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© 2003 The MITRE Corporation. All Rights Reserved. Cockpit Display of Traffic Information (CDTI) Enhanced Flight Rules (CEFR) Randall Bone October 7, 2003
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© 2003 The MITRE Corporation. All Rights Reserved. 2 Overview Review of Cockpit Display of Traffic Information (CDTI) and CDTI Enhanced Flight Rules (CEFR) CEFR during Visual Approaches Example CEFR Purpose Simulations –Objectives –Overview –Results Status
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© 2003 The MITRE Corporation. All Rights Reserved. 3 Acronyms ASAS – Airborne Separation Assurance Systems ATC – Air Traffic Control CDTI – Cockpit Display of Traffic Information CEFR – CDTI Enhanced Flight Rules IFR – Instrument Flight Rules IMC – Instrument Meteorological Conditions MVA – Minimum Vectoring Altitude OSED – Operational Service and Environment Description UPS – United Parcel Service VFR – Visual Flight Rules VMC – Visual Meteorological Conditions
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© 2003 The MITRE Corporation. All Rights Reserved. CEFR What? –Visual separation including the CDTI, i.e., CDTI is authorized for use in lieu of visual out-the-window contact (ASAS Application Category: Airborne Separation) –No other operational changes to current visual approach procedures other than the use of flight identification, when appropriate, during traffic advisories and the flight crew use of the CDTI to maintain visual contact with the traffic to follow. Where? –Terminal Area - Class B or C airspace Why? –To increase capacity under deteriorated weather conditions When? –An inability to continue the conduct of visual approaches but weather at least VMC (1000 feet and 3 miles) Who? –Safe Flight 21 & RTCA SC-186 WG 1
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© 2003 The MITRE Corporation. All Rights Reserved. 5 Visual Separation Visual separation can be applied by ATC to separate aircraft by a pilot who sees the other aircraft involved Traffic advisories are issued by ATC to the pilot who must search for the traffic, acquire the traffic, and accept responsibility for maintaining separation from that aircraft Pilot acceptance of visual separation includes: –Maintaining constant visual surveillance; –Maneuvering the aircraft as necessary to avoid the other aircraft or to maintain in-trail separation; –Avoiding wake; –Not passing the other aircraft until it is no longer a factor ; and –Promptly notifying ATC if visual contact with the other aircraft is lost Pilot acceptance of visual separation relieves the controller of separation responsibility for that particular aircraft and allows for more flexible operations
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© 2003 The MITRE Corporation. All Rights Reserved. 6 CDTI & Selected Target Groundspeed Call Sign Closure Rate Range from Ownship Weight Category
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© 2003 The MITRE Corporation. All Rights Reserved. 7 Not to scale Controller provides traffic advisory Initial out-the-window acquisition and correlation with CDTI Target selection on the CDTI Clearance to maintain “visual” separation Controller clearance for visual approach Visual Approach CEFR Concept Example (1 of 3) Set-Up.. 33 GS 188 R 4.9 UPS927 LRG CR 33 GS 188 R 4.9 UPS927 LRG GS 188 R 4.9 UPS927 LRG
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© 2003 The MITRE Corporation. All Rights Reserved. 8 Call Sign Use Louisville Approach: “Abaco 235, Louisville Approach, traffic 12 o’clock, 6 miles, southbound, Boeing 737, 4000.” Abaco 235: “Louisville, Abaco 235, Defiant one twelve is in sight.” Louisville Approach: “Abaco 235, maintain visual separation from that traffic.”
