Collapse all Welcome to ArcGIS Desktop Help Copyright information Acknowledgements GIS Dictionary

What's new in ArcGIS

Getting started

Fundamentals of GIS Introducing ArcGIS Desktop Tutorials Toolbars Getting more help

Map projections and coordinate systems

Getting started with map projections An overview of map projections Projection basics the GIS professional needs to know About the geoid, ellipsoid, spheroid and datum, and how they are related Identifying an unknown coordinate system Converting Degrees Minutes Seconds values to Decimal Degree values Geographic coordinate systems About geographic coordinate systems Spheroids and spheres Datums North American datums What happens to features at +/-180 (dateline)? GCS_Assumed_Geographic_1 Projected coordinate systems Geographic transformations Supported map projections List of supported map projections Aitoff Alaska Grid Alaska Series E Albers Equal Area Conic Azimuthal Equidistant Behrmann Equal Area Cylindrical Bipolar Oblique Conformal Conic Bonne Cassini-Soldner Chamberlin Trimetric Craster Parabolic Cube Cylindrical Equal Area Double Stereographic Eckert I Eckert II Eckert III Eckert IV Eckert V Eckert VI Equidistant Conic Equidistant Cylindrical Equirectangular Fuller Gall's Stereographic Gauss-Krüger Geocentric Coordinate System Geographic Coordinate System Gnomonic Goodes Homolosine Great Britain National Grid Hammer-Aitoff Hotine Oblique Mercator Krovak Lambert Azimuthal Equal Area Lambert Conformal Conic Local Cartesian Projection Loximuthal McBryde-Thomas Flat-Polar Quartic Mercator Miller Cylindrical Mollweide New Zealand National Grid Orthographic Perspective Plate Carrée Polar Stereographic Polyconic Quartic Authalic Rectified Skewed Orthomorphic Robinson Simple Conic Sinusoidal Space Oblique Mercator State Plane Coordinate System Stereographic Times projection Transverse Mercator Two-Point Equidistant Universal Polar Stereographic Universal Transverse Mercator Van der Grinten I Vertical Near-Side Perspective Winkel I Winkel II Winkel Tripel Vertical coordinate systems

Mapping and visualization

Editing and data compilation

Tables and attribute information

Geoprocessing

What is geoprocessing? A whirlwind tour of geoprocessing Geoprocessing tools Geoprocessing framework Frequently Asked Questions about geoprocessing Fundamental tool concepts Using geoprocessing tools Automating your work with models An overview of models Opening ModelBuilder Creating a simple model Saving a model Model concepts and terms Using ModelBuilder Controlling the flow of processing Model Iteration Automating your work with scripts Geoprocessing environments Documenting tools and toolboxes Sharing tools and toolboxes An overview of sharing tools and toolboxes Methods for distributing tools Pathnames explained: Absolute, relative, UNC, and URL A structure for sharing tools Sharing and connecting to UNC pathnames Accessing ArcSDE data in tools Techniques for sharing Python scripts Managing intermediate data in shared models Sharing stylesheets Checklist for sharing tools and toolboxes Geoprocessing with ArcGIS Server Keeping track of geoprocessing history An overview of geoprocessing history History log files Geoprocessing history in metadata Advanced modeling through simulations

Geoprocessing tool reference

Geodatabases and ArcSDE

An overview of the geodatabase Architecture of a geodatabase Architecture of a geodatabase Geodatabase storage is based on relational principles Where does the application logic belong? The geodatabase is object-relational Geodatabase storage in relational databases Geodatabase transaction management Geodatabase XML Designing a geodatabase An overview of geodatabase design Geodatabase design steps Using ArcGIS Data Model designs Documenting your geodatabase design Modeling feature classes A note about the use of UML for geodatabase design Design Tips Building a geodatabase Creating a geodatabase Defining the properties of a geodatabase Adding datasets and other geodatabase elements Working with geodatabase datasets Data management workflows, transactions, and versioning Geodatabase data storage and schema A short history lesson on simple features How geodatabases are stored in a DBMS Feature geometry and raster data storage Inside a geodatabase in DB2 Inside a geodatabase in Informix Inside a geodatabase in Oracle Inside a geodatabase in PostgreSQL Inside a geodatabase in SQL Server Administering ArcSDE geodatabases Administering File and Personal geodatabases Working with geodatabases using SQL An overview of working with ST_Geometry storage using SQL Spatial relationships Spatial operations Geometry properties SQL implementation differences for the ST_Geometry type Using spatial types with SQL SQL functions reference

