshape Symbols with Bézier Curves ● ●
Specify Locations along a Symbol Where a Pattern Must Apply
(Control Points)
● ●
WYSIWYG Feedback ● ●
Geoprocessing Graphic Quality
Detect Graphic Conflict ●
Propagate Displacement ●
Resolve Building Conflicts ●
Resolve Road Conflicts ●
Geoprocessing Masking Tools
Cul-de-Sac Masks ●
Feature Outline Masks ●
Intersecting Layers Masks ●
Geoprocessing Representation Management
Add Representation ● ●
Calculate Representation Rule ● ●
Drop Representation ● ●
Remove Override ● ●
Select Feature by Override ● ●
Set Layer Representation ● ●
Update Override ● ●
Geoprocessing Symbolization Refinement
Align Marker to Stroke or Fill ●
Calculate Grid Convergence Angle ●
Calculate Line Caps ●
Calculate Polygon Main Angle ●
Create Overpass ●
Create Underpass ●
17. J9707 17 February 2013
Advanced Cartography Basic Standard Advanced
Disperse Markers ●
Set Representation Control Point at Intersect ●
Set Representation Control Point by Angle ●
Address Matching Basic Standard Advanced
Geocoding Tools
Geocoding Toolbar for Locator Management and Use ● ● ●
Single Line Input for ArcGIS 10.x Locators ● ● ●
Geocode Single or Batch Addresses ● ● ●
Find Address within Current Map Extent ● ● ●
Real-Time Batch Geocoding Match Rate Feedback ● ● ●
Use Tools for Processing Result Sets, Including Custom Queries ● ● ●
Use ArcGIS for Server for Server-Based Geocoding ● ● ●
Use Multiple Geocoding Locators per Data Source ● ● ●
Geocode Using Alternate Street Names, Intersection, or Place-Name
Aliases
● ● ●
Aggregate Multiple Geocoding Locators into a Single Geocoding
Locator (Composite Locator)
● ● ●
Distribute Geocoding Locators without the Reference Data ● ● ●
Edit Runtime Properties with Address Locator Properties Dialog ● ● ●
Address Inspector Finds Address by Map Click ● ● ●
Drag Locators into ArcMap™
from the Catalog Window ● ● ●
Built-in Dataless Military Grid Reference System (MGRS) Locator ● ● ●
Create Dynamic Features from Geocoded Locations ● ●
ArcGIS Online Locators
North American Locator Service ● ● ●
European Locator Service ● ● ●
World Places Gazetteer Locator Service ● ● ●
Geoprocessing
Consolidate Locator ● ● ●
Create Address Locator ● ● ●
Create Composite Address Locator ● ● ●
Geocode Addresses ● ● ●
Package Locator ● ● ●
Reverse Geocode Point Features ● ● ●
Rebuild Address Locator ● ● ●
Rematch Addresses ● ● ●
Standardize Addresses ● ● ●
18. J9707 18 February 2013
Data Support and Interoperability
Raster Data Support Basic Standard Advanced
Direct Read of Raster Data
AIRSAR Polarimetric ● ● ●
Applanix DSS ● ● ●
ARC Digitized Raster Graphics (ADRG) ● ● ●
Band Interleaved by Line (Esri BIL), Band Interleaved by Pixel (Esri
BIP), or Band Sequential (Esri BSQ)
● ● ●
Bathymetric Attributed Grid (BAG) ● ● ●
Big TIFF ● ●
Binary Terrain (BT) ● ● ●
Bitmap, Device Independent Bitmap (DIB) Format, or Microsoft
Windows Bitmap
● ● ●
BSB Nautical Charts ● ● ●
Committee on Earth Observing Sensors (CEOS) SAR ● ●
Compressed ARC Digitized Raster Graphics (CADRG) ● ● ●
Controlled Image Base (CIB) ● ● ●
Digital Geographic Information Exchange Standard (DIGEST), ARC
Standard Raster Product (ASRP), or Universal Transverse Mercator
(UTM)/Universal Polar Stereographic (UPS) Standard Raster
Product (USRP)
● ● ●
Digital Image Map (DIMAP) ● ● ●
Digital Terrain Elevation Data (DTED) Levels 0, 1, and 2 ● ● ●
Earth Resources Laboratory Applications Software (ELAS) ● ● ●
Enhanced Compression Raster Graphic (ECRG) ● ● ●
Enhanced Compression Wavelet (ECW) ● ● ●
Envisat Image Product (ESAT) ● ● ●
ENVI Header Format ● ● ●
EOSAT FAST (FST) ● ● ●
ER Mapper's ECW ● ● ●
ERDAS 7.5 GIS, 7.5 LAN, and RAW ● ● ●
Extensible N-Dimensional Data Format (NDF) ● ● ●
Floating Point Raster (FLT) ● ● ●
FORMOSAT-2 ● ● ●
