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CFI WORKSHOP Technology Transitions – Training in Modern Aircraft

CFI WORKSHOP Technology Transitions – Training in Modern Aircraft. FAA Safety Center Lakeland-Linder Regional Airport Lakeland, Florida MAY 07, 2005. General Aviation - TAA Program Catalyst.

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CFI WORKSHOP Technology Transitions – Training in Modern Aircraft

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  1. CFIWORKSHOPTechnology Transitions– Training in Modern Aircraft FAA Safety Center Lakeland-Linder Regional Airport Lakeland, Florida MAY 07, 2005

  2. General Aviation - TAAProgram Catalyst • Technological advancements in the future General Aviation (GA) population present NEW CHALLENGES to pilots at all levels. My goal is that the information presented here-in will perk your interest regarding the direction of future general aviation.

  3. General Aviation - TAAProgram Catalyst, cont’d • My goal is that the information provides additional insight into our current, as well as future, responsibilities and challenges conducting training and preparation for practical tests in the evolving new generation (Modern) GA aircraft. The inherent challenges associated with the rapid technological advancements necessitate thorough training and testing.

  4. General Aviation - TAAThe Bottom Line “We are in an unprecedented segment of change in general aviation. In ten years, anyone who learns to fly will use ‘the screen’ not the ‘dials’ - so how do we safely get from where we are today to where we are going?” Paul A. Craig, Gold Seal MEI, CFII Technology Transitions – up and down 01/10/2005

  5. General Aviation - TAAScreen vs. Dial Technically Advanced Aircraft Avionics Panel Analog Instruments / Dial (Steam) gages

  6. General Aviation - TAASystem Preview

  7. General Aviation - TAAProgram Outline • Review the definition of Modern Aircraft in the context of the current Instrument Rating PTS (FAA-S-8081-4D) • Identify pertinent enhancements to the PTS and how they coincide with examining in GA Modern Aircraft • Review components / systems terminology associated with the Modern Aircraft avionics systems • Provide a top level view of the systems design & inherent pilot management requirements

  8. General Aviation - TAAProgram Outline, Cont’d • Address limitations associated with the state-of-the-art technology being discussed • Present system failure scenarios relevant to the Modern Aircraft integration • Note subtle differences between two of the key competing advanced technology avionics systems • Discuss practical test considerations / scenarios associated with the GA Modern Aircraft

  9. General Aviation - TAATechnical Definition of Modern Aircraft TAA - Aircraft equipped with a minimum of an IFR- certified GPS Navigation system with a moving map display incorporating an integrated autopilot May have multi-functional displays depicting flight planning parameters / constants, multiple check lists, detailed engine parameters, approach procedures, weather, traffic, terrain graphics Pilot - Interfaces with one or more processors to aviate, navigate and communicate Reference: GA TAA FAA-Industry Safety Study, August 22, 2003

  10. General Aviation - TAAModern Aircraft General Aviation Technically Advanced Aircraft (TAA) F-117 B-2

  11. General Aviation - TAAModern Aircraft Mooney Ovation2 GX Cirrus SR22 Cessna 182T

  12. INSTRUMENT RATINGPractical Test Standards forAIRPLANEFAA-S-8081-4D Effective Date: October 1, 2004

  13. General Aviation - TAAEnhancements made to FAA-S-8081-4D • The Plan of Action is more thoroughly explained to include the reference to use of scenarios • The use of GPS for navigation and approaches has been clarified and the requirement for a GPS approach has been added • Testing in Modern Aircraft with electronic flight instrument displays has been addressed

  14. General Aviation - TAAEnhancements made to FAA-S-8081-4D, cont’d • The use of autopilot and flight management during testing has been addressed • The need for testing in Single-Pilot Resource Management has been addressed and clarified • The body of the PTS has been updated to include electronic flight instrument displays, flight management systems (FMS), GPS, and autopilot usage Note: These represent 6 of the 13 enhancements noted in the PTS

  15. General Aviation - TAACompeting Panels Cirrus SR-22 Avidyne FlightMax EX-Series Cessna 182 Garmin 1000

  16. General Aviation - TAAGlobal Positioning Satellite Navigation • Global Positioning Satellites (GPS) • Represents latest method in high accuracy navigation • Incorporates constellation of 24 satellites orbiting the earth • GPS receivers capture microwave band radio signals. The difference in signal arrival times are processed to triangulate the receivers position (at least 4 satellites)