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© 2003 The MITRE Corporation. All Rights Reserved. 9 Not to scale Once lead aircraft is lost out- the-window, CDTI only is used for separation (CEFR concept) Visual Approach CEFR Concept Example (2 of 3) CDTI for Separation.. 23 GS 175 R 4.0 UPS927 LRG GS 175 R 4.0 UPS927 LRG CR 23
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© 2003 The MITRE Corporation. All Rights Reserved. 10 Not to scale Continue to normal landing using both visual and / or CDTI information Visual Approach CEFR Concept Example (3 of 3) Landing Reacquisition.. 6 GS 140 R 3.0 UPS927 LRG GS 140 R 3.0 UPS927 LRG CR 6
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© 2003 The MITRE Corporation. All Rights Reserved. 11 CEFR Purpose (1 of 3) Increased capacity Reported Visibility at Airport (miles) 1000 2000 3000 4000 5000 17654 3 2 IMC Visual App Reported Ceiling at Airport (feet) Visual approaches suspended - Facility Specific Visual Approach Minimums by FAA Order – Facility Specific (MVA + 500’) Basic VMC Mins Delays increase as weather conditions worsen Initial CEFR Potential Benefit
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© 2003 The MITRE Corporation. All Rights Reserved. 12 CEFR Purpose (2 of 3) Controller flexibility
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© 2003 The MITRE Corporation. All Rights Reserved. 13 CEFR Purpose (3 of 3) Increased pilot situational awareness when conducting visual approaches in marginal conditions
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© 2003 The MITRE Corporation. All Rights Reserved. 14 Simulations
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© 2003 The MITRE Corporation. All Rights Reserved. 15 Development Objectives Develop the CEFR application description –~ Operational Service and Environment Description (OSED) –Participation by pilot & controller unions, certification and flight standards authorities, other FAA offices, etc. Evaluate the CEFR concept in simulation addressing pilot and controller operational issues Provide data and analysis of results to support decision on next development stage
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© 2003 The MITRE Corporation. All Rights Reserved. 16 Overview of Four MITRE Simulations Participants –56 Pilots –~10 Air Traffic Controllers Simulation Environment –Medium fidelity, twin jet aircraft CDTI (Primary field of view & throttle quadrant) –Terminal ATC display –Louisville, Kentucky USA Procedure –Conditions: Day and night; Instrument and visual approaches –Independent Variables: Cloud thicknesses, spacing assignment, CDTI size and location, throttle control / workload, spacing alert, failure condition, 2 crew member operations –Data: Subjective- pilot and controller acceptability, displays, workload, call sign procedures; Objective- pilot spacing performance
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© 2003 The MITRE Corporation. All Rights Reserved. 17 Results of Four MITRE Simulations (1 of 2) CEFR concept / separation based on a CDTI is viable from a pilot (N=56) perspective based on feedback on the following topics: –General difficulty of the procedure –CDTI use for spacing and separation –Safety –Workload (about the same as current visual approaches) –Head down time –Comparison to current operations (day and night visual approaches) Time on CDTI for separation not issue
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© 2003 The MITRE Corporation. All Rights Reserved. 18 Results of Four MITRE Simulations (2 of 2) No difficulty with aggressive slow-downs of lead aircraft Able to handle data degradation of lead aircraft on CDTI Throttle console CDTI implementation is acceptable and did not show performance difference Willing (and able) to perform with either autothrottles or manual throttle control Call sign use could have potential Visual approach operations likely to be the initial application of CEFR ATC continues to play key role
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© 2003 The MITRE Corporation. All Rights Reserved. 19 Status (1 of 2) 2002 (Completed efforts) –Initial application description –Initial business case –MITRE simulations –Call sign procedure approved –Formal decision to continue research 2003 –Updated business case (Completed) –MITRE simulations (Completed) –Formal decision to continue research (Completed) –Initial operational safety assessment (Completed) –Operational approval planned to be sought by UPS
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© 2003 The MITRE Corporation. All Rights Reserved. 20 Status (2 of 2) Acceptability –Operation – Acceptable concept –Cost benefit – Benefit exists but must consider other operational enhancements –Technical – AT2000 meets software requirement (Level C) –Stakeholder Buy-In – FAA Flight Standards as well as controller and pilot unions support continued research
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© 2003 The MITRE Corporation. All Rights Reserved. 21 Further Information For further information on the concept or the simulations, contact: –Randy Bone – bone@MITRE.org –John Marksteiner, FAA Safe Flight 21 - john.marksteiner@faa.gov
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