Geospatial Data Abstraction Library (GDAL) Virtual Format (VRT) ● ● ●
GeoEye Satellite ● ● ●
Grid Exchange File (GXF) ● ● ●
Gridded Binary Format (GRIB) ● ● ●
Golden Software Format (GSAG, GSBG, GS7GB) ● ● ●
Golden Software Grid (GRD) ● ● ●
Hierarchical Data Format (HDF) –4, Including Subdatasets ● ● ●
Heightfield Raster (HF2) ● ● ●
HGT ● ● ●
High-Resolution Elevation (HRE) ● ● ●
IDRISI Raster Format (RST) ● ● ●
IKONOS Satellite ● ● ●
ILWIS Raster Map ● ● ●
Image Display and Analysis (IDA) ● ● ●
Image Service (from ArcGIS for Server) ● ● ●
Image Service Definition (ISDef) ● ● ●
19. J9707 19 February 2013
Raster Data Support Basic Standard Advanced
Image Service Reference (ISRef) ● ● ●
Intergraph Raster Files: CIT™
Binary Data; COT™
Grayscale Data ● ● ●
Integrated Software for Imagers and Spectrometers (ISIS) ● ● ●
Japanese Aerospace Exploration Agency (1.1 GUD, 1.5 GUD) ● ● ●
KOMPSAT-2 ● ● ●
Landsat Satellites (1–7) ● ● ●
LAS (Lidar Data Files) ● ● ●
LAS Dataset ● ● ●
Magellan MapSend (BLX/XLB) ● ● ●
Match-AT ● ● ●
MAP ● ● ●
Map Service (from ArcGIS for Server or ArcGIS.com) ● ● ●
Multi-Resolution Seamless Image Database (MrSID) Generations 2,
3, and 4
● ● ●
MrSID (MG4) Lidar ● ● ●
National Imagery Transmission Format (NITF), Including
Subdatasets
● ● ●
National Land Archive Production System (NLAPS) ● ● ●
National Oceanic and Atmospheric Administration (NOAA) GTX
Vertical Datum Shift
● ● ●
New Labeled US Geological Survey (USGS) Digital Orthophoto
Quadrangle (DOQ2)
● ● ●
NOAA Polar Orbiter Level 1b Dataset (AVHRR) ● ● ●
Oracle Spatial GeoRaster7
● ● ●
OrbView-3 Satellite ● ● ●
PCI .aux Labeled Raw Format (PAux) ● ● ●
PCI Geomatics PCIDSK (PIX)8
● ● ●
Planetary Data System (PDS)—National Aeronautics and Space
Administration (NASA) (IMG/LBL)
● ● ●
Portable Network Graphics ● ● ●
QuickBird Satellite ● ● ●
PCRaster (MAP)8
● ● ●
RADARSAT-2 ● ● ●
RapidEye Satellite ● ● ●
Raster Catalog ● ● ●
Raster Process Definition (RPDef) ● ● ●
Raster Product Format (RPF) ● ● ●
SAGA GIS Binary Grid ● ● ●
Sandia Synthetic Aperture (GFF) ● ● ●
Shuttle Radar Topography Mission (SRTM) ● ● ●
Spatial Data Transfer Standard (SDTS) ● ● ●
SPOT Satellites ● ● ●
Tables ● ● ●
Tagged Image File Format (TIFF) ● ● ●
Terragen Terrain (TER/TERRAIN) ● ● ●
Terrain ● ● ●
TerraSAR-X ● ● ●
USGS ASCII Digital Elevation Model8
● ● ●
USGS DOQ ● ● ●
Web Coverage Service (WCS; Open Geospatial Consortium, Inc.
[OGC] Standard)
● ● ●
20. J9707 20 February 2013
Raster Data Support Basic Standard Advanced
Web Map Service (WMS, OGC Standard) ● ● ●
WorldView Satellites ● ● ●
XPixMap (XPM)8
● ● ●
Direct Read and Write of Raster Data
ERDAS IMAGINE ● ● ●
Esri Grid, Grid Stack, and Grid Stack File ● ● ●
Geodatabase Raster9
● ● ●
Graphic Interchange Format (GIF) ● ● ●
Joint File Interchange Format (JFIF) ● ● ●
Joint Photographic Experts Group ● ● ●
JPEG 2000 (JP2) ● ● ●
Portable Network Graphics ● ● ●
Tagged Image File Format (GeoTIFF tags are supported.) ● ● ●
Oracle Spatial GeoRaster7 ● ●
Geodatabase Raster Management
Create and Edit Raster Attribute Tables for All Supported Single
Band Raster Formats9 ● ● ●
Create and Manage Rasters in Personal and File Geodatabases ● ● ●
Compress Geodatabase Rasters with LZ77, JPEG, or JPEG 2000
Compression Algorithms9 ● ● ●
Create and Manage Raster Data in a Multiuser Geodatabase ● ●
Create Raster Mosaics ● ●
7
Oracle Spatial GeoRaster requires the data to be registered with the geodatabase or created using ArcGIS for Desktop.
8
These formats can be written to through programming with the ArcObjects™
API.
9
Basic can only create geodatabase rasters or raster attribute tables in personal or file geodatabases. Standard and Advanced can
create and manage geodatabase rasters in personal, file, and multiuser geodatabases.