  17. General Aviation - TAAGlobal Positioning Satellite Navigation, cont’d Magnetometer Solid State Electronic compass comprised of several sensors that measure the earth’s magnetic field intensity Combined sensor inputs are processed to calculate heading relative to sensor orientations Complements GPS receivers providing more precise and instantaneous headings Quick updating of electronic maps Should GPS signals become blocked, the compass updates and system speed information can provide temporary backup in navigation

  18. General Aviation - TAAGPS Steer (GPSS) • GPS position / flight plan known • Digital output stream contains roll and steering information • Autopilot will instantly intercept proper bearing to next waypoint (active flight plan) • Aircraft pointed less than 180 degrees of the next fix • Most GPS systems include a 429 data stream bus which outputs: • roll steering commands for enroute navigation • GPS overlays for holding patterns • DME ARC’s • approach transitions • procedure turns • approaches • published and missed approach maneuvers

  19. General Aviation - TAA Attitude Heading Reference System • Solid-state attitude and heading reference system • Features high performance solid-state MEMS gyros and accelerometers • Algorithms determine stabilized roll, pitch, and heading angles in static and dynamic conditions • Provides continuous On-line gyro bias calibration • Superior reliability to standard gyros 3 Axis Solid State Gyro and Accelerometer System AHRS • Comprehensive BIT monitors all sensors and internal electronics continuously during operation and sends a system status update in every output message

  20. General Aviation - TAAPrimary Flight Display Main Bus 2 Essential Bus Pitot Static OAT Sensor / Magnetometer Avidyne FlightMax Entegra Primary Flight Display (PFD) Replaces: • Attitude Indicator • Heading Indicator, dir. gyro • Altimeter • Airspeed Indicator • Vertical Speed Indicator • CDI - VOR / LOC / GS • Altitude Pre-select / Alerter • OAT / Clock Indicator Cirrus SR22 STEC System 55X AP / FD #1 GNS-430 GPS MFD #2 GNS-430 GPS

  21. General Aviation - TAAPractical Test in Modern Aircraft Emphasis on Attitude Instrument Flying and Emergency Instrument Procedures FAA-S-8081-4D, pg’s 14 & 15 The FAA is concerned about numerous fatal accidents involving spatial disorientation of instrumented-rated pilots who have attempted to control and maneuver their aircraft in IMC with inoperative primary flight instruments (gyroscopic heading and/or attitude indicators) or loss of the primary electronic flight instruments display AREA OF OPERATION IV: FLIGHT BY REFERENCE TO INSTRUMENTS • Requires evaluation of basic instrument flight maneuvers under both full-panel and references to backup primary instruments / electronic flight displays • The FAA has stressed that it is imperative for instrument pilots to acquire and maintain adequate instrument skills and that they be capable of performing instrument flight with the use of the backup systems installed in the aircraft

  22. General Aviation - TAAGPS Emphasis The use of GPS for navigation and approaches has been clarified and the requirement for a GPS approach has been added • If the practical test is conducted in an aircraft that has an operable and properly installed GPS, the applicant must demonstrate GPS approach proficiency when requested Aircraft and Equipment for the Practical Test, FAA-S-8081-4D, pg 8 • The Instrument Practical Test Standards place emphasis on and require the demonstration of a non-precision instrument approach without the use of the primary flight instruments or electronic flight instrument displays Emphasis on Attitude Instrument Flying and Emergency Instrument Procedures FAA-S-8081-4D, pg 15

  23. General Aviation - TAAGPS Emphasis, cont’d The use of GPS for navigation and approaches has been clarified and the requirement for a GPS approach has been added VI. INSTRUMENT APPROACH PROCEDURES, TASK A, NONPRECISION APPROACH (NPA) • The applicant must accomplish at least two nonprecision approaches (one of which must include a procedure turn or, in the case of an RNAV approach, a Terminal Arrival Area (TAA procedure) in simulated or actual weather conditions • At least one approach must be flown without the use of the autopilot and without assistance of radar vectors

  24. General Aviation - TAAGPS Emphasis, cont’d The body of the PTS has been updated to include electronic flight instrument displays, flight management systems, GPS, and autopilot usage Aircraft and Equipment for the Practical Test, FAA-S-8081-4D, pg’s 7 & 8 • The abnormal or emergency procedure for loss of the electronic flight instrument display appropriate to the aircraft will be evaluated in the Loss of Primary Instruments Task • The loss of the primary flight instrument display must be tailored to failures that would normally be encountered in the aircraft • If the aircraft is capable, total failure of the electronic flight instrument display, or a supporting component, with access only to the standby flight instruments or backup display shall be evaluated • The applicant is expected to utilize an autopilot and/or flight management system (FMS), if properly installed, during the instrument practical test to assist in the management of the aircraft