Data management with ArcCatalog

Image and raster data management

Understanding raster data Supported raster data Supported raster dataset file formats Technical specifications for raster dataset formats About the ESRI Grid format About MrSID rasters BIL, BIP, and BSQ raster files Raster data with subdatasets Building a customized raster format Properties of raster data Designing a raster database Design methodology for a raster database Why store rasters in a geodatabase Example raster case studies including the storage decisions Raster datasets as attributes More details about rasters in ArcGIS Building and managing a raster database Raster display and visualization Displaying rasters Adding a raster dataset to a map Adding a raster catalog to a map Saving a raster dataset or catalog layer file About setting default raster display options Choosing which raster formats can be viewed Setting the default bands to display multiband rasters Displaying the raster's spatial resolution Georeferencing a raster dataset Georeferencing video sample Orthorectifying a raster dataset About projecting raster datasets on the fly Improving the display of raster data Color correcting using raster data Working with the histogram when displaying raster data Changing the appearance of background values Symbolizing values of NoData in raster datasets Interactively viewing pixel values using the Pixel Inspector Interactively reveal rasters using the Swipe Layer tool Panchromatic sharpening Performance tuning for displaying raster data Raster analysis and geoprocessing Serving raster data Serving raster data

Data support in ArcGIS

An overview of data support in ArcGIS Data formats supported in ArcGIS CAD data Coverages NetCDF: multidimensional, time series data Shapefiles Terrains

Extensions

About ArcGIS Desktop extensions Evaluating ArcGIS Desktop extensions 3D Analyst Data Interoperability About the Data Interoperability help system An overview of Data Interoperability Key concepts of the Data Interoperability extension Using the Data Interoperability tools Common tasks using Data Interoperability Using the Data Interopability tools ArcGIS for AutoCAD What is ArcGIS for AutoCAD? Who should use ArcGIS for AutoCAD Installation What is ArcGIS Online? Map service layers Feature class layers Coordinate systems Customization Tutorial Troubleshooting ArcGIS Publisher ArcScan Getting started with ArcScan Interactive vectorization Automatic vectorization Cell selection Raster cleanup Vectorization options and settings ArcSketch Business Analyst Geostatistical Analyst JTX Overview of JTX Using JTX Configuring JTX Administering JTX Maplex Military Analyst Military Overlay Editor About MOLE What's new in this release Installation and setup Accessing the Installing and Getting Started with Defense Solutions guide MOLE documentation and additional ways to get help Using MOLE with 2D maps Using MOLE with 3D maps The MOLE geodatabase schema Using MOLE in terrain analysis Tracking, real-time, and MOLE Using MOLE with ArcSDE Using MOLE with ArcIMS Other ESRI applications compatible with MOLE Advanced topics Frequently asked questions Network Analyst Getting started with Network Analyst Network dataset concepts Designing the network dataset Building and editing the network dataset Performing network analysis Migrating to ArcGIS Network Analyst Network Analyst tools reference PLTS Welcome to PLTS for ArcGIS What's new in PLTS for ArcGIS Getting started with Foundation Production procedures Managing map documents with the product library Creating a geodatabase Editing data in PLTS Symbolizing data Validating data with GIS Data ReViewer Generating grids with the Grid Manager Creating map series with MPS-Atlas Working with PLTS cartographic elements Creating map series with Map Production System Geoprocessing tools in PLTS for ArcGIS PLTS for ArcGIS Aeronautical Solution PLTS for ArcGIS Defense Solution PLTS for ArcGIS Nautical Solution PLTS for ArcGIS product specification development Schematics Spatial Analyst Survey Analyst Tracking Analyst

Geocoding and address management

Getting started with geocoding An overview of geocoding Definition of the address locator Understanding geocoding What is an address? The geocoding work flow The geocoding framework The process of geocoding Customization of the address locator Common geocoding tasks Preparing for geocoding Building an address locator Locating addresses The geocoding process Finding an individual address Getting an address of a location Geocoding a table of addresses Rematching a geocoded feature class Additional geocoding techniques Keeping an address locator current Distributing your address locator Deciding to share an address locator Collecting address locators Making your address locator public Accessing distributed address locators Sharing pre-9.2 address locators Adjusting your address locator file About StreetMap data About StreetMap data

Linear referencing

Network analysis

Mobile GIS

Interoperability and standards support

Customizing and developing with ArcGIS

Guide to data that comes with ArcGIS

Licensing and desktop administration

GIS Servers and services