Document and Data Support Basic Standard Advanced
Map and Symbology Files
Read Published Map Files (from ArcGIS Publisher) ● ● ●
Create and Edit Map Documents (MXD) ● ● ●
Save Layer Files (LYR) and Map Documents (MXD) in ArcGIS 8.3,
9, 9.1, 9.2, 9.3, or 10 Format
● ● ●
Use Map Documents (MXD) to Standardize Maps ● ● ●
Import ArcView 3.x ArcView Legend (AVL) Files ● ● ●
Direct Read of Vector and Raster Data
Personal Geodatabase for Microsoft®
Access™
● ● ●
File Geodatabase ● ● ●
Personal, Workgroup, and Enterprise Geodatabases ● ● ●
Shapefiles ● ● ●
ArcInfo Coverages ● ● ●
PC ARC/INFO™
Coverages ● ● ●
Smart Data Compression (SDC) Data ● ● ●
Vector Product Format (VPF) Data ● ● ●
ArcGIS for Server Services ● ● ●
ArcIMS®
Services ● ● ●
ArcGIS for Server Feature Services ● ● ●
OGC WCS ● ● ●
21. J9707 21 February 2013
Document and Data Support Basic Standard Advanced
OGC WMS ● ● ●
OGC GML Simple Features Access10
● ● ●
OGC GML Simple Features Import/Export10
● ● ●
OGC GML Web Feature Service Access for Simple Features-Based
Services10 ● ● ●
Network Common Data Form (NetCDF) ● ● ●
Direct Editing of Vector Data
Personal Geodatabase ● ● ●
File Geodatabase ● ● ●
Shapefiles ● ● ●
ArcSDE®
for SQL Express and Enterprise Geodatabases ● ●
ArcGIS for Server Feature Services ● ●
Direct Read of Other Data
Geodatabase Terrains ● ● ●
Microsoft Excel Worksheets ● ● ●
Esri TIN ● ● ●
dBASE (DBF) ● ● ●
Text (TXT, CSV) ● ● ●
Esri INFO Files ● ● ●
Query Layers Defined in a DBMS with SQL ● ● ●
Database Connections ● ● ●
Microsoft Access ● ● ●
Coordinate Systems
More than 800 Predefined Geographic Coordinate Systems ● ● ●
More than 4,800 Predefined Projected Coordinate Systems ● ● ●
More than 130 Predefined Vertical Coordinate Systems ● ● ●
Ability to Create and Use Custom Coordinate Systems ● ● ●
10
These features require the installation of the ArcGIS Data Interoperability extension, but a license for this extension is not required.
CAD Support Basic Standard Advanced
CAD File Support
Autodesk Drawing Exchange Format (DXF) ● ● ●
AutoCAD Drawing File (DWG) ● ● ●
MicroStation Design Files (DGN, etc.) ● ● ●
Mapping Specification for CAD—Import from CAD ● ● ●
Mapping Specification for CAD—Export to CAD ● ● ●
Direct Read of CAD Data
Display CAD Features and Annotation Based on CAD File's Display
Properties
● ● ●
Display Block Attributes and Tags as CAD Annotation Features ● ● ●
Display Entire CAD Drawing or Individual CAD Features by
Geometric Type and Definition Query
● ● ●
Override CAD Symbology with Standard ArcGIS Display Tools ● ● ●
Control CAD Layer Visibility ● ● ●
Access CAD Entity Properties and Attributes through a CAD Feature
Attribute Table
● ● ●
Directly Use CAD Data for Display, Query, Analysis, or
Geoprocessing
● ● ●
22. J9707 22 February 2013
CAD Support Basic Standard Advanced
Editing with CAD Data
Copy and Paste CAD Features Directly into Other GIS Feature
Classes
● ● ●
Snap to CAD Data While Editing ● ● ●
CAD Features Save Directly to GIS Feature Classes ● ● ●
Coordinate Systems
Select and Save Coordinate System Definitions with CAD Data ● ● ●
Graphically Align CAD Data with Other GIS Data and Store the
Transformation Definition (Georeferencing)
● ● ●
Geoprocessing—See Geoprocessing Conversion
Application Framework
Application Customization Basic Standard Advanced
Application Look and Feel
Dockable/Floating Toolbars ● ● ●
Dockable and Auto Hiding Windows ● ● ●
Unicode Support for Multilanguage Attributes ● ● ●
Installations for Chinese, Japanese, French, German, Spanish
Languages
● ● ●
Complies with Microsoft Windows Display Settings ● ● ●
Layer (LYR) Files Registered in Windows to ArcGIS Applications ● ● ●
Customization
Drag and Drop to Rearrange Tools/Toolbars ● ● ●
Add Geoprocessing Tools to Any Menu ● ● ●
Create New Toolbars or Menus without Programming ● ● ●
Extend the Applications with Add-ins Built with .NET, Java, or Python ● ● ●
Build New ArcGIS Components with .NET or Java and the
ArcObjects SDK
● ● ●
Script Analysis, Conversion, Data Management, and Map
Automation with Python
● ● ●
Data Automation
Data Editing Basic Standard Advanced
General Editing
Simultaneously Edit Multiple Layers ● ● ●
Use Feature Templates to Predefine Editing Tasks per Layer ● ● ●
Perform Unlimited Undo/Redo Operations ● ● ●
Integrate with ArcPad®
for Field Editing ● ● ●
Provide Digitizer Support for Devices with Wintab-Compliant Drivers ● ● ●
Make Measurements Using Any Units, Including Custom Units ● ● ●
Optionally Scale Features When Individual Vertices Are Moved ● ● ●
Automatically Correct Ground Measures Appropriately in the GIS ● ● ●
Multiple Snap Environments Available ● ● ●
23. J9707 23 February 2013
Data Editing Basic Standard Advanced
Dockable Snapping Toolbar Makes It Quick and Easy to Control
Snapping While Editing
● ● ●
