RNP RNAV in Naval Aviation
**** Hidden Message ***** RNP RNAV<BR>in<BR>Naval Aviation<BR>25 June 2008<BR>Garth Van Sickle<BR>DCS Corporation<BR>PMA-209<BR>(240) 237-4886<BR>gvansick@dcscorp.com<BR>Frank G. Bushman<BR>DCS Corporation<BR>PMA-209<BR>(240) 237-4826<BR>fbushman@dcscorp.com<BR>UNCLASSIFIED<BR>Bryan M. Strong<BR>Avineon, Inc.<BR>NAVFIG<BR>(202) 685-6063<BR>bryan.strong.ctr@navy.mil<BR>Amish Buggies Are Not Allowed On The Interstate<BR>Minimum Functionality<BR>is a Requirement<BR>Performance<BR>Based Airspace<BR>Ahead<BR>DoD Aircraft<BR>Hang Gliders<BR>UAS<BR>N3241C<BR>+200<BR>VV12345<BR>+300<BR>REACH41<BR>+350<BR>ROMAN52<BR>+850<BR>R223102<BR>+900<BR>SWA452<BR>+700<BR>SD45<BR>+1000<BR>N43865<BR>+500<BR>Extortion Through Exclusion<BR>RNP RNAV* will be required for Civil Airspace<BR>*(and Other Stuff)<BR>The Jump to RNP RNAV<BR>• The Naval Aviation Program for TACAIR<BR>• Defining the Required Performance<BR>• Enablers and Requirements<BR>• The Digital Cockpit<BR>• The Jump to GPS RNAV TERPS<BR>Aircraft<BR>8.33<BR>kHz **<BR>Mode S<BR>with ELS<BR>/ EHS ** RVSM **<BR>RNP<BR>RNAV **<BR>1090ES<BR>ADS-B<BR>(Future<BR>Growth)<BR>EP/P-3 G B B R<BR>KC/C-130T B G R R<BR>C-2A B G G R<BR>E-2C G G G R<BR>EA-6B B B R R<BR>KC-130J B G R R<BR>VH-60N B B R R<BR>H-53 series G G R<BR>MH-60R/S B G R R<BR>F/A-18E/F B G G*** POM 10 R<BR>MV-22B R G R R<BR>A/UH-1Z/Y B G R R<BR>AV-8B B R G*** POM 10 R<BR>F/A-18A+/C/D Y R G*** POM 10 R<BR>CH-46E R R R<BR>T-45C R POM 10 R<BR>CNS/ATM<BR>Tactical Aircraft Compliance*<BR>Capability<BR>Exists<BR>Presently<BR>Noncompliant.<BR>Integration<BR>Underway<BR>Not Applicable<BR>for this aircraft<BR>Some Aircraft Have<BR>Achieved Capability B G Y R<BR>* New development aircraft will be delivered CNS/ATM compliant<BR>** Signed Functional Requirements Document<BR>*** RVSM Certification Underway<BR>What is an FRD?<BR>• How do you achieve a required civil functionality using<BR>military avionics and integrations?<BR>• A Functional Requirements Document (FRD) specifies<BR>the details of a civil functionality so we will be able to<BR>achieve the same capability using military avionics<BR>• Provides the basis for Navy test and evaluation<BR>leading to Navy platform certification of functionality<BR>• Ensures system functional commonality in all aircraft<BR>while using different hardware, software and cockpit<BR>displays<BR>Once the functionality is defined, it can be achieved<BR>• 8.33 kHz Channel Spacing – This FRD defines the functionality required to operate<BR>in European airspace where 8.33 kHz is mandated at high altitudes.<BR>•Mode S – This FRD defines the functionality required to operate in airspace where<BR>Mode S surveillance is being mandated (Europe). This includes both Elementary<BR>(ELS) and Enhanced Surveillance (EHS) requirements.<BR>•RNP RNAV – This FRD defines the functionality required to operate in airspace<BR>where performance based navigation mandates are emerging. It defines the<BR>navigation accuracy, containment, integrity and appropriate alerts to file and<BR>fly from departure through NPA with PPS GPS as the primary positioning<BR>source. The RNP RNAV FRD also covers other navigation performance<BR>requirements (i.e. BRNAV, RNP-10, VNAV, etc).