1 Scope
2 References
3 Definitions
4 Abbreviations and acronyms
5 Home network architecture and reference models
5.1 Home network architecture and topology
5.2 Reference models
5.3 Management-plane reference model
6 Profiles
6.1 Low-complexity profile (LCP)
6.2 Standard profile
6.3 Operational frequency band (OFB)
7 Physical layer specification (PHY layer)
7.1 Medium independent specification
7.2 Medium dependent specification
8 Data link layer specification
9 Security
10 High capacity header physical layer specification (HCH-PHY)
10.1 Medium independent specification
10.2 Medium dependent specification
Annex A – Regional requirements for North America
Annex B
Annex C – Regional requirements for Japan
C.1 Scope
C.2 Medium dependent specification
Annex D
Annex E
Annex F – Usage of ITU-T G.9960 for optical transmission
F.1 Scope
F.2 Media dependent specification
Annex G – Test vectors (PHY layer)
G.1 PFH test vectors
G.2 Scrambler test vectors
G.3 FEC encoder test vectors
G.4 Constellation encoder test vectors
G.5 Constellation scrambler test vectors
G.6 Preamble generation test vectors
Annex H – Test vectors (HCH-PHY layer)
Annex I
Annex J – Interoperability between Profile 1 and Profile 2 OFB
transmissions
J.1 Rules for selection of transmission mode
J.2 Rules for scheduling generation
Annex K to Annex Q
Annex R – Use of reverse power feeding techniques for G.hn over coaxial
media
R.1 Scope
R.2 References
R.3 Definitions
R.4 Abbreviations and acronyms
R.5 Reference architecture
R.6 Implementation of RPF
Appendix I – Examples of home network topologies
Appendix II – Spectral usage
II.1 Scope
II.2 Spectral usage in Japan
Appendix III – Priority mapping
Appendix IV
Appendix V – Electric vehicle applications based on ITU-T G.9960
V.1 Introduction
V.2 EVSE and EV devices
V.3 Overall network architecture
V.4 Authorization of an EV
V.5 Charging an EV without an EVSE
Bibliography