SIST-TS CLC/TS 52056-8-5:2015
(Main)Electricity metering data exchange - The DLMS/COSEM suite - Part 8-5: The narrow-band OFDM PLC profile for G3-PLC networks
Electricity metering data exchange - The DLMS/COSEM suite - Part 8-5: The narrow-band OFDM PLC profile for G3-PLC networks
This Technical Specification specifies the EN 62056 DLMS/COSEM communication profile for metering purposes based on the Recommendations ITU-T G.9901: Narrowband Orthogonal Frequency Division Multiplexing Power Line Communication Transceivers – Power Spectral Density Specification and ITU-T G.9903 Narrow-band orthogonal frequency division multiplexing power line communication transceivers for G3-PLC networks, an Orthogonal Frequency Division Multiplexing (OFDM) Power Line Communications (PLC) protocol.
The physical layer provides a modulation technique that efficiently utilizes the allowed bandwidth within the CENELEC A band (3 kHz – 95 kHz) (although ITU-T G.9903 defines the protocol for CENELEC B, ARIB and FCC bands as well), thereby allowing the use of advanced channel coding techniques. This combination enables a very robust communication in the presence of narrowband interference, impulsive noise, and frequency selective attenuation.
The medium access control (MAC) layer allows the transmission of MAC frames through the use of the power line physical channel. It provides data services, frame validation control, node association and secure services.
The 6LoWPAN adaptation sublayer enables an efficient interaction between the MAC and the IPv6 network layers. The IPv6 network protocol; the latest generation of IP (Internet Protocol), widely opens the range of potential applications and services for metering purposes (but not limited to metering purposes).
The transport layer, the application layer and the data model are as specified in the EN 62056 DLMS/COSEM suite.
Echange des données de comptage de l'électricité - La suite DLMS/COSEM - Partie 8-5 : Profil de communication OFDM G3-PLC à bande étroite pour les réseaux de voisinage
Izmenjava podatkov pri merjenju električne energije - Niz DLMS/COSEM - 8-5. del: Ozkopasovni OFDM PLC-profil za omrežja G3-PLC
General Information
Relations
Standards Content (Sample)
SLOVENSKI STANDARD
SIST-TS CLC/TS 52056-8-5:2015
01-junij-2015
,]PHQMDYDSRGDWNRYSULPHUMHQMXHOHNWULþQHHQHUJLMH1L]'/06&26(0GHO
2]NRSDVRYQL2)'03/&SURILO]DRPUHåMD*3/&
Electricity metering data exchange - The DLMS/COSEM suite - Part 8-5: The narrow-
band OFDM PLC profile for G3-PLC networks
Ta slovenski standard je istoveten z: CLC/TS 52056-8-5:2015
ICS:
35.240.50 Uporabniške rešitve IT v IT applications in industry
industriji
91.140.50 Sistemi za oskrbo z elektriko Electricity supply systems
SIST-TS CLC/TS 52056-8-5:2015 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.
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SIST-TS CLC/TS 52056-8-5:2015
TECHNICAL SPECIFICATION CLC/TS 52056-8-5
SPÉCIFICATION TECHNIQUE
TECHNISCHE SPEZIFIKATION
April 2015
ICS 35.240.60; 91.140.50
English Version
Electricity metering data exchange - The DLMS/COSEM suite -
Part 8-5: Narrow-band OFDM G3-PLC communication profile for
neighbourhood networks
This Technical Specification was approved by CENELEC on 2014-11-11.
CENELEC members are required to announce the existence of this TS in the same way as for an EN and to make the TS available promptly
at national level in an appropriate form. It is permissible to keep conflicting national standards in force.
CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus, the Czech Republic,
Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia,
Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Turkey and the United Kingdom.
