Global Positioning Systems Wing SMC Industry Day Briefing 16 Apr 09 Col Don Wussler Vice Commander
Global Positioning Systems Wing Personnel Division GPSW TOTALS Auth/Assigned Military as of 20 Feb 09 134/103 Auth/Assigned Civilian 123/98 FFRDC (Aero/MITRE) 182/52 SE&I/SETA 233/121 Army/Navy/Other 22 Global Positioning Systems Wing Col David Madden/CC Col Don Wussler/CV Mr Mike Dunn/CCJ Col John Borris/CCR IAT Group Squadron Other Systems Engineering Col (s) Dave Goldstein Contracting Ms Cathy Purnell US NDS Program Lt Col Tuck Boyson Ops Support/Sustainment Mr Tim McIntyre Program Control Mr Mark Schubert Management Operations Mr John Traversa User Equipment Group COL Dorothy Taneyhill Space Segment Group Vacant Control Segment Group Col Ken Hasegawa Current UE Ms Guler Padgett (Army) MGUE Lt Col Brad Harroff * Numbers do not include OS contractors Block IIR-M Lt Col Learned Block II Squadron Lt Col Shawn Brennan Block III Squadron Lt Col Don Frew Control Squadron Lt Col Jon Anderson Advanced Control Squadron Lt Col Janet Grondin 2
Air Force s Plan to Enhance GPS Satellites Legacy (Block IIA/IIR) Basic GPS C/A civil signal (L1C/A) Std Pos. Service Precise Pos. Service L1 & L2 P(Y) nav NDS (Block IIR-M) 2nd civil signal (L2C) M-Code signals (L1M, L2M) Flex A/J power (+7dB) (Block IIF) 3rd civil signal (L5) GPS III (Block III) Increased accuracy Increased A/J power (up to 20 db) Signal integrity Search and Rescue Common Galileo OS & GPS (L1C) Control Systems Legacy TT&C L1 & L2 monitoring Upgraded (AEP) IIR-M IIF TT&C WAGE, AII, LADO SAASM New MCS/AMCS OCX Blk 1 (Modernized) Sustainable Architecture Control L2C, L5, M-Code Control Flex Power Signal Integrity Monitoring OCX Blk 2 (GPS III A) Supports GPS IIIA C2 Control Common L1C OCX Blk 3&4 (GPS III B/C) Manage Spot Beam NAVWAR, GNOC Mission Planning Effects-Based Ops User Equipment Legacy Man Pack MAGR, PLGR RCVR-3A, 3S OH, UH FRPA, CRPA Upgraded DAGR CSEL GAS-1 MAGR2K GB-GRAM MGUE (Modernized) Anti-Jam, Anti-Spoof Military exclusivity Handheld / Anti-Tamper Gnd & Avionics embed Auto OTA Rekeying Cornerstones to the Future GPS are GPS III, OCX, & MGUE 3
TY $M GPS Wing Funding FY08-FY13 2000 GPS Sp/Cntrl GPS UE OCX GPS III NDS 1800 1600 1400 1200 1000 800 600 400 200 0 FY08 FY09 FY10 FY11 FY12 FY13 FY09 PB AF Funding Only, Does Not Include 3400 APPN/Other Services/Civil Funding 4
GPS III Summary Schedule GPS III Launches FY07 FY08 FY09 FY10 FY11 FY12 FY13 FY14 FY15 FY16 FY17 FY18 FY19 FY20 FY21 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 Time Now 1 9 17 FY22 FY23 1 2 3 4 Space dsrr SDR GPS III A GPS III B Contract Award Payload Development PDR CDR Assembly, Integration 1 2 SRR SDR & Test Award / PDR CDR Payload Development 3 4 5 6 7 8 9 10 11 12 Assembly, Integration & Test Avail for Launch 9 10 1112 13 14 15 16 Avail for Launch MS-B MS-C Build Appv GPS III C SRR SDR Award / PDR CDR Payload Development Assembly, Integration & Test 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 Avail for Launch Control Block 1.0 & Block 2.0 Contract Award SRR SDR PDR CDR Sys Verif Blk 1.0 Trans Ops Blk 2.0 Trans Ops Block 3.0 (Notional) Block 4.0 (Notional) SRR SDR PDR CDR Sys Verif Blk 3.0 Trans Ops Mod Blk 4.0 Sys Trans SRR SDR PDR CDR Verif Ops Mod Mod User Equipment MGUE CDR ASIC Demo CA MGUE Proto MGUE LRIP MGUE Avail for IOC 5
A Paradigm Shift: The Common GPS Module (CGM) Commercial Paradigm (GPS engines enable multiple applications) Enablers Build Integrators Build + = Engines Applications Proposed MGUE Paradigm (Emulate commercial, Build the engine!) Global GPS Use Common GPS Module (CGM) GPSW Builds Integrators Build + = Enabling Engines Applications Global Military GPS Use 6
Enabling Modernization with the CGM Initial contracts deliver CGM & CGM-based Ground-Embedded card GPS Engine GPS Engine Full function Ground Solution Complete Card for Ground Platform Over 70,000 Ground Embedded Platforms 7
Current GPSW SBIRS Current (2008) Phase 1 SBIRs: Improved Anti Jam (AJ) by Combining Remote GPS Antennas on a UAV Novel Device Processes for Anti-tamper Applications Coaxial Cable Band-with Exploitation Cognitive Radio Technology Commercial Micro-Electronics for Space Applications Current (2008) Phase 2 SBIRs: Low Power FFT/IFFT Transform for Handheld GPS Receivers Multi-Channel RF Application Specific Integration Circuit (ASIC) Digital Antijam ASIC for Handheld GPS Receivers Materials/Techniques for Small/Dense GPS Antenna Arrays 8
Proposed GPSW 2009 SBIR Topics Topic Title (Pending PEO/TEO Review, Jul 09) Passive Hydrogen Maser for Space Application High Performance Pulsed Rubidium Clock for Space Applications Non-Volatile Memory (NVM) Macro Cell for 65nm/45nm IBM Complimentary Metal Oxide Surface (CMOS) GPS UE Time Aiding Using WWV/WWVB Navigation Warfare (NAVWAR) Field Programmable Gate Array (FPGA) and/or ASIC Development GPS User Equipment (UE) Cognitive Functions Mission Aware Location Services Radio Frequency Identification Device (RFID) for Logistics, Configuration Mgmt. (CM) and Security Wi-Fi for Assured PNT and Integrity Verification Operational Techniques to Extend Battery Life 9
Future Technology Efforts (Space) Rad Hard 90nm Field Programmable Gate Array Higher Efficiency (33%+) Solar Cells Light Weight, Long Life Batteries Highly Stable Space Based Time Reference 10
Future Technology Efforts (User Equipment) Reduced Size, Weight & Power (SWAP) Multi-GNSS military receivers Advanced navigation processing Inertial Technology (MEMS/IMU) Wireless net-enabled UE 11
Summary GPSW committed to working with industry GPSW always receptive to industry inputs Significant funding available for technology development 12