A Cockpit Display A Cockpit Display Designed to Enable Designed to Enable Limited Flight Deck Limited Flight Deck Separation Separation Responsibility Responsibility Walter W. Johnson & Vernol Battiste NASA Ames Research Center Sheila Holland Bochow San Jose State University Presented By: Vernol Battiste
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A Cockpit Display Designed to Enable Limited Flight Deck Separation Responsibility Walter W. Johnson & Vernol Battiste NASA Ames Research Center Sheila.
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A Cockpit Display Designed to A Cockpit Display Designed to Enable Limited Flight Deck Enable Limited Flight Deck Separation ResponsibilitySeparation Responsibility
Walter W. Johnson & Vernol BattisteNASA Ames Research Center
Sheila Holland Bochow
San Jose State University
Presented By: Vernol Battiste
OutlineOutline
• Goal of the display design
• Display and Functions
• Full mission simulation: display evaluation
• Crew perspective and comments
• Conclusions
GoalGoal
• A goal of the cockpit situation display (CSD) design is to present a combined cockpit display of traffic, conflict alerting, and flight path re-planning system which facilitates cockpit flight path re-planning and coordinating with ATC.
Display Features:• Position and intent of
ownship and traffic• Predictive Information• Clutter management
• Modification of current route profile at any waypoint– Heading
– Speed
– Altitude
• Display synchronization to support intra-cockpit comm. • Route modifications sent to ATC for approval via FMS/FANS
protocol
Predictor ToolPredictor Tool
• Present future aircraft’s position in minutes ahead– Static
– Pulse
• Relative and absolute altitude tags• Aircraft Identification (full data blocks)• Smart Tags• Routes off
Example of altitude change resolutionExample of altitude change resolution
Waypoint Names•Flight Plan•ARAT
Example of Lateral resolution maneuverExample of Lateral resolution maneuver
Simulation Study ObjectivesSimulation Study Objectives• To assess the value of 4/D intent information (flight plans)
for flight crews performing strategic self separation during en route free flight operations.
• To obtain display usage measures for the various display tools.
• To obtain flight crew feedback on utility (effectiveness and workload) of specific display features and overall display design.
• *** To obtain measures of flight crew / ATC coordination
• *** To obtain measures of effectiveness of procedures emphasizing low and high ATC responsibility
ApproachApproach
• 10 Boeing 747 flight crew flew 8 en route scenarios incorporating climbing, descending, and level encounter geometries. The encounters reflected both “true” and “apparent” conflicts.
• The flights were conducted in an ATC super sector (FL350 and above covering two regular Oakland sectors) manned by an FPL
controller from the areas of interest.
• The flight crew’s task was to maintain vertical (1000ft) and lateral separation, by re-planning their flight trajectory and submitting
changes to ATC for approval.
ProceduresProcedures
• All flight plan changes/maneuvers required coordination and concurrence with ATC via datalink and voice
• Flight crews attempted to optimize flight profiles based on their understanding of AOC and flight deck priorities
• ATC operated the sector based on current rules and practices
Experimental DesignExperimental Design
ATC Role
Flight Deck Intent Information
Flight Plans
No Flight Plans
Strategic &Tactical Tactical
Dependent MeasuresDependent Measures
• Separation violations • CPA• Number of changes
initiated by crew, and number accepted by controller
• Number of changes initiated by controller
• Crew intervention time • Controller intervention
time
• Controller and crew assessment questionnaires
• Subjective workload (crews and controllers)
• ATC’s assessment of crew separation strategies (modify request)
• Crew and controller acceptance
ResultsResults
• Post simulation, crews responded to a Likert scale format (1-7 scale) - generally 1 negative, and 7 positive, or preferences with either choice anchoring the scale (e.g.,1- static and 7 - pulse predictors)
• A neutral position of 4 was used as an anchor to evaluate ratings that were significantly (p<0.05) above or below the anchor, on a two tailed t-test.
Results: Display Clutter with and Results: Display Clutter with and Without ARATWithout ARAT
• Neutral response with ARAT -M=4.13, without ARAT -M=4.5 – Flight crews reported that # of aircraft were the
main cause of display clutter– They suggested that the ability to remove
aircraft that were flying away at a different altitude (assumed no longer a threat) could help solve this problem
Results: Text Size and ReadabilityResults: Text Size and Readability
• Positive response– Tail tags, M=5.69– Aircraft ID blocks, M=6.0– Flight plan waypoint names, M=5.78