SnapTips Give Feedback on Snap Agent Used ● ● ●
Optionally Snap to Basemap Layers ● ● ●
Simple Editing of Multipatch (3D) Features ● ● ●
Snapping Types
Edge ● ● ●
End ● ● ●
Intersection ● ● ●
Midpoint ● ● ●
Point ● ● ●
Tangent ● ● ●
Vertex ● ● ●
Snapping to Topology Elements
Topology Nodes ● ● ●
Snapping Tolerance
By Pixels ● ● ●
By Map Units ● ● ●
Interactively ● ● ●
Geometry Construction Options
Constrain the Next Segment by Direction ● ● ●
Constrain the Next Segment with a Deflection Angle from Last
Segment
● ● ●
Constrain the Next Segment by Length ● ● ●
Specify an Exact X,Y Location ● ● ●
Specify an X,Y Difference from the Last Vertex ● ● ●
Constrain the Next Segment to Be Parallel to the Last Segment ● ● ●
Constrain the Next Segment to Be Perpendicular to the Last
Segment
● ● ●
Constrain the Next Segment Based on an Angle from an Existing
Feature Segment in the Map
● ● ●
Create Geometry from Existing Features in the Map ● ● ●
Create a Curve Tangent to the Last Segment ● ● ●
Finish a Polygon by Generating Perpendicular Segments from the
First and Last Segment
● ● ●
Flip the Orientation of the Geometry ● ● ●
Trim Geometry to a Specific Length ● ● ●
Geometry Creation Tools
Point and Click On-Screen Digitizing ● ● ●
Use Stream Digitizing ● ● ●
Autocomplete Construction (Polygon Border, Freehand Curve) ● ● ●
Create Freehand Bézier Splines ● ● ●
Add a Coordinate Based on an Angle from One Location and a
Distance from Another
● ● ●
Add a Coordinate Based on the Implied Intersection of Two
Segments
● ● ●
Add a Coordinate in Decimal Degree (DD, DMS, DDM) Format ● ● ●
Construct a Bézier Curve ● ● ●
Construct a True Circular Curve ● ● ●
Construct a Tangent Curve ● ● ●
24. J9707 24 February 2013
Data Editing Basic Standard Advanced
Construct Rectangles and Circles ● ● ●
Add a Coordinate Based on a Distance from Two Known Locations ● ● ●
Add a Coordinate at the Midpoint between Two Known Locations ● ● ●
Add Coordinates along Existing Coordinates ● ● ●
Create a Curved Line at the Intersection of Two Existing Lines (Fillet) ● ● ●
Feature Manipulation Tasks
Create Features Using New Geometry ● ● ●
Create New Polygons Using the Geometry of Existing Features
(Autocomplete Polygons)
● ● ●
Reshape Existing Features ● ● ●
Cut Polygon Features ● ● ●
Create Mirror Copies of Existing Features ● ● ●
Extend or Trim Existing Features ● ● ●
Split Existing Lines at Their Explicit or Implicit Intersection ● ● ●
Add, Delete, Interactively Move, or Modify the Coordinate Values for
Vertex Locations of Existing Features
● ● ●
Feature Editing Tools
Move, Rotate, Delete, Copy, and Paste ● ● ●
Split a Line at a Distance or Percentage ● ● ●
Divide a Line Based on a Distance, a Number of Segments, or a
Measure Value (M-Coordinate)
● ● ●
Buffer Features ● ● ●
Copy Lines Parallel to Their Existing Location ● ● ●
Merge Existing Features ● ● ●
Create New Features by Merging Features in the Same or Another
Layer (Union)
● ● ●
Create New Features from the Buffer of Existing Features ● ● ●
Create New Polygons by Intersecting Existing Feature Classes ● ● ●
Clip One or More Polygons with Another Polygon ● ● ●
Extend and Trim Lines with Other Features in the Map ● ● ●
Align to Edge or Shape ● ● ●
Replace Geometry ● ● ●
Attribute Editing
Modify Each Selected Row Individually or as a Group (Attributes
Dialog)
● ● ●
Copy Attributes to One or More Rows Simultaneously ● ● ●
Calculate Attribute Values Using Scripts (Field Calculator) ● ● ●
Calculate Attribute Values from a Feature's Geometric Properties
(Calculate Geometry)
● ● ●
Validate Attribute Values Using Rules Defining Valid Values
(Domains)
● ● ●
Enter Attributes for New Feature as They Are Created ● ● ●
Edit Attributes in the Attributes or Table Window ● ● ●
Use Navigation Shortcuts in the Attribute Window ● ● ●
Multipart Features (Point, Line, and Polygon)
Add and Delete Parts ● ● ●
Zoom to Parts ● ● ●
Add, Delete, and Edit Vertex Locations ● ● ●
Create Separate Features from Each Part (Explode) ● ● ●
25. J9707 25 February 2013
Data Editing Basic Standard Advanced
Map Navigation While Editing
Zoom to Feature Vertices ● ● ●
Zoom to Feature Parts ● ● ●
Pan and Zoom to Unplaced Annotation or the Feature Associated
with the Unplaced Annotation
● ● ●
Continuous Pan/Zoom ● ● ●
Vector Data Transformations
Rubber Sheeting Transformation ● ● ●
Affine Transformation ● ● ●
Similarity Transformation ● ● ●
Projective Transformation ● ● ●
Edgematching Transformation ● ● ●
Transfer Accurate Attributes from Features with Inaccurate
Geometry to Features with Accurate Geometry (Conflation)
● ● ●
Copy Feature Geometry from One Location/Layer to a New
Location/Layer
● ● ●
Generalization
Smooth Line Features ● ● ●
Simplify the Shape of Line Features (Generalize) ● ● ●
Coordinate Geometry
Automatically Modify Field Measures to the GIS (Ground to Grid)
