Page 1092 - 5G Basics - Core Network Aspects
P. 1092
2 Transport aspects
15.4 OMS-O description
15.5 OCh-O and OTSiG-O description
15.6 OTU/ODU frame alignment OH description
15.7 OTU OH description
15.8 ODU OH description
15.9 OPU OH description
16 Maintenance signals
16.1 OTS maintenance signals
16.2 OMS maintenance signals
16.3 OCh and OTiSA maintenance signals
16.4 OTU maintenance signals
16.5 ODU maintenance signals
16.6 Client maintenance signal
17 Mapping of client signals
17.1 OPU client signal fail (CSF)
17.2 Mapping of CBR2G5, CBR10G, CBR10G3 and CBR40G signals into OPUk
17.3 Blank clause
17.4 Mapping of GFP frames into OPUk (k=0,1,2,3,4,flex)
17.5 Mapping of test signal into OPU
17.6 Mapping of a non-specific client bit stream into OPUk
17.7 Mapping of other constant bit-rate signals with justification into OPUk
17.8 Mapping a 1000BASE-X and FC-1200 signal via timing transparent transcoding into
OPUk
17.9 Mapping a supra-2.488 Gbit/s CBR signal into OPUflex using BMP
17.10 Mapping of packet client signals into OPUk
17.11 Mapping of FlexE client signals into OPUflex using IMP
17.12 Mapping of FlexE aware signals into OPUflex
17.13 Mapping a 64b/66b PCS coded signal into OPUflex using BMP and 2-bit alignment of
66b code words
18 Blank clause
19 Mapping ODUj signals into the ODTU signal and the ODTU into the OPUk tributary slots
19.1 OPUk tributary slot definition
19.2 ODTU definition
19.3 Multiplexing ODTU signals into the OPUk
19.4 OPUk multiplex overhead and ODTU justification overhead
19.5 Mapping ODUj into ODTUjk
19.6 Mapping of ODUj into ODTUk.ts
20 Mapping ODUk signals into the ODTUCn signal and the ODTUCn into the OPUCn tributary
slots
20.1 OPUCn tributary slot definition
20.2 ODTUCn definition
20.3 Multiplexing ODTUCn signals into the OPUCn
1082