<BR>• RVSM – This FRD defines the functionality required to operate in airspace where<BR>Reduced Vertical Separation Minimums (RVSM) is required. This now includes<BR>almost all the sovereign airspace of the world<BR>Functional Requirements Documents<BR>(FRDs)<BR>GPS UNIQUE CAPABILITIES<BR>• HIGH ACCURACY 3D POSITION<BR>• VELOCITY VECTOR AND TIME<BR>• GLOBAL COVERAGE<BR>• CONTINUOUS AVAILABILITY<BR>• PASSIVE SERVICE<BR>• RESISTANT TO INTERFERENCE AND JAMMING<BR>• UNLIMITED NUMBER OF USERS<BR>• ALLOWS COMMON GRID REFERENCE<BR>– WGS-84<BR>1176 MHz 1227 MHz 1575 MHz<BR>L5 L2 L1<BR>P(Y)<BR>C/A<BR>Present Signals P(Y)<BR>(Block II/IIA/IIR)<BR>2nd Civil Signal<BR>and New Military<BR>Signals<BR>(Block IIR-M)<BR>3rd Civil Signal<BR>(Block IIF)<BR>+ GPS III (streamlined<BR>space and control<BR>segments)<BR>P(Y) P(Y)<BR>3rd Civil<BR>P(Y)<BR>C/A<BR>P(Y)<BR>2nd Civil<BR>M M<BR>1227 MHz 1575 MHz<BR>M<BR>2nd Civil<BR>M C/A<BR>GPS Signal Evolution<BR>Integrity<BR>• INTEGRITY is the ability of a system to provide<BR>timely warnings to users when the system should<BR>not be used for navigation.<BR>• TACAN and VOR have integrity at the source<BR>• Fail integrity; kill the signal<BR>• GPS integrity is in the user equipment<BR>• GPS Control Segment integrity is not timely<BR>• RAIM: Receiver Autonomous Integrity Monitoring<BR>• Fault Detection - 5 Satellites<BR>• Fault Detection Exclusion (FDE) – 6 Satellites<BR>• Other Integrity options (Augmentation Systems)<BR>• Space Based (SBAS = WAAS) Wide Area<BR>• Ground Based (GBAS = LAAS) Local Area<BR>• Aircraft Based (ABAS = Hybrid Integrity)<BR>Why RNP RNAV (IFR GPS)?<BR>• Most Naval Air Stations are equipped with GPS<BR>RNAV or RNP procedures.<BR>• Naval aircraft are equipped with Tactical GPS<BR>but can not use it in civil controlled airspace or<BR>for GPS based RNAV or RNP procedures<BR>because:<BR>• Tactical GPS does not have integrity<BR>– No protected database in aircraft<BR>– Manual entry of approach is prohibited<BR>– No graphic display of the RNAV procedures<BR>(SIDS, STARS, and Approach)<BR>P-3C is certified to fly GPS RNAV procedures<BR>F/A-18, MH-60, MV-22, T-45, AV-8Bs can not fly any GPS based procedure<BR>Required Navigation Performance/<BR>Area Navigation – RNP RNAV<BR>Left Cross-Track Containment Limit<BR>Right Cross-Track Containment Limit<BR>RNP Value<BR>DESIRED PATH<BR>RNP RNAV Navigation (Example RNP 2)<BR>95%<BR>2 X RNP Value<BR>2 X RNP Value<BR>RNP Value<BR>ACTUAL PATH<BR>4 nm<BR>2 nm<BR>RNP RNAV = Flight with PPS GPS to NPA + “Containment”<BR>No Deviations<BR>Total System Integration<BR>Data Base Processing Integrity<BR>Data Integrity<BR>Check Process<BR>Data Transfer Device<BR>CDU<BR>FMS<BR>MC<BR>DAFIF<BR>CD-ROM<BR>NGA<BR>Joint Mission Planning Station<BR>Data Integrity<BR>Check Process<BR>Data Integrity<BR>Check Process<BR>Data Integrity<BR>Check Process<BR>Check Sums<BR>or<BR>CRC*<BR>* CRC – Cyclic Redundancy Check<BR>DTD<BR>JMPS<BR>Mid