with Interactive Tools or by Specifying an Offset and Scale
● ●
Create Fields to Store Coordinate Geometry (COGO) Measurements ● ●
Add New Features by Specifying Courses along a Traverse ● ●
Create Two-Point Line Features with a Variety of Curve and Straight-
Line Construction Methods
● ●
Create New Lines from a Strip Description (Offset Line) ● ●
Construct Symmetrical or Asymmetrical Cul-de-Sacs from a Street
Centerline
● ●
Split a Line at Specific Intervals (Proportion) ● ●
Merge Multiple Straight Lines into a Single Two-Point Line with
Updated COGO Attributes
● ●
Populate COGO Measurements from the Geometry of a Feature
(Inverse)
● ●
Examine COGO Characteristics of Existing Features (COGO Report) ● ●
Calculate All Missing Measurements of a Curve from Any Two
Measurements
● ●
Compare Measured Polygon Area with Legal Polygon Area (COGO
Area)
● ●
Split Existing Lines into COGO Lines ● ●
Parcel Editing
Create Parcel Fabric Features ● ●
Perform Least-Squares Adjustment of Parcel Fabric Features ● ●
Adjust Associated Layers ● ●
26. J9707 26 February 2013
Raster Editing and Vectorization11
Basic Standard Advanced
Vectorize All Raster Formats Supported in ArcGIS
1-Bit Raster Data ● ● ●
8-Bit Raster Data (with Bilevel Classification Applied) ● ● ●
ArcGIS Integration
Vectorization into Any Editable Vector Dataset ● ● ●
Seamless Integration with Vector Data Editing Environment ● ● ●
Raster Snapping Geometry
Centerline ● ● ●
Corner ● ● ●
Intersection ● ● ●
Ends ● ● ●
Solid ● ● ●
Raster Snapping Environment
Available to All Editor Sketch Tools ● ● ●
Snap to Raster Linear Feature of Specified Width or Less ● ● ●
Snap to Solids within Specified Diameter ● ● ●
Ignore Holes in Data While Snapping ● ● ●
Vectorization Tracing
Interactively Trace Raster Lines ● ● ●
Ignore Holes in Raster Linear Features ● ● ●
Automatic Vectorization
Vectorize Entire Raster ● ● ●
Vectorize Specific Raster Area ● ● ●
Simultaneously Capture Line and Polygon Vectors ● ● ●
Vectorization Parameters
Vectorize Raster Lines Less than or Equal to Specified Width ● ● ●
Reduce Vectors (Compression) on Creation ● ● ●
Smooth Vectors on Creation ● ● ●
Jump Gaps (Dashes) within Raster ● ● ●
Use Variable Methods for Resolving Intersections ● ● ●
Save and Load Parameters ● ● ●
Vectorization Preview
Use Dynamic Vectorization Preview ● ● ●
Change Preview Symbology ● ● ●
Raster Cell Selection
Select Foreground or Background Cells ● ● ●
Select Connected Cells Interactively ● ● ●
Select Connected Cells by Count ● ● ●
Select Connected Cells by Diagonal Area ● ● ●
Raster Cleanup Environment
Undo/Redo Raster Cleanup Operations ● ● ●
Erase or Fill Selected Cells ● ● ●
Save Selected Cells to New Raster ● ● ●
27. J9707 27 February 2013
Raster Editing and Vectorization11
Basic Standard Advanced
Raster Cleanup Painting Tools
Brush ● ● ●
Erase ● ● ●
Basic Shapes (Line, Square, Ellipse, and Polygon) ● ● ●
Erase Connected Cells ● ● ●
Support Tools
Discover Raster Line Width ● ● ●
Discover Raster Solid Diameter ● ● ●
11
The vectorization functionality is available in ArcMap through ArcScan™
, which can be enabled from the Customize > Extensions
menu.
Mobile Basic Standard Advanced
GPS Support
Display Real-Time Location Points from a GPS Receiver ● ● ●
Dynamically Center the Map on the Current GPS Point ● ● ●
Store GPS Locations in a Log File ● ● ●
Filter by GPS Input by Time, Distance, or Deflection ● ● ●
Tablet PC
Export Ink Markups to ArcMap ● ● ●
Support Windows XP Tablet PC Edition ● ● ●
Edit Features or Graphics with a Stylus ● ● ●
Use Ink Gestures to Perform Common Mapping Tasks ● ● ●
Annotate the Map with Redlining and Highlighting Tools ● ● ●
Find Handwritten Notes within the Map ● ● ●
Convert Redlining Handwriting to Text ● ● ●
ArcGIS Mobile Support
Create Mobile Map ● ● ●
Synchronize Mobile Cache ● ● ●
Multiuser Geodatabase Editing Basic Standard Advanced
General Editing
Multiple Editors Can Simultaneously Edit the Same Feature Classes
in a Multiuser Geodatabase
● ●
Isolate Editing Projects in Separate Versions (Create Version)
Enabling a Variety of Workflows
● ●
Merge Versions (Reconcile and Post) ● ●
Manage Conflicts between Editors by Row or Column ● ●
Manage Conflicts between Editors Interactively or Automatically ● ●
Delete Versions ● ●
Simultaneously View and Edit Versioned GIS Data in ArcGIS and
Non-ArcGIS Applications
● ●
Administration Geoprocessing
Modify Data Privileges for Data in a Multiuser Geodatabase ● ●
Migrate Storage ● ●
Register SDE™
Data with the Geodatabase ● ●
Clean Up Versioning Tables (Compress) ● ●
Add and Remove Tables and Feature Class from the Versioning
Environment (Register and Unregister as Versioned)
● ●
28. J9707 28 February 2013
Multiuser Geodatabase Editing Basic Standard Advanced
Versioning Geoprocessing
Alter Version ● ●
Change Version ● ●
