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Simulations of Continuous Descent Operations with arrival-management automation and mixed Flight-Deck Interval Management equipage  (2013)
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Air traffic management simulations conducted in the Airspace Operations Laboratory at NASA Ames Research Center have addressed the integration of trajectory-based arrival-management automation, controller tools, and Flight-Deck Interval Management avionics to enable Continuous Descent Operations (CDOs) during periods of sustained high traffic demand. The simulations are devoted to maturing the integrated system for field demonstration, and refining the controller tools, clearance phraseology, and procedures specified in the associated concept of operations. The results indicate a variety of factors impact the concept's safety and viability from a controller's perspective, including en-route preconditioning of arrival flows, useable clearance phraseology, and the characteristics of airspace, routes, and traffic-management methods in use at a particular site. Clear understanding of automation behavior and required shifts in roles and responsibilities is important for controller acceptance and realizing potential benefits. This paper discusses the simulations, drawing parallels with results from related European efforts. The most recent study found en-route controllers can effectively precondition arrival flows, which significantly improved route conformance during CDOs. Controllers found the tools acceptable, in line with previous studies.
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arrival, automation, Continuous, Deck, Descent, equipage, Flight, Interval, Management, management, mixed, Operations, Simulations
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Proceedings of the 10th USA/Europe Air Traffic Management Research and Development Seminar, Chicago, June
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Adobe PDF Icon  ATM2013_Callantine_Final.pdf (Download Acrobat Reader Click to download Adobe Acrabat Reader)
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Curator: Phil So
NASA Official: Jessica Nowinski
Last Updated: August 15, 2019