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BROADBAND COMMUNICATION SYSTEM FOR POLISH LAND FORCES - GLOBAL CHARACTERISTIC S. CONTENTS Schedule of work Other projects 3. Main features of the system - global description - proposed technologies 4. System’s architecture - global architecture - functional subsystems
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BROADBAND COMMUNICATION SYSTEM FOR POLISH LAND FORCES - GLOBAL CHARACTERISTICS
CONTENTS • Schedule of work • Other projects 3. Main features of the system - global description - proposed technologies 4. System’s architecture - global architecture - functional subsystems - example of topology 5. Nodes’ architecture - architecture of WAS node - architecture of LAS node - devices - shelters 6. Conclusions
SCHEDULE OF WORK • Beginning of the project – 1999. • Operational requirements and conception – 1999/2000. • „Testbed” – 2001/2002. • Tactical and Technical Requirements – end of 2002. • Technical documentation of devices and shelters – 2003. • Prototypes of the shelters – 2004/2005. • Testing and national certification – 2006. • Implementation and developing 2006/2007.
OTHER PROJECTS • Tactical Communications for the Land Combat Zone - Post-2000 (TACOMS Post-2000) - NATO nations • Warfighter Information Network (WIN-T) - USA • RITA-2000, ATTILA - France • Cormorant, Falcon - UK • TITAAN - Netherlands • TASMUS - Turkey
Program TACOMS Post - 2000
To: a.Design, b. Validate, and c. Establish common standards for a post - 2000 generation of NATO tactical communications system. TACOMS Post - 2000 Objective
MAIN FEATURES OF THE SYSTEM - required level of interoperability (TP2K) - interworking with stationary communication systems - interoperability with existing systems - COTS principle - the latest technologies - advanced telecommunications services - management - security - open for modification
Technologies used in the system used in the trunk and access nodes. ISDN switches first of all should provide phone services for subscribers. used in local area network based on TCP/IP family protocols. This technology should provide data transmission in the system. used in the trunk and access nodes. ATM switches are the main elements of these nodes. Purpose - integration of different technologies used in nodes, provision of effective trunks’ utilization in the system and quality of service. ISDN Ethernet ATM
SYSTEM’S ARCHITECTURE WAS- Wide Area SubsystemLAS- Local Area SubsystemMS- Mobile Subsystem LTB- LANTELBOXAP- Access Point TrSh - Transmission Shelter SwSh- Switching Shelter Sw-ASh- Switching – Access Shelter RAPSh - Radio Access Point Shelter SMCS- System Management and Control Subsystem CNR - Combat Net Radio
NODES’ ARCHITECTURE WAS node SAT HCLOS HCLOS LOS LOS Z DSTG CVSD systems ATM Switch Z E1 STM-1 other (PCM) systems STM-1 E1 E1 E1 Z Router PBX (IP) (ISDN) LAN digital(ISDN) analog Subscribers
LAS node SAT HCLOS HCLOS LOS Z DSTG CVSD systems ATM Switch E1, E2 Z E1 STM-1 other (PCM) systems STM-1 E1 E1 Z Router (IP) PBX (ISDN) Switch LAN Ethernet LAN digital(ISDN) analog video Subscribers
SwSh-a SwSh-t TrSh HCLOS TN TN TN TN TN TN RAP AN SYSTEM’S ARCHITECTURE WAS- Wide Area SubsystemLAS- Local Area SubsystemMS- Mobile Subsystem TN- Trunk NodeAN - Access Node External systems Existing systems DSTG WAS SECURITY MS PBX LAN LAN Radio networks SMCS T T T T T T LAS
DEVICES IN SHELTERS • ATM switch • ISDN switch • Access Integrator • Bulk Encryption Device • Multiplexer • Media Converter • Gateway IP/ISDN • Base Station WLAN • Radio Relay
Element of the WAS and LAS networks CBR, VBR, UBR services’ support PVC, SPVC and SVC support Resources’ management: e.g. CAC, UPC PNNI, ILMI, UNI signaling support IISP, PNNI routing SNMPv3 management AESA addressing support Interoperation with IP: LANE, CLIP ATM Switch - TAKOM Access switch • STM-1MM – 2 ports • E1 IMA – 16 ports (4x4) • Eth 10/100TX – 6 ports • Eth 100FX – 7 ports • ISDN card – 4 x S0 Trunk switch • STM-1MM – 2 ports • E1 IMA – 48 ports (12x4) • Eth. 10/100TX – 7 ports • Eth. 100FX – 6 ports • ISDN card – 4 x S0
ISDN bearer services’ support Supplementary services’ support DSS1 signaling on digital subscribers’ lines DSS1 and QSIG signaling on trunks DSTG gateway (STANAG 4578 ed. 2) STANAG 5046 i STANAG 4214 numbering support SNMPv3 management ISDN Switch – DGT 3450–1 WW Access Switch • E1 PRI – 8 ports • 4578 E1 PRI – 2 ports • 4206/EUROCOM D1 – 2 ports • S0 – 16 ports • UK0– 16 ports Trunk Switch • E1 PRI – 4 ports • 4578 E1 PRI – 2 ports • 4206/EUROCOM D1 – 2 ports • S0 – 16 ports • UK0– 16 ports
Element of the Switching – Access and Switching – Trunk Shelters Provides an effective interworking between ISDN switches through ATM network ATM trunking using AAL1 support QSIG and DSS1 to UNI 4.0 conversion support STANAG 5046 to ATM AESA address conversion support Interoperation with ATM switch through STM-1 interface Interoperation with ISDN switch through two ISDN PRI interfaces CBR, VBR, UBR services’ support PVC, SPVC and SVC support Resources’ management: e.g. CAC, UPC SNMPv1 management Access Integrator - AI ATM-ISDN
IMPLEMENTATION OF TACOMS Post INTERFACES IN SWITCHING SHELTER