+ Contact NASA
	+ Home Related Links + Technical Seminar Series + People: ARMD + Honors and Awards + Aeronautics in the News		Watch Live: The seminars are held in the James L. Webb Auditorium at NASA Headquarters and broadcast live on the NASA TV Education Channel on the date of each seminar. Watch Later: Video podcast, windows streaming, and downloadable captioned videos are available after each seminar. Concept and Laboratory Analysis of Trajectory-Based Automation for Separation Assurance in the National Airspace System January 16, 2007 / 11 a.m. ET Presented By: Mr. David McNally A safe and efficient air traffic management system is vital to the nation's economy. Demand for air traffic operations is expected to grow by a factor of two or three over the next 20 years. Today's operating concept, however, where air traffic controllers ensure safe separation primarily through visual and cognitive analysis of radar traffic displays, will not support a substantial increase in traffic volume. The Next Generation Air Transportation System addresses this problem through the introduction of higher levels of automation based on four-dimensional trajectory modeling and analysis, emerging flight deck avionics, and reliable air/ground and air/air data communications. In response to this initiative, an operating concept and a laboratory analysis methodology were developed and tested to examine how four-dimensional trajectory analysis methods could support higher levels of automation for separation assurance in the National Airspace System. Real-time simulations were conducted in which a human controller generated conflict resolution trajectories using an automated trial planning resolution function, but only in response to conflicts detected and displayed by an automatic trajectory-based conflict detection function. Visual scanning for traffic conflicts, which is central to today's operations and a major contributor to controller workload, was not used. Objective metrics were developed to compare aircraft separation characteristics and flying time efficiency under automated operations to that of today's operations using common airspace and traffic scenarios. Simulations were based on recorded air traffic data from Fort Worth and Cleveland Centers and conducted using today's and nearly two-times today's traffic levels. Results suggest that a single controller using trajectory-based automation and data link communication of control clearances to aircraft could manage substantially more traffic than they do now with improved route efficiency while maintaining separation. The simulation and analysis capability provides a basis for further analysis of semi-automated, or fully automated, separation assurance concepts. + See Full Technical Seminar Series Schedule
	Ciencia@NASA Earth Observatory Greatest Images of NASA Human Spaceflight Web Mars Exploration NASA Education Program NASA History NASA Image Exchange NASA Technology Planetary Photojournal Science@NASA Aeronautics Education Exploration Systems Science Missions Space Operations Headquarters Ames Research Center Dryden Flight Research Center Glenn Research Center Goddard Space Flight Center Jet Propulsion Laboratory Johnson Space Center Kennedy Space Center Langley Research Center Marshall Space Flight Center Stennis Space Center + USA.gov - The U.S. government's official web portal. + Freedom of Information Act + Budgets, Strategic Plans and Accountability Reports + The President's Management Agenda + Privacy Policy and Important Notices + Inspector General Hotline + Equal Employment Opportunity Data Posted Pursuant to the No Fear Act + Information-Dissemination Priorities and Inventories Editor: Karen Rugg NASA Official: Tony Springer Last Updated: February 2, 2007 + Contact NASA