Weather Systems Implementation

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Delivering Delivering NextGen NextGen Next Generation Air Transportation System Next Generation Air Transportation System Weather Systems Implementation NextGen Network Enabled Weather (NNEW) NextGen Weather Processor (NWP) Presented to: FPAW By: Alfred Moosakhanian, Program Manager October 12, 2011 FPAW October 2011 1 1

Background Weather is responsible for 70% of delays over 15 minutes and contributes to 24% of accidents Up to 2/3 of weather delays are potentially avoidable, based on NAS Operations Subcommittee REDAC study Traffic managers and users must mentally interpret weather conditions, future traffic, and airspace information and their potential impact on decisions Inconsistencies exist in the presentation of weather data among the various weather systems A single source of weather information often feeds several different systems the same information through different communication feeds. This point-to-point approach requires high telecommunication costs. The present network would not be able to accommodate the increase in bandwidth requirements without new construction. Weather information is presently provided in many different and specialized formats which limits its reuse by multiple systems. Automation tools will require more dynamically filtered weather information to support Trajectory Based Operations and airborne weather information. FPAW October 2011 2

Current Weather Topology FPAW October 2011 3

Notional To-Be-Weather Architecture LIDAR JAWS Customer Las Vegas Airport Alaska Users MDCRS Via ARINC CanRad LLWAS-RS ASR -WSP ASR-9 WX LLWAS-NE TDWR NEXRAD ASOS/AWOS Lightning Vendor CONVOL Wind shear alerts Wind shear/microburst 6-Level Reflectivity Wind shear/microburst 6-Level Reflectivity Reflectivity Products Base Data Surface Observations ADAS METARs WMSCR FBWTG (WARP) WARP Pilot External Service Terminal Local Displays SD IDS-4/NIDS External Users Local Displays TWIP ARTCC HOST ERAM DSR URET ATOP DOTS + FDP2K @ ZAN Local WX Displays MEARTS @ ZAN ATCSCC Airlines via the Web Tower/ TRACON Controller Traffic Flow Specialists Approach Controller Airline Operations Center Pilot En Route Controllers En Route Supervisors Traffic flow Specialists Meteorologists Oceanic ATC NAS Operations Managers & Specialists NOAA Product Generation Centers Models & AWC Data WINS (WARP) Model data & other Wx Data Wx Data ITWS Wind Shear alerts Local Display, DOTS Flight Services FS 21 FIS / SBS Traffic Flow Manager FSS Specialist Pilot Pilot NOAA 4-D Wx Data Cube METARS, TAFs, SIGMETS Models & AWC Data RUC, Icing, Turb, Conv., Satellite, Alphanumeric products CWIS Prototype Convective Products & Forecasts TFM Wireless Traffic Flow Manager Mobile Users Global Sources * This chart is notional and does not include all sources or products * This chart is notional does not include all sources nor products FPAW October 2011 4

Keys to Achieving NextGen Current capability must be sustained while implementing operational improvements Transition/consolidate legacy weather processing capability Provide standardized weather data access for integration into decision-support systems Weather must be approached from a portfolio standpoint Avoid exploding weather budget Leverage interagency capability NextGen Weather for Segment 1 IOC will consist of portfolio elements from both NNEW and RWI forecast FPAW October 2011 5

Weather Data Integration NOAA Weather Data Providers The Cube SAS Weather Translation Translation to Aviation Constraints and Threshold Events ATM Impact Conversion Conversion to Operational NAS Impact and State Changes ATM Decision Support Impact Mitigation Options Performance Feedback Weather Information Translated Weather Impact Estimate NNEW FAA Weather Data Providers NWP FPAW October 2011 6

NWP Program Overview NextGen Weather Processor (NWP) establishes a common weather processing platform that will functionally replace the legacy FAA weather processor systems and host new capabilities: NWP will consolidate weather product generation by weather processor systems such as: Weather and Radar Processor (WARP) Corridor Integrated Weather System (CIWS) Integrated Terminal Weather System (ITWS) NWP will provide advanced aviation specific weather information through the assimilation of extended National Weather Service (NWS) forecast models with real time radar extrapolation NWP will perform Weather Translation which will enable the use of weather information by automated decision support tools (DSTs) NWP will address consolidation solutions for weather displays FPAW October 2011 7

