Get started with ArcGIS for Aviation

ArcGIS for Aviation provides a comprehensive solution for the aviation industry to address challenges and inefficiencies in aviation data, products, workflow, quality control. We are also addressing the challenges faced by the aviation industry, such as demand for more products, reduction of investment budget, dynamic list of standards, and drastic change of information.

The main purpose of ArcGIS for Aviation is to effectively manage aviation information, products and integrated workflows, generate standards-compliant navigation products, comply with top quality operational data and airport regulatory requirements It is to secure.

Manage aviation information in the central geodatabase and generate multiple products in the enterprise environment

Securely access, manage, and share datasets in an enterprise environment and provide accessibility and scalability to multiple users

We use a logically designed aeronautical data model to organize features, attributes, metadata, symbol rules, tag attributes, and data consistency checks into a geodatabase.

Use the same data for traditional products, on-demand products, 3D visualization, and other web services

Use complicated ArcGIS Pro toolset and GIS tool suite for information editing, visualization (drawing), and analysis

Simplify aviation data editing operations reflected in all related products using custom editing tools

Support for FAA and international data standards You can easily extend your geodatabase to meet the needs of current and future airport businesses.

ArcGIS for Aviation includes tools that take advantage of preconfigured data quality checks to support domestic and international industry standards. These tools automatically perform data checks to ensure that the data is accurate and compliant. It helps to ensure that operational data is of the highest quality and meets airport regulatory requirements.

You can visualize the data in 2D and 3D to gain new insight into the operational infrastructure of the airport associated with the surrounding environment. Integrate and analyze complex 3D airspace management issues to support planning and risk mitigation activities

ArcGIS for Aviation: Airports allows you to make more informed decisions using airport basemap, 3D visualization, and operational support content.

Product files of supported specifications are available as additional ArcGIS Pro downloads from My Esri under data and content as downloads.

ArcGIS for Aviation is part of the ArcGIS system designed to solve problems and improve the efficiency of private, military and civilian airlines, airports, consultants and affiliates. This allows organizations to manage aviation data, products, services, workflow, and quality. This system is extremely efficient in creating and maintaining aviation data based on industry standards to support charting, airspace analysis, airport management, and compliance.

ArcGIS for Aviation is part of a complete system for managing data, products, workflow, quality. It is an ArcGIS Desktop extension that is tightly integrated with other extensions such as ArcGIS Server and desktop ArcGIS Data Interoperability extensions, ArcGIS Spatial Analyst extensions, ArcGIS 3D Analyst extensions, and ArcGIS Workflow Manager for Desktop. ArcGIS for Aviation includes bundled supplementary components such as Esri Production Mapping Tool, ArcGIS Data Reviewer for Desktop, and Task Assistant Manager. These components together provide a comprehensive solution to the aviation industry on aviation industry data, products, workflow, quality control challenges and inefficiencies. ArcGIS for Aviation solves the challenges faced by the aviation industry, such as demand for more products, reduced operating budget, dynamic list of standards, and significant changes in information.

In this tutorial we will show examples of functions available in ArcGIS for Aviation extensions. It consists of three exercises and a set of samples. The first exercise explains how to use the automatic data quality control check. In the second exercise, we will explain creating an obstacle recognition surface (OIS). In the third exercise, I will explain the process of analyzing OIS failure data.