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JTRS Transformational Overview and OSD Vision International Data Link Symposium 30 September 2003

JTRS Transformational Overview and OSD Vision International Data Link Symposium 30 September 2003. Mr. David Narkevicius OASD(NII) Communication Programs. Agenda. OSD Vision Global Information Grid (GIG) Transformational Communication System (TCS) Joint Tactical Radio System (JTRS)

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JTRS Transformational Overview and OSD Vision International Data Link Symposium 30 September 2003

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  1. JTRS Transformational Overview and OSD Vision International Data Link Symposium 30 September 2003 Mr. David Narkevicius OASD(NII) Communication Programs

  2. Agenda • OSD Vision • Global Information Grid (GIG) • Transformational Communication System (TCS) • Joint Tactical Radio System (JTRS) • Multifunctional Information Distribution System (MIDS) migration to JTRS • Questions

  3. Legacy Stove-Piped Interoperable Systems Production Storage Pull Delivery Network Centric Operations Legacy Comms Applications Legacy C2 Applications User Mission Applications C2 Systems Built to Functional Capabilities Crossbanding & Gateways Collaboration / Profiling / Proactive Domain Specific Applications User User User Product Requests-Based (User) Information Needs Pulled by User • Systems DetermineUse/Operations • As Is (2000) • Manual Stovepipe Operations • Non Coherent Architectures • Limited Operational Capabilities • Islands of C2 Capability, Air/Land/Sea • Users Define Operations,Response-Built Systems • Evolved Baseline • Evolving C2 capabilities • Baseline Global Information Grid (GIG) capability with Joint C2 Capability • Improved Communications • Information Assurance • Enterprise Definition ofOperations and Systems • Fully Integrated & Automated C3I • Flexible and Adaptable to Missions • Interoperable at Application Level • Full Awareness & Accessibility • Information Operations Networked Information “Legacy” “Evolving” “Objective” Command, Control, Communications, and Intelligence Transformation

  4. Power to the Edge 1. Make information available on a network that people depend on and trust 2. Populate the network with new, dynamic sources of information to defeat the enemy 3. Deny the enemy advantages and exploit weaknesses

  5. The Global Information Grid TCS R R R • Net-Centricity Payoffs • Faster Decision Making/TPPU cycles • Smarter Decisions based on . . . • Access to more quality information • Better Collaboration based on . . . • Shared Battlespace Awareness • Rapid Community of Interest formation R R R R R R JTRS R JTRS R R R JTRS R R Radio R Land Line R JTRS GIG-BE UGS R = Internet Router Task Process Exploit Disseminate Task Post Process Use

  6. NISN Transformational Communications System (TCS) Single Space Backbone • Key Net-centric capabilities: • - IP routers in space • Packets (& circuits) • part of “black core” comm net • supports IPv6 • supports TPPU • supports SCA terminals • dynamic routing APS 192.60.0.0 TSAT NB/WB/Comm. Airborne Networks Terrestrial Segment Deployed Networks 192.127.0.0 136.27.64.0 136.27.60.0 Terminal Segment TSAT – Transformational Satellite APS – Advanced Polar System NB – Narrow Band WB – Wide Band Comm. – Commercial IC – Intelligence Community NISN – NASA Information Services Network DISN – Defense Information Services Network TPPU –Task, Post, Process, Use IC Network DISN Connect Anyone, Anywhere, Anytime

  7. Digital Ether Wideband Network Joint Tactical Radio System (JTRS) Joint Solution 1 Family, Software Defined, Scaleable, High Capacity to meet Network Centric Warfare Current Legacy Systems (25-30 Families) (750, 000 Radios) Common Open Standards Architecture & Technology Base Navigation Positioning Location Identification Air to Ground Air to Air Ground to Air SATCOM Legacy WaveformsCommercial Waveforms New Military Waveforms JTRS radio Network of nodes using Wideband Networking Waveform to allow self forming/healing, mobile high capacity backbone Push To Talk , Limited Data Capability Most importantly: Provides capability for mobile ad-hoc network to achieve net- centric capability.