European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung
CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2015 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
Ref. No. CLC/TS 52056-8-5:2015 E
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CLC/TS 52056-8-5:2015 – 2 –
CONTENTS
Foreword . 4
Introduction. 5
1 Scope . 6
2 Normative references . 6
3 Abbreviations . 7
4 Conventions . 7
5 Overview . 8
6 Targeted communication environments . 8
7 Reference model . 9
8 ITU-T G.9903 communication layers . 12
8.1 Physical Layer (PHY) . 12
8.1.1 Overview . 12
8.1.2 G3 PHY data plane services . 12
8.1.3 G3 PHY management plane services . 12
8.2 MAC layer . 12
8.2.1 Overview . 12
8.2.2 G3 MAC Data Services . 13
8.2.3 G3 MAC Management services . 13
8.3 Adaptation layer . 13
8.3.1 Overview . 13
8.3.2 G3 Adaptation Data Services . 14
8.3.3 G3 Adaptation Management Services . 14
9 DLMS / UDP / IPv6 over ITU-T G.9903 communication profile . 15
9.1 Overview . 15
9.2 General architecture . 15
9.2.1 Overview . 15
9.2.2 PAN device Connection Manager . 17
9.2.2.1 Overview . 17
9.2.2.2 Bootstrapping procedure . 17
9.2.2.3 Leaving a PAN . 17
9.2.2.4 Managing G3-PLC network . 18
9.2.3 PAN Coordinator Connection Manager . 18
9.2.3.1 Overview . 18
9.2.3.2 Initialisation of the G3-PLC sub-network . 18
9.2.3.3 Managing the association request from PAN devices . 18
9.2.3.4 Leaving a PAN – Removal of a device by the PAN
coordinator. 19
9.2.3.5 Managing G3-PLC network . 19
9.3 IPv6 . 19
9.3.1 Overview . 19
9.3.2 Introduction . 19
9.3.3 IPv6 Addressing Plan . 20
9.3.4 IPv6 Addressing Provisioning . 21
9.4 UDP . 22
9.5 DLMS/COSEM Application Layer . 23
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9.5.1 Overview . 23
9.5.2 UDP/DLMS WRAPPER . 23
9.5.3 DLMS/COSEM Communication profile for TCP-UDP/IP networks . 25
9.5.4 DLMS/COSEM Services . 26
List of Figures
Figure 1 – Communication architecture . 9
Figure 2 – OSI layers . 10
Figure 3 – G3-PLC protocol architecture . 11
Figure 4 – PAN device communication profile architecture . 16
Figure 5 – PAN Coordinator Node communication profile architecture. 16
Figure 6 – IPv6 address formats . 20
Figure 7 – IPv6 Addessing plan example . 21
Figure 8 – IPv6 Link-local address composition . 22
List of tables
Table 1 – 16-bit short addresses allocation rule . 22
Table 2 – UDP Port numbering . 22
Table 3 – Selections from FprEN 62056-4-7:2014 . 23
Table 4 – Selections from EN 62056-9-7 2013 . 25
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Foreword
This document (CLC/TS 52056-8-5:2015) has been prepared by CLC/TC 13, "Electrical
energy measurement and control".
The following date is fixed:
(doa) 2015-07-24
• latest date by which the existence of
this document has to be announced
at national level
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CENELEC [and/or CEN] shall not be held responsible for identifying any or all such
patent rights.
This document has been prepared under a mandate given to CENELEC by the European
Commission and the European Free Trade Association.
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Introduction
This Technical Specification is based on the results of the European OPEN Meter project,
Topic Energy 2008.7.1.1, Project no.: 226369, www.openmeter.com, and prepared by G3
Alliance, www.g3-plc.com.
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1 Scope
This Technical Specification specifies the EN 62056 DLMS/COSEM communication profile for
metering purposes based on the Recommendations ITU-T G.9901: Narrowband Orthogonal
Frequency Division Multiplexing Power Line Communication Transceivers – Power Spectral
Density Specification and ITU-T G.9903 Narrow-band orthogonal frequency division
multiplexing power line communication transceivers for G3-PLC networks, an Orthogonal
Frequency Division Multiplexing (OFDM) Power Line Communications (PLC) protocol.
The physical layer provides a modulation technique that efficiently utilizes the allowed
bandwidth within the CENELEC A band (3 kHz – 95 kHz) (although ITU-T G.9903 defines the
protocol for CENELEC B, ARIB and FCC bands as well), thereby allowing the use of
advanced channel coding techniques. This combination enables a very robust communication
in the presence of narrowband interference, impulsive noise, and frequency selective
attenuation.
The medium access control (MAC) layer allows the transmission of MAC frames through the
use of the power line physical channel. It provides data services, frame validation control,
node association and secure services.
The 6LoWPAN adaptation sublayer enables an efficient interaction between the MAC and the
IPv6 network layers. The IPv6 network protocol; the latest generation of IP (Internet Protocol),
widely opens the range of potential applications and services for metering purposes (but not
limited to metering purposes).
The transport layer, the application layer and the data model are as specified in the EN 62056
DLMS/COSEM suite.
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and
are indispensable for its application. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any
amendments) applies.
FprEN 62056-4-7:2014, Electricity metering data exchange - The DLMS/COSEM suite – Part
4-7: DLMS/COSEM transport layer for IP networks (IEC 62056-4-7:2015)
EN 62056-5-3, Electricity metering data exchange – The DLMS/COSEM suite – Part 5-3:
DLMS/COSEM application layer (IEC 62056-5-3)
EN 62056-6-1, Electricity metering data exchange – The DLMS/COSEM suite – