01241nam 2200253la 450 991048143690332120210618143133.0(UK-CbPIL)2090347978(CKB)5500000000096273(EXLCZ)99550000000009627320210618d1544 uy |greurcn||||a|bb|1: Sebastiani SchmidI, ss. theol. doct. & profess. ordinarii, & conventus ecclesiastici praesidis, Collectaneorum talmudicorum libri duo. Quorum prior de sabbatho, posterior de commixtis, mischnas & commentarios ad illas praecipuorum rabbinorum cum versione Latinâ exhibet[electronic resource]Germany [s.n.]1544Online resource ([14], 240 p)Reproduction of original in Biblioteca Nazionale Centrale di Firenze.Anon815482Uk-CbPILUk-CbPILBOOK99104814369033211: Sebastiani SchmidI, ss. theol. doct. & profess. ordinarii, & conventus ecclesiastici praesidis, Collectaneorum talmudicorum libri duo. Quorum prior de sabbatho, posterior de commixtis, mischnas & commentarios ad illas praecipuorum rabbinorum cum versione Latinâ exhibet2289224UNINA05313nam 2200661Ia 450 991102010430332120200520144314.0978661024280197812802428091280242809978047009125804700912589780470091241047009124X(CKB)1000000000356564(EBL)241162(OCoLC)77524555(SSID)ssj0000242593(PQKBManifestationID)11214006(PQKBTitleCode)TC0000242593(PQKBWorkID)10310932(PQKB)10184946(MiAaPQ)EBC241162(Perlego)2774711(EXLCZ)99100000000035656420040622d2005 uy 0engur|n|---|||||txtccrSDH/SONET explained in functional models modeling the optical transport network /Huub van HelvoortChichester Wileyc20051 online resource (302 p.)Description based upon print version of record.9780470091234 0470091231 Includes bibliographical references and index.SDH/SONET Explained in Functional Models; Contents; Preface; Acknowledgements; Abbreviations; 1 Introduction; 1.1 History; 1.2 Justification; 1.3 Remarks on the concept; 1.4 Standards structure; 2 Functional modeling; 2.1 Functional architecture of transport networks; 2.2 Functional model requirements; 2.3 Functional model basic structure; 2.3.1 Architectural components; 2.3.2 Topological components; 2.4 Functional model detailed structure; 2.4.1 Transport entities; 2.4.2 Transport processing functions; 2.4.3 Reference points; 2.4.4 Components comparison; 2.5 Client/server relationship2.5.1 Multiplexing2.5.2 Inverse multiplexing; 2.6 Layer network interworking; 2.7 Linking the functional model and the information model; 2.8 Application of concepts to network topologies and structures; 2.8.1 PDH supported on SDH layer networks; 2.8.2 Inverse multiplexing transport; 3 Partitioning and layering; 3.1 Layering concept; 3.2 Partitioning concept; 3.2.1 Sub-network partitioning; 3.2.2 Flow domain partitioning; 3.2.3 Link partitioning; 3.2.4 Access group partitioning; 3.3 Concept applications; 3.3.1 Application of the layering concept; 3.3.2 Application of the partitioning concept4 Expansion and reduction4.1 Expansion of layer networks; 4.1.1 Expansion of the path layer network; 4.1.2 Expansion of the transmission media layer; 4.1.3 Expansion of specific layer networks into sublayers; 4.2 General principles of expansion of layers; 4.2.1 Adaptation expansion; 4.2.2 Trail termination expansion; 4.2.3 Connection point expansion; 4.3 Reduction of detail; 5 Adaptation functions; 5.1 Generic adaptation function; 5.2 Adaptation function examples; 5.2.1 The Sn/Sm_A function; 5.2.2 The OCh/RSn_A function; 5.2.3 The LCAS capable Sn-X-L/ETH_A function5.2.4 GFP mapping in the Sn-X/_A function6 Trail termination functions; 6.1 Generic trail termination function; 6.2 Trail termination function examples; 6.2.1 The Sn_TT function; 6.2.2 The OCh_TT function; 6.2.3 The ETH_FT function; 7 Connection functions; 7.1 Generic connection function; 7.2 Connection function example; 7.2.1 VC-n layer connection function Sn_C; 7.2.2 ETH flow domain; 7.3 Connection matrix examples; 7.3.1 Connection matrix example for full connectivity; 7.3.2 Connection matrix example for two groups; 7.3.3 Connection matrix example for three groups8 Connection supervision8.1 Quality of Service; 8.2 Connection monitoring methods; 8.2.1 Inherent monitoring; 8.2.2 Non-intrusive monitoring; 8.2.3 Intrusive monitoring; 8.2.4 Sublayer monitoring; 8.3 Connection monitoring applications; 8.3.1 Monitoring of unused connections; 8.3.2 Tandem connection monitoring; 9 Protection models; 9.1 Introduction; 9.2 Protection; 9.2.1 Trail protection; 9.2.2 Sub-network connection protection; 10 Compound functional models and their decomposition; 10.1 LCAS disabled VCAT functions; 10.1.1 Sn-Xv trail termination function10.1.2 Sn-Xv/Sn-X adaptation functionH/SONET Explained in Functional Models represents a fresh approach to the modeling of transport network technologies. This practical guide and reference text uncovers the description of SDH (Synchronous Digital Hierarchy), SONET (Synchronous Optical Network) and OTN (Optical Transport Network) transport networks and equipment using functional/atomic modeling techniques. It clearly explains the use of models in the ITU-T and ETSI standards, the transport networks and the transport equipment in the definition, implementation and deployment phase. Pays particular atteSynchronous digital hierarchy (Data transmission)SONET (Data transmission)Synchronous digital hierarchy (Data transmission)SONET (Data transmission)621.38216Helvoort Huub van845569MiAaPQMiAaPQMiAaPQBOOK9911020104303321SDH4416283UNINA