  8. JTRS Set VME/VXI SEM-E PCI Power Amp Receiver/Exciter Up/Down Conv Modem TAClane KG-84A/C KGV-11 Black Red Pentium 68xxx Other Vocoder Power Supplies Data Buses Radio Crypto Processors Link-16 WNW SINCGARS JTRS Waveforms Software Communications Architecture Software Defined Radio Concept Hardware + Software Fill Device Architecture ties it all together

  9. FY04 1 2 3 4 FY08 1 2 3 4 FY07 1 2 3 4 FY06 1 2 3 4 FY00 1 2 3 4 FY01 1 2 3 4 FY02 1 2 3 4 FY03 1 2 3 4 FY05 1 2 3 4 SCA Maintenance V2.1, V2.2 . . . Lead Test Lab Selection JTRS Waveform Application Library MBITR - SCA Cluster 4 (Airborne) Complete Space Study Effort 17 June 2003 Policy Change JTRS Program Schedule Concept & Tech Devel Sustainment Risk Reduction & Demonstration System Demonstration & Deployment V2.0 v1.0 SCA Architecture Development Architecture Evolution Waveform Waveform Waveform Waveform Waveform JTRS Step 2B / 2C Prototypes Architecture Validation Software Radio Validation Cluster 1 (Ground Vehicular, Rotary Wing, TACP) MBMMR & MBITR Development Cluster 2 (Handheld) Cluster 3 (Maritime/Fixed-Site) Pre-SDD Cluster 5 (Embedded, Handheld, Manpack) Future Cluster (High Data Rate)

  10. Crypto Obj Non-Cl 1 CL 1 Non-Core Cluster 1 Core Each Waveform Lab Certified by JTeL Joint Waveform Acquisition Schedule FY02 FY03 FY04 FY05 FY06 FY07 FY08 Cluster 1 HW Stage Prototype EDM LRIP FRP *SINCGARS (SCA Devel Support & Full Wf Devel) *HAVEQUICK II *Wideband Networking Waveform (WNW) *EPLRS *DAMA SATCOM 181/182/183 DAMA SATCOM 184 HF SSB & ISB w/ALE (2 Wfs) ATC VHF Data Link (8.33&25Khz) (2Wfs) Link 16 STANAG 4231 (SATCOM) STANAG 5066 (HF) STANAG 4529 (HF) ATC HF Data Link SATURN UHF AM/FM PSK LOS VHF AM/FM (2 Wfs) Link 4/4A (TADIL C) Link 11 (TADIL A) Link 11B (TADIL B) UHF FM Public Service (LMR) VHF FM Public Service (LMR) COBRA STANAG 4193 Mode S Level 4/5 Soldier Radio IBS DWTS (Digital Wideband Transmission System) MUOS (ANSCAI), Cellular radio & Link 22, Mobile Satellite Service (MSS) AIM SIERRA CORNFIELD TBD TBD *ITALICS – KPP Waveforms, - Waveforms devel. in Cluster 1, - JPO-devel. Waveforms - JTeL Certification JTeL – JTRS Technical Laboratory (Average Time Shown) 021220

  11. JTRS MIDS to Software Radio • Maintain MIDS “Foot Print” • No Change in Box Outline Dimensions or hardware connectors • Maintain Same Mounting Locations • Additional capability connections available for later integration • Backwards Compatibility with MIDS LVT • Maintain Existing Interfaces • Require no host platform modifications for Link 16 and TACAN • Allows for Additional Functional Capability in Same “Foot Print” to evolve as required by the Platforms • JTRS Building Block Approach adapts to Reduced Size / Function JTRS Terminal for smaller platforms

  12. IP Internet Protocol MIDS LVT Link 16 & TACAN MANET Services Mobile Ad-hoc Networking MIDS JTRS Critical System Interconnect RED Network Interface Link 16 SCA Waveform Antenna Enhancement Plan IFF IFF 969 MHz 1206 MHz NSA Dynamic Network Management JTRS Programmable Crypto Chip Critical System Interconnect BLACK Enhanced Throughput Time Slot Reallocation Frequency Remapping Capability ... A Vision - MIDS Migration

  13. Migration Objectives • MIDS JTRS – Will maintain MIDS form-fit and Link-16/TACAN ICD (plug & play with legacy terminals) plus additional channels and JTRS functionality • Link-16 & TACAN on 1 Channel • Programmable w/JTRS Enhanced Link-16 Waveform • Retains 200 W Internal Link-16 PA/IPF • 3 Additional JTRS waveform channels • 2 MHz - 2 GHz capability • Programmable with JTRS Waveforms • JTRS Functionality – Flexible, programmable channels, programmable COMSEC, Ad-hoc networking, route/retransmit • MIDS-LVT • Link-16, J-Voice, and TACAN by utilizing dedicated modules • DP/TP/SMP/RTI/DISC/RX/EXC/IPF/PA • Cannot be reconfigured to run other waveforms • By JTRS definitions, MIDS-LVT is a single channel, non-programmable radio that does Link-16, J-Voice, and TACAN on shared time basis