  25. General Aviation - TAASingle Pilot Emphasis The need for testing in Single-Pilot Resource Management has been addressed and clarified FAA-S-8081-4D, pg 13 “Refers to the effective use of ALL available resources: human resources, hardware, and information.” • Human resources Aircraft Operators / Owners / FBO / Weather Briefer / Alternate Weather Sources Maintenance Personnel Air Traffic Controllers Aircraft Manufacturers Website (Software updates / limitations) • Hardware AvionicsSystems Integration Autopilot Integration / Utilization MFD opportunities/ Situational Awareness / Weather Download Interlinks / Traffic Depictions / System Parameters PFD Capability, Aircraft Management

  26. General Aviation - TAAPrimary Flight Display Avidyne Entegra-Series Pitch Ladder Solid magenta bug – coupled to active mode of Autopilot Turn Coordinator HDI VDI ADI Airspeed Tape Color coded for Vso, Vfe, Vs, Vno, Vne VSI +/- 2000 fpm +/- 4000 fpm Trend Bar Mag Hdg Hdg Rate half / std Altitude Tape Altitude Pre-select Bug Nav Cntrls Wind Indicator CDI Bearing Pointer HSI Compass rose Heading bug

  27. General Aviation - TAAMFD MP Flight Plan Avidyne EX-Series Magnetic Heading Weather Traffic Airspace / Airports Lightning Airways / Navigational Aides Inland / Coastal Water Bodies Moving Map background Aircraft Position

  28. General Aviation - TAAMFD EP Avidyne EX-Series Engine Parameters OAT Electrical Status Fuel Mgmt EGT CHT

  29. General Aviation - TAACirrus SR22Electrical Power & Distribution Diagram

  30. General Aviation - TAAC182 Garmin 1000Electrical Power & Dist. Diagram

  31. General Aviation - TAAAD – AHRS Failures Avidyne FlightMax Entegra • PFD detects loss of Air Data - (X) replaces affected indicator – monitor mechanical back-up instruments If failure occurs while in IMC – Exit IMC • PFD detects loss of Attitude Data - (X) replaces affected indicator - mechanical back-up instrument Activate Autopilot GPSS Mode Activate Autopilot Altitude Hold If failure occurs while in IMC – Exit IMC Note: Any power interruption to the PFD will result in loss of attitude information until it can be reinitialized

  32. General Aviation - TAAADAHRS Failure AHRS Failure AD Failure Garmin 1000 System

  33. General Aviation - TAABack-up Instruments Cessna 182 Garmin 1000 Reversionary Mode Cirrus SR22 Avidyne

  34. General Aviation - TAAPFD Limitations Avidyne • Adherence to approved sensor installations (POH Supplements) • PFD Pilots guide P/N 600-00081-000, Rev 3 or later must be available to the pilot during all flight operations • Flight under IFR is not permitted with the PFD or any standby indicator including magnetic compass inoperative • AP coupled approaches must be discontinued if CD exceeds 50%. The approach should only be continued by hand-flying the aircraft • Back course approaches are prohibited (1) (1) – New software has been released permitting BC approaches

  35. General Aviation - TAAMFD Limitations Avidyne • Adherence to approved sensor installations (POH Supplements) • Use of Map page during IFR flight requires an IFR approved GPS receiver installation operated in accordance with applicable limitations • EX-series Pilots Guide P/N 600-00072-000, Rev 03 or later must be available to the pilot during all flight operations • Moving map display must not be used as primary navigation instrument. Visual advisory / supplemental information to CDI course deviation & GPS navigator

  36. General Aviation - TAAMFD Limitations, cont’d Avidyne • Under no circumstances should the Map page Terrain representations be used as a basis for terrain avoidance (CFIT) • Electronic Checklist pages are for supplementary purposes only / must not be used as the primary set of onboard checklists • Traffic information on Map page display aid to visually acquiring traffic / No maneuvers should be made based solely on a traffic advisory

  37. General Aviation - TAAAutopilot Emphasis The use of autopilot and flight management during testing has been addressed Aircraft and Equipment Required for the Practical Test (pg 7, FAA-S-8081-4D) The applicant is expected to utilize an autopilot and/or FMS if properly installed. The examiner is expected to test the applicants knowledge of the systems that are installed during both oral and flight portions of the practical test.