Create Version ● ●
Create Versioned View ● ●
Delete Version ● ●
Post Version ● ●
Reconcile Versions ● ●
Register as Versioned ● ●
Unregister as Versioned ● ●
Short Transaction Editing
Edit Nonversioned Simple Features ● ●
Create Features and Enter Attributes for That Feature within a Single
Database Transaction
● ●
Multiuser Geodatabase Archiving Basic Standard Advanced
Display and Query
View the Geodatabase at a Specific Point in Time ● ● ●
Query Archived Data Directly ● ● ●
Manage
Enable and Disable Archiving for a Table or Feature Class ● ●
Create Saved Views of the Geodatabase at a Specific Point in Time ● ●
Distributed Geodatabases Basic Standard Advanced
Manage Replicas
Create Replicas of Vector and Raster Data Using a Filter ● ●
Create and Manage Checkout/Check-in, One-Way, or Two-Way
Geodatabase Replicas
● ●
Synchronize Connected Replicas ● ●
Exchange Edits between Disconnected Replicas with an XML, ZIP,
Z, or Geodatabase Delta File
● ●
Compare Schemas between Replicas ● ●
Exchange Schema Changes between Replicas ● ●
Generate a Feature Class Containing the Rectangular Extent of a
Replica
● ●
Disconnected Editing Geoprocessing
Check In ● ●
Check Out ● ●
Check In from Delta ● ●
Export to Delta ● ●
Distributed Geodatabases Geoprocessing
Add Global IDs ● ●
Compare Replica Schema ● ●
Create Replica ● ●
Create Replica from Server ● ●
Create Replica Footprints ● ●
Export Acknowledgment Message ● ●
Export Data Change Message ● ●
29. J9707 29 February 2013
Distributed Geodatabases Basic Standard Advanced
Export Replica Schema ● ●
Export XML Workspace Document ● ●
Import Message ● ●
Import Replica Schema ● ●
Import XML Workspace Document ● ●
Reexport Unacknowledged Messages ● ●
Synchronize Changes ● ●
Spatial Referencing Image Data
(Georeferencing)12
Basic Standard Advanced
Tools
Shift, Flip, Rotate, or Fit Image to Display ● ● ●
Interactively Specify From and To Control Points ● ● ●
Save and Load Control Points with Error and Accuracy Information ● ● ●
Transformation Methods
First-, Second-, and Third-Order Polynomial ● ● ●
Adjust ● ● ●
Spline ● ● ●
Save Spatial Reference Information
Create a New Dataset (Rectify) ● ● ●
Save Reference Information with the Image ● ● ●
12
Spatial referencing of rasters stored in an ArcSDE®
workspace requires the Standard or Advanced license level.
Data Management and Validation
Data Management Basic Standard Advanced
General
Manage GIS Data and All Associated Files from a Single Tree View
Application (ArcCatalog™
)
● ● ●
Manage GIS Data and All Associated Files from the Catalog Window
in ArcMap
● ● ●
Manage Raster Datasets and Raster Catalogs in a Personal
Geodatabase
● ● ●
Create Single-User (Personal or File) Geodatabase Feature Classes ● ● ●
Create Shapefiles ● ● ●
Administer ArcGIS for Server ● ● ●
Connect to Multiuser Geodatabases or Databases Using Operating
System or Database Authentication
● ● ●
Search for Maps, Data, and Tools
By Author ● ● ●
By Name ● ● ●
By Type ● ● ●
By Path ● ● ●
By Keyword Tag ● ● ●
By Spatial Extent ● ● ●
From Enterprise and Cloud Search Services ● ● ●
30. J9707 30 February 2013
Data Management Basic Standard Advanced
Manage Coverage Data
Add/Modify Tic Locations ● ●
Set Coordinate System ● ●
Change the Data Extent ● ●
Create Coverage Relationship Classes ● ●
Create a New Coverage ● ●
Create a New INFO File ● ●
Modify Coverage Tolerances ● ●
Geodatabase and Database Administration
Use a Database Connection to Read Spatial and Tabular Data ● ● ●
Create a Query Layer ● ● ●
Create a Database Connection to Any Supported Database ● ● ●
Delete or Rename Tables in a Database Connection ● ● ●
Add, Delete, or Rename Fields in a Database Connection ● ● ●
Create and Load Vector Data into a Multiuser Geodatabase or
Database
● ●
Create and Load Raster Data into a Multiuser Geodatabase ● ●
Create Users or Roles for a Database Connection ● ●
Grant or Revoke Privileges to Users or Groups in a Connection ● ●
Create a Database View ● ●
Create Tables/Feature Classes That Store Custom Objects/Features ● ●
Analyze Datasets to Update RDBMS Statistics for GIS Data ● ●
Geodatabase XML File Import/Export
Export and Import XML (Binary or Normalized) ● ●
ZIP (Compressed Text File with 4 GB File Size Limit) ● ●
Z (Compressed Text File with No File Size Limit) ● ●
Attribute Validation Basic Standard Advanced
Subtypes Geoprocessing
Add Subtype ● ● ●
Remove Subtype ● ● ●
Set Default Subtype ● ● ●
Set Subtype Field ● ● ●
Domains Geoprocessing
Add Coded Value to Domain ● ● ●
Assign Domain to Field ● ● ●
Create Domain ● ● ●
Delete Coded Value from Domain ● ● ●
Delete Domain ● ● ●
Domain to Table ● ● ●
Remove Domain from Field ● ● ●
Set Value for Range Domain ● ● ●
Sort Coded Value Domain ● ● ●
Table to Domain ● ● ●
Create and Edit Relationships for Features
One-to-One ● ●
One-to-Many ● ●
Many-to-Many ● ●
