Friends and Partners of Aviation Weather

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Presentation transcript:

Friends and Partners of Aviation Weather Current Onboard Weather Sensing Technologies for Data Downlink and Flight Operations Friends and Partners of Aviation Weather FPAW 2014 - Orlando, FL Oct 23, 2014 Bryce L. Ford

Onboard Weather Sensing Technologies In-Situ Wx Sensors in Current Operational Use Production Aircraft Wx Sensors Supplemental Aircraft Wx Sensors Supplemental Techniques Onboard Aircraft Wx Radar Emerging Technologies

Production Aircraft In-Situ Wx Sensors Aircraft Based Observations – AMDAR/MDCRS Production Aircraft Sensors Air Temperature Wind Speed and Direction Pressure Altitude, Position, and Time No additional equipage required AMDAR (MDCRS) Data for Wx Support Over 3,800 aircraft reporting Worldwide Contributing over 670,000 Observations per day Downlinked Globally via ACARS Used in Operations by WMO/ICAO Communities Aircraft Type/Tail Specific Dependencies Different sensor types and avionics types Different biases by Type and Specific Tail QC measures developed for common issues Aircraft Observations Improve Global Aviation Wx Support

Production Aircraft In-Situ Wx Sensors Operational Benefits of Aircraft Based Observations Supports Airline Operations Strategic and Tactical Operational Decision Support Information relayed to the fleet as appropriate Data available on the flight deck for direct/indirect use Supports NMHS Operations (e.g. NOAA/NWS) Used in generation of TAFs and other worded forecasts Used in direct interaction with Airlines AMDAR Data is now a top contributor to Forecast Model performance Supports ATC/ATM Operations (e.g. FAA) Shared with other ATC organizations as appropriate Information relayed to Pilots as appropriate Data from WMO AMDAR Supports Aviation Globally

Supplemental In-Situ Wx Sensors WVSS-II for Aircraft Based Observations High Performance Water Vapor Detection Tunable Diode Laser Absorption Spectroscopy Low Impact To Aviation Operations No Routine Maintenance for 5 or more Years Uses existing aircraft communications and processing Meets International Aviation Standards Data Interface per ARINC-429 Data Bus Standard Supports Downlink Implementations per ARINC-620 Standard Supports Implementations of RTCA DO-252 Integrated by WMO Member Aircraft Based Obs Programs WMO AMDAR Reference Manual WMO Manual on Codes WMO Onboard Software Functional Spec (WMO Reports 114 & 115) WMO CIMO Guide Assimilated into Operational Forecast Models Completing the Aircraft Wx Obs with International Standards

Supplemental In-Situ Wx Sensors WVSS-II in Current AMDAR Operations 112 U.S. Aircraft equipped with WVSS-II & more being added Exterior Interior * Graphics Courtesy of NOAA/ESRL/GSD 3 EU Aircraft equipped with WVSS-II & 6 being added UPS WVSS-II Contributes to Aviation Operational Success

Supplemental In-Situ Wx Sensors The TAMDAR System Multi-function atmospheric sensor installed on aircraft (and UAS) Two-way real time Iridium satellite link Dedicated data center for quality monitoring, archiving, and distribution systems Development and integration of customized forecasts and weather applications The TAMDAR Sensor Air temperature (Mach corrected) Winds aloft Relative humidity Static pressure and pressure altitude GPS lat/long/alt/time Indicated and true airspeed Turbulence (Eddy Dissipation Rate, EDR) Ice presence © 2013 . Proprietary and Confidential Information Courtesy of Panasonic Avionics Corporation

Supplemental In-Situ Wx Sensors TAMDAR Benefits to Partner Airlines Global SATCOM voice & data via Iridium Automated Out-Off-On-In times and other aircraft data Real-time global aircraft position reports Airborne datalinked weather Weather data downlink Auto-PIREPs Data base of all flight histories EFB integration Ku broadband integration option Foundation for future operational benefits: Broadband data to/from aircraft Weather to the flight deck: Near real-time weather data to EFB Graphical weather forecasts Dynamic flight planning Flight path optimization © 2013 . Proprietary and Confidential Information Courtesy of Panasonic Avionics Corporation

Supplemental In-Situ Techniques Turbulence Detection EDR (Eddy Dissipation Rate) ICAO/AMDAR Turbulence Metric Standard Atmospheric turbulence intensity metric Vertical-based NCAR (via winds), AeroTech TAPS (via RMSg) Longitudinal-based implementations Panasonic TAMDAR RMSg (Root-Mean-Squared vertical accel.) Aircraft-centric turbulence intensity metric AeroTech TAPS DEVG (Derived Equivalent Vertical Gust) Legacy AMDAR Turbulence Metric Standard Generally, community is moving towards EDR Qantas, British Airways, others? * Courtesy of the National Center for Atmospheric Research Example EDR Data Tracks Example DEVG Data Tracks * Graphic Courtesy of NOAA/ESRL/GSD EDR is the Aviation Industry Turbulence Metric Standard Information Courtesy of the National Center for Atmospheric Research

Onboard Aircraft Wx Radar Aircraft Wx Radars Changed a bit over the years Provide flight deck view to short term hazards Precipitation intensity and position Detection of wind shear & turbulence potential New visualization technologies being integrated Standards Related to Aircraft Wx Radar ARINC-708 ARINC-429 Several Aircraft Wx Radar Suppliers Rockwell Collins Honeywell A few Others Onboard Wx Radars Offer an Array of Benefits to the Flight Deck

Emerging Technologies LIDAR for improved detection of Turbulence/CAT Lightning Detection Systems Volcanic Ash Sensors Greenhouse Gas Sensors New Data Communication Techniques New Visualization Techniques New Integrated Decision Support Techniques Etc, Etc, Etc. Operational Uses of Aircraft Wx Sensors have a Bright Future

Contact Information Thank You! Bryce L. Ford Vice President of Atmospheric Programs +1-202-549-3477 bford@spectrasensors.com www.spectrasensors.com/wvss