  38. General Aviation - TAAAutopilot Emphasis, cont’d Cirrus SR22 – S -TEC SYSTEM 55X Autopilot w/Altitude Selector / Alerter • AP operation prohibited above 185 KIAS (Normal 70 -178 KIAS) • Flaps must be set to 50% for AP operation in Alt Hold Mode below 95 KIAS • Flap deflection is limited to 50% during AP operation • Limitations associated with ILS GS & LOC intercept, capture and tracking • The S-TEC System 55X POH, P/N 87109 dated 8 November 2000 or later must be available to the pilot while in flight • The applicant will be required to demonstrate the use of the autopilot and/or FMS during one of the nonprecision approaches

  39. General Aviation - TAAPlan Of Action Scenarios The Plan of Action is more thoroughly explained to include the reference to use of scenarios • Power Distribution Design / Inherent Back-up Provisions • Ramification of either GPS 1 or GPS 2 failure • System anomalies leading to Air Data (AD) failure • System anomalies leading to ADAHRS (Air Data Attitude Heading Reference System) failure • Autopilot Integration / System Limitations

  40. General Aviation - TAASimulating G1000 Failures during Practical Test *Note: When the ADC is failed, pressure altitude data is no longer available to the transponder. This will result in the transponder only being capable of Mode A (no altitude reporting) capability. Therefore, failing the ADC should be avoided in Class B and C airspace or within the Mode C veil of Class B airspace, without the required coordination with the appropriate air traffic control facility.

  41. General Aviation - TAASimulating G1000 Failures during Practical Test, cont’d *Note: When the ADC is failed, pressure altitude data is no longer available to the transponder. This will result in the transponder only being capable of Mode A (no altitude reporting) capability. Therefore, failing the ADC should be avoided in Class B and C airspace or within the Mode C veil of Class B airspace, without the required coordination with the appropriate air traffic control facility.

  42. General Aviation - TAAPractical Test Observations • Inconsistency in airspeed management / stabilized approach • An over reliance on the MFD map page noted • A methodical / systematic flow of managing the systems • Stellar approaches noted when utilizing back-up instruments • Poor performance noted utilizing back-up instruments • Varying degrees of capability managing the over-all Systems • Significantly higher work load without autopilot • Lack of knowledge regarding limitations of autopilot

  43. General Aviation - TAAFAA Team Findings - Recommendations • The predominate TAA-system-specific finding is that the steps required to call up information and program an approach in IFR-certified GPS navigators are numerous, and during high work load situations they can distract from the primary duty of flying the aircraft • The traditional GA training system has inadequate methods, does not specifically include training to exploit the additional safety opportunities of new technologies or to operate within the limitations of these technologies, and does not include training on how to make accurate flight risk assessments and manage flight risk properly • Avoid Over-Estimating TAA capabilities; Understand inherent TAA Limitations; Understand Coupled Autopilot and Aircraft Limitations Reference: GA TAA FAA-Industry Safety Study, August 22, 2003

  44. General Aviation - TAAInstructors • The new TAA are not only comprised of state-of-the-art electronics, multiple processors, screens and sophisticated systems to manage, they can also represent significant advancements in airframe construction, aerodynamic enhancements and safety features • The intervention strategies to enhance SAFETY: • Training System Methods • TAA Opportunities Training • TAA Systems Limitations Training • RISK Assessment and management Reference: GA TAA FAA-Industry Safety Study, pg7, August 22, 2003 • Our responsibilities as instructors, moving forward in the TAA aircraft, present a series of NEW TESTS and CHALLENGES. The APPLICANT relies on You and I to ensure that they have received the appropriate training, (The Bottom Line)

  45. General Aviation - TAARound Dials? ... the global War on terrorism continues, … female fliers in combat missions over Afghanistan.  Early on Jan 31, a KC-135 Stratotanker took off from Ganci Air Base, Kyrgyzstan, carrying more than 180,000 pounds of fuel and an all-female crew -- both pilots, a navigator and a boom operator. by Capt Elizabeth Ortiz376th Air Expeditionary Wing Public Affairs02/06/03 - OPERATION ENDURING FREEDOM (AFPN) - Can Glass-Only pilots fly Round Dials?

  46. General Aviation - TAA Thank YOU

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