Term (2011-2015) Far Term (2016-2025)<BR>En Route<BR>• RNP-2 Q Routes<BR>• RNP-1 in selected areas high altitude<BR>• RNAV T Routes<BR>• Lower MEAs on routes based on GPS<BR>Terminal<BR>• RNAV SIDs/STARs at OEP*<BR>Airports NOTAM<BR>• RNP-1 SIDs/STARs where beneficial<BR>• Controller Tools for Merging and<BR>Spacing<BR>Approach<BR>• 25 RNP SAAAR per year<BR>• 300 RNAV (GPS) per year<BR>• Standards for closely spaced<BR>and converging Runway Operations<BR>Based on RNP<BR>En Route<BR>• RNP-2 Routes<BR>• RNAV T Routes and Lower MEAs<BR>• Enhanced automation incorporating<BR>aircraft navigation capabilities<BR>Terminal<BR>• RNP 1 and Lower SIDs/STARs<BR>Where Beneficial<BR>• Airspace Redesign and Procedures<BR>for RNAV and RNP with 3D,<BR>Constant Descent Arrivals (CDA),<BR>and Time of Arrival Control (TOAC).<BR>Approach<BR>• 50+ RNP per year<BR>• 300 RNAV (GPS) per year<BR>• Closely spaced parallel and<BR>converging runway operations<BR>based on RNP<BR>• Satellite Based Low Vis. Ldg. and<BR>T/O Procedures (GLS)<BR>Mandate RNP above<BR>FL290<BR>Mandate RNAV above<BR>FL180<BR>Mandate RNP<BR>everywhere in<BR>CONUS<BR>Explore need for<BR>4D, data link, and<BR>enhanced<BR>surveillance<BR>capability<BR>mandates<BR>Performancebased<BR>NAS<BR>Operations<BR>• RNP Airspace At or<BR>Above FL290<BR>• Separation assurance<BR>through combination of<BR>ground and airborne<BR>capabilities<BR>FAA PBN Roadmap Milestones<BR>* OEP – Operational Evolutionary Plan<BR>Mandate RNAV for arriving<BR>& departing at OEP Airports<BR>Mandate RNP in<BR>busy en route<BR>and terminal<BR>airspace<BR>Near Term (2011-2015)<BR>TACAN Navigation today<BR>Bearing Distance Heading<BR>Indicator (BDHI)<BR>289 deg<BR>300 deg<BR>TACAN<BR>1.4 DME<BR>Arc @ 8 DME<BR>GPS RNAV/LNAV<BR>Approach<BR>RNAV and LNAV<BR>APPROACHES ARE<BR>POINT-TO-POINT<BR>(TO-TO NAV)<BR>BEARING,<BR>DISTANCE,<BR>COURSE, CDI ARE<BR>TO THE NEXT<BR>POINT AND NOT<BR>THE AIRPORT<BR>N<BR>><BR>CDI<BR>TAMAY<BR>15.0<BR>DTK<BR>215<BR>GPS RNAV/LNAV NPA Displayed<BR>N<BR>><BR>CDI<BR>TAMAY<BR>15.0<BR>DTK<BR>215<BR>NPA – Non-Precision Approach<BR>CAROM<BR>IAF<BR>3000<BR>215o/15.0<BR>3:00<BR>TAMAY TAMAY<BR>3000<BR>HILER<BR>FAF<BR>2100<BR>RWY30<BR>MAP<BR>880<BR>RNAV (GPS) 30<BR>NSI<BR>TERM<BR>PFD<BR>(Primary Flight Display)<BR>6 x 8 Display Area<BR>Garmin 530<BR>SA Display<BR>PFD<BR>(Primary Flight Display)<BR>9 x 12 Display Area<BR>Back-up Display Back-up Display<BR>2 CDUs<BR>E-2C HE2K CNS/ATM Cockpit<BR>SA – Situation Awareness<BR>Naval Terminal Instrument<BR>Procedures Based on RNP RNAV<BR>Today and the Road Ahead<BR>Now a word from NAVFIG (N885F4)<BR>“ We cannot remain tied to ground based NAVAIDS<BR>forever. The Navy will help lead the way to the<BR>RNAV/RNP future.”<BR>“We will equip every NAS, MCAS, EAF, FOB with<BR>RNAV approach capability consistent with mission<BR>requirements.”<BR>“We will anticipate the future. We will innovate<BR>solutions. The procedures will be there waiting when<BR>the aircraft can fly them.”<BR>New Quote:<BR>“We cannot flight a war or support expeditionary<BR>operations tied to the FLIP cycle.”