31. J9707 31 February 2013
Attribute Validation Basic Standard Advanced
Specify Cardinality Rules for Relationships ● ●
Store Attributes for Relationships ● ●
Enable Attachments for a Feature Class (Multimedia Support) ● ●
Create and Edit Attachments for a Feature Class ● ●
Geodatabase Relationship Behavior
Moving a Feature Moves the Related Feature ● ●
Deleting One Feature Deletes the Related Feature ● ●
Relationship Class Geoprocessing
Create Relationship Class ● ●
Table to Relationship Class ● ●
Topology Basic Standard Advanced
Map Display
Display a Summary of the Errors and Exceptions in the Topology ● ● ●
Display the Feature Classes and Rules in the Topology ● ● ●
Display Errors, Exceptions, and Dirty Areas in the Map ● ● ●
Editing
Construct and Edit Topologies Created from Layers in the Map13
● ● ●
Move Topological Edges and Nodes13
● ● ●
Show or Select Adjacent or Connected Features13
● ● ●
Reshape Shared Edges between Features13
● ● ●
Modify the Coordinates of Shared Edges or Nodes13
● ● ●
Split Shared Edges at a Specific Point, Distance, or Percentage
along the Edge13 ● ● ●
Move Edges and Nodes to a Specific Location13
● ● ●
Shift Edges and Nodes Based on an Offset from Their Current
Location13 ● ● ●
Merge Connected Edges13
● ● ●
Control Which Adjacent or Connected Features Move When a
Shared Edge or Node Is Moved13 ● ● ●
Create/Split Polygons from Lines or Create Lines from Polygons ● ●
Split Lines Where They Intersect ● ●
Validate a Specific Area or the Entire Topology ● ●
Search for Errors of a Specific Type within One Area or the Entire
Topology
● ●
Inspect Errors by Zooming, Panning, or Selecting the Features ● ●
Geodatabase Topology Rule Violation
Fix Operations
Delete Features ● ●
Subtract Features ● ●
Create Features ● ●
Merge Features ● ●
Snap Features ● ●
Extend Lines ● ●
Trim Lines ● ●
Split Lines ● ●
Explode Features ● ●
Simplify Features ● ●
32. J9707 32 February 2013
Topology Basic Standard Advanced
Geodatabase Topology Management
Create and Manage Geodatabase Topology ● ●
Add or Remove Individual Feature Classes in a Topology ● ●
Add or Remove a Rule in a Topology ● ●
Specify a Hierarchy for Vertex Snapping during Topology Creation ● ●
Change the Rank of a Feature Class in a Topology ● ●
Geodatabase Topology Rules
Polygons Contain Points ● ●
Polygon Contains One Point ● ●
Polygons Must Not Overlap ● ●
Polygons Must Not Have Gaps ● ●
Polygons Must Not Overlap with Polygons in Another Feature Class ● ●
Polygons Must Be Covered by One Polygon in Another Feature
Class
● ●
Polygons Must be Covered by One or More Polygons in Another
Feature Class
● ●
Polygons from Two Feature Classes Must Cover Each Other ● ●
Polygon Boundaries Must Be Covered by Lines of Another Feature
Class
● ●
Polygon Boundaries Must Be Covered by the Boundaries of
Polygons in Another Feature Class
● ●
Lines Must Not Overlap ● ●
Lines Must Be Inside ● ●
Lines Must Be Single Part ● ●
Lines Must Not Self-Overlap ● ●
Lines Must Not Overlap with Lines in Another Feature Class ● ●
Lines Must Not Have Dangles ● ●
Lines Must Not Have Pseudonodes ● ●
Lines Must Not Intersect ● ●
Lines Must Not Intersect With ● ●
Lines Must Not Self-Intersect ● ●
Line Endpoints Must Be Covered by Points of Another Feature Class ● ●
Lines Must Be Covered by Polygon Boundaries of Another Feature
Class
● ●
Lines Must Not Intersect or Touch Interior With ● ●
Lines Must Be Covered by Lines of Another Feature Class ● ●
Points Must Be Coincident With ● ●
Points Must Be Covered by Lines of Another Feature Class ● ●
Points Must Be Disjoint ● ●
Points Must Be Inside Polygons ● ●
Points Must Be Covered by the Endpoints of Lines ● ●
Points Must Be Covered by the Boundary of Polygons of Another
Feature Class
● ●
Geoprocessing
Export Topology Errors ● ● ●
Add Feature Class to Topology ● ●
Add Rule to Topology ● ●
Create Topology ● ●
Remove Feature Class from Topology ● ●
Remove Rule from Topology ● ●
33. J9707 33 February 2013
Topology Basic Standard Advanced
Set Cluster Tolerance ● ●
Validate Topology ● ●
13
Only available with simple features in map-based topologies
Networks Basic Standard Advanced
Utility (Geometric) Network Analysis
Trace Upstream ● ● ●
Trace Downstream ● ● ●
Determine Flow Direction of Edges ● ● ●
Find Common Ancestors ● ● ●
Find Connected or Disconnected Network Features ● ● ●
Find Loops in Network ● ● ●
Find Disconnected Network Features ● ● ●
Find Path ● ● ●
Find Shortest Path Using Weighting ● ● ●
Find Path Upstream ● ● ●
Find Upstream Accumulation ● ● ●
Isolate a Point on the Network ● ● ●
Data Management
Create and Manage Utility Networks ● ●
Create Complex Edge Features That Maintain Connectivity without
Splitting the Feature
● ●
Geometric Network Connectivity Rules
Edge—Junction ● ●
Edge—Edge via Junction ● ●
Geometric Network Editing