Weather Processor Segment 1 Roadmap Processors Planned Decision Points 1/2011 CY 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025 CIWS X WARP RAMP WARP ECP2 X NWP Mission Analysis 79 IARD 86 IID 89 FID Solution Implementation WxO ISD Deployment ORD LAST In- service Investment Analysis ITWS 655 IARD 657 FID ITWS TR if not entirely subsumed by NWP X FPAW October 2011 8

NNEW Program Overview NNEW is an IT infrastructure program that will facilitate integration of weather information into ATM decisions using data from NOAA s 4- Dimensional (4-D) Weather (Wx) Data Cube and internal and external FAA sources NNEW Key Elements: Open Standards Utilization/Development Software that provides capabilities for: Locating data Retrieving data Subsetting of data Data Format Standards GML, XML, and NetCDF-4 Working with EUROCONTROL to develop a common data model Metadata Standards FPAW October 2011 9

NNEW Key Elements (cont.) Software Development Registry/Repository ebxml-compliant registry/repository obtained from a commercial source Reference Implementations of OGC data access standards Software that implements the Web Coverage Service (WCS) and Web Feature Service (WFS) standards Provides the mechanism to connect consumers with providers and return the data that are requested Ontology Enables searching for datasets registered in the Registry/Repository in a vocabulary-independent manner Service adaptors Enables legacy systems to provide data to, or use data from NNEW without rewriting the legacy system software FPAW October 2011 10

NNEW Goals NNEW will: Aid in reducing weather impact in the NAS by facilitating the integration of weather information into ATM decisions Define, develop, and provide capabilities for universal access to weather information from multiple government and industry sources in a SWIM-compatible network Provide the capability to automatically locate and retrieve data for DSTs using global and open standards Provide the capability to retrieve weather information along flight trajectory-specific airspace volumes Provide cost savings in the reduction of future interface development costs and a reduction in the usage of bandwidth in communicating weather data FPAW October 2011 11

Notional Architecture NWS 4-D WX Cube / NWP / Other FAA Internal & External NNEW External User Portal NNEW NNEW External User Portal FAA Users External Users (airlines, airport operators, etc.) FPAW October 2011 12

NNEW-NWP Acquisition Time Lines NNEW-NWP are here Investment Analysis Readiness Decision (IARD) December 2010 Initial Investment Decision (IID) Planned for March 2012 Final Investment Decision (FID) Planned for December 2012 FPAW October 2011 13

NNEW-NWP Acquisition Activities A Market Analysis is being performed this year with Industry and it is comprised of a Market Survey and a Request for Information (RFI) Market Survey (Qualification Information) It was released in May and responses were received in June Purpose was to announce solicitation and determine vendor capabilities Request for Information (RFI) Screening Information Released in August -September Purpose is to identify the appropriate acquisition strategy to use and satisfy the proposed technical solution/scheduling information objectives A Draft Screening Information Request is going to be released to industry in the form of a Request for Comment (RFC) A SIR will be conducted in the form of a Request for Offer (RFO) in 2012 FPAW October 2011 14

Summary NNEW Program will: Be an IT infrastructure program that will facilitate integration of weather information into ATM decisions Release its RFP in 2012 Receive a Final Investment Decision in December 2012 Award contract in 2013 Implement the system from 2013 through 2015 NWP Program will: Consolidate weather product generation by weather processor systems and provide advanced aviation specific weather information Release its RFP in 2012 Receive a Final Investment Decision in December 2012 Award contract in 2013 Implement the system from 2013 through 2015 FPAW October 2011 15

Backup Slides FPAW October 2011 16

Current Weather Displays at Air Traffic Facilities FPAW October 2011 17

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