<BR>NAVFIG RNP RNAV Vision<BR>Current State of RNP RNAV IAP<BR>• Immediate integration of new RNAV design criteria.<BR>• Procedures designed to provide service to base line<BR>equipped aircraft while approving minima<BR>advantageous to more capable aircraft.<BR>• Fleet Liaison to determine need and capabilities.<BR>• Developing Partnership between Acquisition (NAVAIR)<BR>and Procedure design (NAVFIG) to ensure seamless<BR>transition to performance based navigation.<BR>• USIFPP (United States Instrument Flight Procedures<BR>Panel) Membership.<BR>• 5 year Cyclic airfield survey program by NGA.<BR>• RNAV OCONUS (Japan and Iraq)<BR>• Recognition of civil aviation user needs. Contract<BR>flyers need approaches too.<BR>The Navy will help lead the way…<BR>29 PALMS EAF<BR>AL ASAD AB (OCONUS) 2004 5<BR>AL TAQADDUM AB (OCONUS) 2004 1<BR>Al QAIM FOB 2007 1<BR>BARKING SANDS PMRF 2008 3<BR>BEAUFORT MCAS<BR>BRUNSWICK NAS<BR>CAMP PENDLETON MCAS 1<BR>CHERRY POINT MCAS 2006 3<BR>CHINA LAKE NAWS 1998 1<BR>CORPUS CHRISTI NAS 2008 8<BR>EL CENTRO NAS<BR>FALLON NAS<BR>FORT WORTH NAS<BR>FUTEMNA MCAS (OCONUS) 2008 2<BR>GUANTANAMO NS (OCONUS) 2006 4<BR>IWAKUNI MCAS (OCUNUS) 2007 1<BR>JACKSONVILLE NAS 2001 2<BR>KEY WEST NAS 2006 5<BR>KINGSVILLE NAS 2008 4<BR>KOREAN VILLAGE FOB 2004 1<BR>LAKEHURST NAES 2007 2<BR>LEMOORE NAS 2007 4<BR>…Equip every NAS, MCAS, EAF, and FOB…<BR>USN/USMC Airfields with RNAV Procedures<BR>MAYPORT NAS<BR>MERIDAN NAS<BR>MIRAMAR MCAS 2006 1<BR>NEW ORLEANS NAS 2008 2<BR>NEW RIVER MCAS 2001 2<BR>NORFOLK NS 2005 2<BR>NORTH ISLAND NAS 2005 1<BR>OCEANA NAS<BR>ORANGE GROVE NOLF<BR>PATUXENT RIVER NAS 1999 4<BR>PENSACOLA NAS 2001 4<BR>POINT MUGU NAS 1999 2<BR>QUANTICO MCAF 1998 1<BR>SAN CLEMENTE ISLAND NALF 2005 1<BR>SAN NICOLAS ISLAND NOLF 2001 1<BR>WHIDBEY ISLAND NAS 2006 2<BR>WHITING FLD NAS – NORTH 2004 2<BR>WHITING FLD NAS – SOUTH 2004 2<BR>WILLOW GROVE NAS JRB 2004 2<BR>YUMA MCAS 2007 2<BR>Current/pending RNAV approaches<BR>RNAV under development next 12 months<BR>No RNAV within 12 months<BR>…Equip every NAS, MCAS, EAF, and FOB...<BR>CY 2006 33 Total RNAV Procedures<BR>CY 2007 47 Total RNAV Procedures (127% increase)<BR>CY 2008 78 Total RNAV Procedures (166% increase)<BR>Goal: RNAV Full Operational Capability. (FOC)<BR>Projected to have RNAV capability at all<BR>installations by 2010.<BR>Gathering Momentum toward a RNAV Performance<BR>Based Navigation Full Operational Capability.<BR>We will anticipate the future.<BR>We will innovate solutions.<BR>Future Growth:<BR>•PPS as unaugmented precision approach capability.<BR>•LPV equivalency.<BR>•Potentially puts RNAV based precision approach in<BR>every cockpit and to anyplace we care to land an<BR>aircraft.<BR>•RNAV Expeditionary Support Capability.<BR>• Process development.<BR>• Support routine training, expeditionary strike group<BR>operations, fleet divert, and dynamic combat<BR>environment.<BR>• On demand support timeframe as norm not crisis.<BR>“We cannot fight a war or<BR>support expeditionary operations<BR>tied to the FLIP cycle.”