Connect and Disconnect Network Features ● ●
Enable and Disable Network Features ● ●
Set Flow Direction for a Network ● ●
Verify, Repair, and Rebuild Connectivity in a Network ● ●
Verify the Geometry of Network Features ● ●
Review and Repair Network Creation Errors ● ●
Linear Referencing (Routes) Basic Standard Advanced
Display
Find and Display Dynamic Segmentation Events (Point, Linear, and
Continuous) on Routes
● ● ●
Editing
Interactively Modify M-Coordinate Values ● ● ●
Interactively Drop M-Coordinates ● ● ●
Create Routes for Selected Lines Using the Length of the Features,
a Field Value, or Specific From and To Measures
● ● ●
Edit a Portion of a Line without Affecting the Measures on the Rest of
the Line
● ● ●
Adjust One Route Using Points along the Routes (Calibrate) ● ● ●
Calculate Measures Using From and To Measures for a Line ● ● ●
Set the Digitized Direction of the Line to Match Measure Values ● ● ●
Calculate Measures Based on Length of Line ● ● ●
34. J9707 34 February 2013
Linear Referencing (Routes) Basic Standard Advanced
Drop All the Measures for a Line ● ● ●
Calculate Unknown Measures Using Interpolation Based on Existing
Measures
● ● ●
Add a Value to All Measures on a Line ● ● ●
Multiply All Measures on a Line by a Factor ● ● ●
Add a Vertex at a Specific Measure ● ● ●
Geoprocessing
Make Route Event Layer ● ● ●
Create Routes ● ● ●
Calibrate Routes (Adjust All Route Measures Using Points along the
Routes)
● ● ●
Dissolve Route Events ● ● ●
Locate Features along Routes ● ● ●
Overlay Route Events ● ● ●
Transform Route Events ● ● ●
Metadata Basic Standard Advanced
General
Automatically or Manually Generate Metadata for All Items ● ● ●
Import/Export Metadata ● ● ●
Export Metadata to ISO 19139 ● ● ●
Export Metadata to Federal Geographic Data Committee (FGDC)
Content Standard for Digital Geospatial Metadata (CSDGM)
● ● ●
Create XML Files for Metadata Templates ● ● ●
Managing Metadata Using a Variety of Styles
Item Description ● ● ●
Infrastructure for Spatial Information in Europe (INSPIRE) Metadata
Directive
● ● ●
ISO 19139 Metadata Implementation Specification ● ● ●
North American Profile of ISO 19139 2003 ● ● ●
Geoprocessing
Esri Metadata Translator ● ● ●
Export Metadata ● ● ●
Export Metadata Multiple ● ● ●
Import Metadata ● ● ●
Metadata Importer ● ● ●
Metadata Publisher ● ● ●
Synchronize Metadata ● ● ●
Upgrade Metadata ● ● ●
Validate Metadata ● ● ●
Validate Metadata Multiple ● ● ●
USGS MP Metadata Translator ● ● ●
XML Schema Validation ● ● ●
XSLT Transformation ● ● ●
35. J9707 35 February 2013
Data Manipulation and Analysis
Coverage Geoprocessing14
Basic Standard Advanced
Application Framework
Full-Featured Management and Analysis Environment for ArcInfo
Coverage Data Format (All Tools Require that ArcInfo Workstation
Be Installed and Licensed)
●
Analysis
Clip ●
Select ●
Split ●
Erase ●
Identity ●
Intersect ●
Union ●
Update ●
Buffer ●
Near ●
Point Distance ●
Point Node ●
Thiessen ●
Conversion
Export to DLG ●
Export to Interchange File ●
Export to S57 ●
Export to SDTS ●
Export to VPF ●
Ungenerate ●
Advanced TIGER Conversion ●
Basic TIGER Conversion ●
Generate ●
Import from DLG ●
Import from Interchange File ●
Import from S57 ●
Import from SDTS ●
Import from VPF ●
Aggregation
Append ●
Composite Features
Line Coverage to Region ●
Line Coverage to Route ●
Polygon Coverage to Region ●
Region to Polygon Coverage ●
Generalization
Aggregate Polygons ●
Simplify Building ●
Collapse Dual Lines to Centerline ●
Dissolve ●
Eliminate ●
36. J9707 36 February 2013
Coverage Geoprocessing14
Basic Standard Advanced
Find Conflicts ●
Simplify Line or Polygon ●
Table Management
Drop Index ●
Index Item ●
Add Item ●
Drop Item ●
Join Info Tables ●
Add X,Y Coordinates ●
Renumber Nodes ●
Update IDs ●
Projections
Define Projection ●
Project ●
Transform ●
Topology
Build ●
Clean ●
Create Labels ●
VPF File Topology ●
General
Create Coverage ●
Tolerance ●
14
Coverage geoprocessing tools require the installation of ArcInfo Workstation 10.
Geoprocessing Basic Standard Advanced
Environment
String Together Geoprocessing Tools Using a Visual
Development Environment (ModelBuilder™
)
● ● ●
Use Python Window to Run Geoprocessing Tools and ArcPy
Functions
● ● ●
Use Toolboxes Tree in ArcCatalog or Catalog Window ● ● ●
Use ArcToolbox™
Window ● ● ●
Use Search Window to Find Tools ● ● ●
Use My Toolboxes Geoprocessing Tool View ● ● ●
Create and Share New Geoprocessing Tools Using Models,
Scripts, or Python Toolboxes
● ● ●
Save Tools in a Geodatabase or on the File System ● ● ●
Display the Results and Intermediate Data from a Model in a
Map
● ● ●
Execute Tools, Models, and Scripts Multiple Times with
Different Inputs in One Operation (Batch Processing)
● ● ●
Build Looping Models Using Model Iterators ● ● ●
Supported Scripting Environments
C++ ● ● ●
JavaScript ● ● ●
Perl ● ● ●