  14. Summary • US DoD transforming to Network Centric • JTRS and TCS are critical • MIDS to JTRS • Builds on International team and knowledge base • Leverages MIDS LVT investments • Reduces Integration Cost/Risks • Accelerates fielding of JTRS capabilities

  15. Questions

  16. Cluster 1 (Ground Vehicular/Helo) • OPR: Army • Description: Provides JTRS to vehicular and rotary wing platforms, to include TOC and TACP • Cluster IOC: FY07 • Army, Air Force, Marines • Software reprogrammable, multi-band/multi-mode, networking radio system • Simultaneous audio, data, and video • Supports commercial IP routing • Automatic network reconfiguration • Supports Multiple Independent Levels of Security • JTA compliant – Open System Architecture Rotary Wing Vehicular Legacy Radios Single Radio Replaces Several MS C MS B Devel SINCGARS EOA DT EPLRS Waveforms SINCGARS EPLRS DAMA HF SSB HAVE QUICK LINK 16 VHF ATC WNW OT • -SCA Compliant • -Interoperability • -Networked • New functionality in WNW • Full functionality of legacy • Radios • -Protocols/Standards • -Flexibility/Independence • -Waveform Storage NSA Cert. MIDS/Link 16) LRIP 1 LRIP 2 Spit Fire/DAMA FRP IOC OTHERS… HQ, VHF, HF, etc.,

  17. DT Cluster 2 (Handheld) • OPR: USSOCOM • Description: Provides JTRS handheld radios • Cluster IOC: FY05 (Blk 1) • Spec Ops, All Services • Modification to the AN/PRC-148 Multiband Inter/Intra Team Radio (MBITR) • Initial Handheld units operate in 30-512 MHz • Waveforms: Include SINCGARS, HQII, VHF/AM-FM, UHF/AM-FM, APCO 25 • No greater than 3 lbs, Waterproof to 66 ft • Embedded programmable COMSEC Near-Term Mid-Term Long-Term FY96-97 FY98-03 FY04-07 Production Decision ECP MBITR Devel MX-300 SABER I/II/III AN/PRC-126 AN/PRC-139 JTRS Cluster 2 Handheld MBITR ECP OT NSA Cert. Production IOC

  18. Cluster 3 (Maritime/Fixed-site) • OPR: Navy • Description: • New Joint Tactical Radio Development and Procurement Program for Maritime and Fixed Station • Cluster IOC: FY 09 • Scalable and modular to meet Joint Service and Coast Guard requirements • Ancillary equipment for Maritime platform and Fixed Station integration • Standard 19” wide rack mountable • Enhances Theater and BLOS networking Current Long-term FY07 -> Cluster 3 MS B MS C DMR Devel EOA DT/OT 1 DT/OT 2 WSC-3 NSA Cert. LRIP FRP IOC

  19. Cluster 4 (Airborne) • OPR: Air Force • Description: Provides JTRS to land and sea based fixed wing and unmanned aircraft • Cluster IOC: FY07 • All Services • Software programmable, scalable up to 8 channels, multi-mode, multi-band (2 MHz-2 GHz) • Standard aircraft rack mountable, no larger or heavier than the equipment replaced • Embedded programmable COMSEC • Interoperable & backwards compatible • Multiple form-factors for various mission aircraft 4A – Command & Control 4B – Mobility 4C – Air-Air / Air-Ground MS C MS B Pre-SDD Devel Spiral Devel DT OT NSA Cert. LRIP FRP IOC

  20. DT DT OT OT Cluster 5 (Handheld, Manpack, and Embedded) • OPR: Army • Description: Provides small form factor JTRS to be embedded in handheld radios, manpacks, integrated warrior systems, and precision weapons. • Cluster IOC: FY07 • All Services & Spec Ops Forces Near-Term Mid-Term Long-Term FY98-03 FY04 - 07 FY07>>>>> MS C MS B JTRS Handheld Manpack Embedded Legacy Handheld JTRS Handheld Phase 1 Devel Handheld Manpack LRIP FRP IOC JTRS Cluster 5 MBITR ECP MBITR MS C All Form Factors LRIP FRP NSA Cert (all form factors).

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