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A Concept of Integration (CONINT) of Weather Information and Related Systems Engineering Artifacts

Making ATM-Weather Integration a Reality. A Concept of Integration (CONINT) of Weather Information and Related Systems Engineering Artifacts. Matt Fronzak FPAW Summer Meeting – NTSB Auditorium August 8, 2012. In the beginning…. Photo credit: smithsonianmag.com. In the beginning….

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A Concept of Integration (CONINT) of Weather Information and Related Systems Engineering Artifacts

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  1. Making ATM-Weather Integration a Reality A Concept of Integration (CONINT) of Weather Information and Related Systems Engineering Artifacts Matt Fronzak FPAW Summer Meeting – NTSB Auditorium August 8, 2012

  2. In the beginning… Photo credit: smithsonianmag.com

  3. In the beginning… The CONINTs

  4. What is a CONINT? • Modeled after CONOPS • Describes the target ATC/TFM system or capability • Describes weather integration • Postulates a concept of integrating weather into the target ATC/TFM system or capability • Provides post-integration example(s) of the system or capability

  5. TBFM Weather Integration Phase 1(Level 1 – Weather on the Glass) Description • CIWS imagery overlayon TMA PGUI Schedule • Spring 2013 Benefits • Increased situationawareness • Better understanding ofgeospatial relationshipbetween incoming traffic and forecast thunderstorms Shortfalls • Cognitive impact calculation, solution development Notional illustration of TMA PGUI with CIWS imagery overlay

  6. TBFM Weather Integration Phase 2(Level 3 – Impact Indicators) Description • Individual flight andflow impact on TMA TGUI, flight lists and data blocks via “stoplight” indicators Proposed Schedule • Mid-term (2015-2018) Benefits • Automatic impact calculation Shortfalls • Manual solution development Notional illustration of TMA TGUI with “stoplight” impact indicators

  7. TBFM Weather Integration Phase 3(Level 4 – Full DST functionality) (Convection) Description • Decision Support System Proposed Schedule • Far-term (2019+) Benefits • Automated optimized solution recommendations Notional illustration of TMA TGUI with flight list swap recommendations

  8. TBFM Weather Integration Phase 3(Convection) – Notional DST Operations --<JBU486 06 -- NWA784 Description • A mouse click on one of each of the special impact symbols causes the DST recommendations to be graphically displayed • A quick glance at the TMA PGUI with CIWS overlays suggests that both of the recommendations appear to be good solutions (HOTL) • One more click on one of each of the special impact symbols executes the flight list changes -2 --<CHQ6412 -- FDX3701 --<LOF3611 02 02 -- NWA1226 --<MEP207 --<CHQ3162 --<AAL1230 -2 --<EGF551 03 --<AMT4152 01 --<FIV304 -- PDT4296 --<EJA633 Notional illustration of TMA TGUI – times and positions are not to scale

  9. Related Systems Engineering Documents • Functional Analysis • Functional Requirements • Performance Requirements • Weather Gap Analysis

  10. Next Steps and Issues Next Steps – FY12 • Transition both CONINTs from Coordination Draft to V1.0 by the end of September Next Steps – FY13 • Transition all related systems engineering documents from Coordination Draft to V1.0 • Complete a similar set of documents for CATM • V2.0 of the ATM-Weather Integration Concept Diagram Issues • Engagement strategy • Weather forecast performance criteria

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