<BR>DAFIF v8.0 production process does not currently support real<BR>time use of RNAV navigation in a dynamic expeditionary<BR>environment.<BR>DAFIF v8.0 does not currently support RNAV precision<BR>approach.<BR>DAFIF v9.0 unfunded.<BR>ANSWER: DAFIF augmentation to provide real time<BR>database updates and FAS data block.<BR>DOD AERONAUTICAL DATA BASE<BR>PRODUCTION PROCESS<BR>Development<BR>of<BR>Procedure<BR>and Coding<BR>by NAVFIG<BR>Inclusion in<BR>DAFIF18<BR>DAFIF<BR>Production<BR>User<BR>Requirement<BR>Formal Request<BR>SIAP and Coding<BR>Source File<BR>CRC Database File<BR>DAFIF DVD<BR>FLIP Publication<BR>Current Routine Support of New Procedures<BR>“We cannot fight a war or support<BR>expeditionary operations tied<BR>to the FLIP cycle.”<BR>Current DAFIF Cycle 90-120<BR>days for new procedure<BR>Special Military Request<BR>DAFIF Cycle 14-21<BR>days for new procedure<BR>Expeditionary Support Cycle<BR>3-5 Days<BR>What we need:<BR>-Faster product development.<BR>-Responsive 24/7 system.<BR>-Delivery Direct to User.<BR>GPS/RNP based procedures will get you there<BR>From Baghdad to Pax<BR>The Jump to RNP RNAV<BR>• The Naval Aviation Program for TACAIR<BR>– On Cost, On Schedule, On Performance<BR>• Defining the Required Performance<BR>– FRD uses PPS GPS for PVT and DAFIF for data base<BR>• Enablers and Requirements<BR>– RNAV from Departure through NPA<BR>• The Digital Cockpit<BR>– Equip the Aviator for Success<BR>• The Jump to GPS RNAV TERPS<BR>– IFR GPS Procedures for the Warfighter<BR>Back up Slides<BR>Lack of SA is a Killer<BR>Controlled Flight Into Terrain of Hendrick Motorsports King Air 200, N501RH Oct. 24, 2004,<BR>At Martinsville, Virginia see: http://www.ntsb.gov/publictn/2006/AAB0601.pdf<BR>Failure to properly execute the published instrument approach procedure, and loss of SA due to GPS waypoint<BR>Auto-sequencing and no cockpit display.<BR>K/C-130J CNS/ATM<BR>Platform Status<BR>29 Nov 2007<BR>Not Compliant<BR>In Development<BR>Not Applicable<BR>Certification Complete<BR>Dev Complete, Installs in Work<BR>Awaiting Certification<BR>CNS/ATM Fielding Status<BR>Mode S = Mode Select<BR>RVSM = Reduced Vertical Separation Minimums<BR>RNP RNAV = Required Navigation Performance – Area Navigation<BR>• 08/003 (A0361/07) - NEW RNAV STARS... DEAKK,<BR>FOXXX, DADES... IFR AIRCRAFT INBOUND TO THE<BR>TAMPA TERMINAL AREA. AIRMEN AND AIRLINE<BR>OPERATORS ARE ADVISED THAT ALL ADVANCED<BR>NAVIGATION AIRCRAFT WITH EQUIPMENT QUALIFIERS<BR>/J, /Q, /R, /G, /L, AND /E ARE ADVISED TO FILE AND FLY<BR>THE APPROPRIATE NEW RNAV STARS (DEAKK,<BR>FOXXX, DADES) INTO THE TAMPA TERMINAL AREA.<BR>DUE TO NAS SYSTEM ARCHITECTURE AND<BR>LIMITATIONS THIS IS NECESSARY TO AVOID<BR>CONFUSION, AIRBORNE REROUTES, POTENTIAL<BR>DELAYS AND TO REDUCE COCKPIT WORKLOAD AND<BR>ATC COMMUNICATIONS. 07 AUG 09:01 2007 UNTIL<BR>UFN. CREATED: 04 AUG 20:25 2007 return<BR>KTPA RNAV NOTAM<BR>Source -<BR>https://www.notams.faa.gov/dinsQueryWeb/queryRetrievalMapAction.do?reportType=Report&retrieveLocId<BR>=KTPA<BR>DEAKK ONE ARRIVAL (RNAV)<BR>Meet the Crew Thanks for sharing!
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