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Shipboard Networks
Program Executive Office Command, Control, Communications, Computers and Intelligence (PEO C4I) Shipboard Networks 12 June 2008 Kurt Fiscko Future SATCOM Chief Engineer (PMW 170) Distribution Statement A: Approved for Public Release. Distribution is Unlimited (4 June 2008) Information Dominance Anytime, Anywhere… PEOC4I.NAVY.MIL Current Shipboard Architecture MDR PTP SCI Router SCI LAN KG-84A Integrated Network Manager MDR TIP EHF Terminal INE TIP Cisco KIV-7SHB TacLane KG-175 DMR CRIU/CAP C R I U SECRET Router SECRET LAN Cisco MUX DWTS Amphibs Only KG-194A 144Kb-1.024Mb AN/FCC-100 DWTS Amphibs Only MUX 144Kb-1.024Mb AN/FCC-100 TacLane KG-175 AN/SRC-57 DWTS INMARSAT Terminal 64Kb COWAN Router COWAN KG-84A INE KG-84A SATELLITES ADNS UHF Terminal KG-84A KG-84A INE Cisco CAP 5KHz KG-194A JCA Router JCA LAN CAP DAMA MUX 64Kb Cisco To PBX TacLane KG-175 AN/FCC-100 KG-84A CA Terminal UNCLAS Router INE UNCLAS LAN Cisco KG-194A PBX KG-194A VTC KG-194 KG-194A TimePlex Link 2+ MUX TacLane KG-175 Leased SATCOM KG-194A ADNS BLII CAP CLLI CRIU DAMA DWTS FLLI FOT INE MDR PBX PTP TIP VTC Automated Digital Network Systems Base Level Information Infrastructure Channel Access Protocol Copper Land Line Interface CAP Router Interface Unit Demand Assigned Multiple Access Digital Wideband Transmission System Fiber Land Line Interface Follow-On Terminal Inline Network Encryption Medium Data Rate Private Branch Exchange Point-To-Point TDMA Interface Processor Video Tele Conferencing KG-84A 128Kb CSU/DSU F L L I KG-194A Fiber MIL SATCOM SHF Terminal GENSER ADNS CLLI Copper PIER PIER CONNECTIVITY BLII WAN 2 Achieving Robust Bandwidth Afloat Desert Storm c.1990 2.4-16 kbps SATCOM Today 48 kbps INMARSAT (A) UHF SALTS/FAX Official Phones “Quad DAMA” 16 2.4 kbps Networks (25kHz only) Secure Voice/Data Netted Comms 16 kbps SHF 4.8 kbps – 1.544 Mbps 21.6 kbps EHF MDR 24 LDR Channels 8 Primary (2.4 kbps) 8 Secondary (300 bps) 8 RCV Only (2.4 kbps) MDU’s Secure Voice/ Data) 384 kbps – 1.544 Mbps EHF LDR JWICS SIPRNET NIPRNET MDU’s SECURE VOICE/DATA Voice @ 16 kbps (Command Ship Only) SHF JWICS SIPRNET NIPRNET VTC POTS MSG TRAFFIC TESS 24 Mbps 19.2 kbps UHF GBS (Receive Only) “Dual DAMA” 8 2.4 kbps Circuits (25kHz only) Secure Voice/Data Netted Comms UAV Video CNN/FOX NEWS Imagery (Weax/Intel) Web Site Replication (classified/unclassified) Immediate File Delivery (IFD) 64 -128 kbps COMMERICAL Typical Terminal Capacity MILSATCOM INMARSAT (B) HSD NIPRNET SIPRNET JWICS POTS FAX 1.544-2.048 Mbps CWSP JSIPS/JCA JWICS SIPRNET NIPRNET VTC POTS MSG TRAFFIC 3.6 Mbps TV Direct to Sailors (Receive Only) News Sports Entertainment 3 Radio Channels 1 Data Channel We’re We’reNot NotJust JustBuying BuyingMore MoreSpace SpaceSegment… Segment… 3 Current Fleet Terminal Configuration (SatCom) CV/CVN AGF/LCC LHA LHD LPD17 LPD LSD CG DDG DD FFG MCM/ SSN/ T-AH AS MHC SSBN USC-38 EHF SSR-2 GBS SSR-2(A) GBS WSC-6(V)5 SHF WSC-6(V)7 SHF WSC-6(V)9 SHF WSC-8(V) CWSP INMARSAT B INMARSAT B HSD TV-DTS WSC-3 (UHF) HSD: High Speed Data Narrowband Commercial Wideband Protected Broadcast 4 Notional Future Navy Afloat Architecture JTRS/LOS Radio MUOS (5) RED BLACK SCI Network Management SCI HAIPE Other SATCOM Terminals MUOS Terminal SECRET SECRET Commercial UHF Dynamic or Manual Bandwidth Allocation EPS(3) HAIPE C, X, Ku, or Ka Commercial Terminal VIDOIP ADNS JCA JCA WGS (6) NMT SATCOM Terminal X or Ka HAIPE AEHF (4) WGS or DSCS CENTRIX UNCLAS COWAN UNCLAS HAIPE RF Path Determination F L L I HAIPE Fiber ENCLAVES IP PBX ADNS PIER BLII WAN Manual Bandwidth Allocation Q or Ka TSAT or AEHF or MILSTAR or EPS or WGS(Ka) WGS(Ka) TSAT(5) Dynamic Bandwidth Resource Allocation TMOS 5 ADNS Increment Summary Increment I •Baseline Routing, Encryption, & Network Mgmt Based System •ADNS feeds into Static TDM (Timeplex) Network across a Single RF Path •Supports Email, Web Browsing, File Transfer, & Security Enclaves Baseline Routing, Encryption, & Network Mgmt Based System Increment II •Adds Load Balancing / Distribution – static routes with fail over ability •Traffic Management Increment III •Increases throughput from INC II •IIa Functionality for unit level ships •Utilizes all wideband SATCOM BW •Increases IP BW utilization from 67% to 100% - due to increase in converged IP circuits •Even greater throughput (25/50Mbps) in a converged, fullyconnected network •Increases IP BW from 13% to 67% over dual RF paths (share JCA BW) •Eliminates dedicated BW for serial voice and VTC – eliminates serial circuits •IP Resources management •Eliminates need for TDM (Timeplex) WAN circuits •Automatic Failover and Restoral of RF links •War fighter BW guarantees •Application Prioritization (QoS) – added PacketShaper ADNS shipboard variants – B, C, D, E, F, G, and SUBS Increment IIb Increment IIa ADNS shipboard variants – H •Increases IP BW from 13% to 100% - due to converged IP circuit gains •Increases throughput capacity to 8 Mbps •Eliminates dedicated BW for serial voice •Adds Cipher-text Core Routing – Everything encrypted which a key enabler for 1000 ship Navy •Leverages install of SCIP-IWF shout box •Incorporates IPv4/IPv6 Dual Stack Capability •Eliminates need for TDM (Timeplex) WAN circuits •Enhanced QOS via ADNS QOS Edge Device (AED) through Optimized Edge Routing (OER) •Continues compression •Adds Compression •Adds Compression ADNS shipboard variants – J ADNS shipboard variants – K SUBS 6 ADNS TODAY and TOMORROW • Today's NAVY WAN: ¾ Single Path Access, Best Effort, Limited BW, No Guarantee’s ¾ No Network “Insight”, Little Visibility, Limited Decision Making Tools • The NAVY’s Future WAN will be: ¾ Bandwidth Efficient, Possess Multiple Survivable Paths, Contain Quality of Service Guarantee’s and Provide Network Visibility to Remote/Local Users. 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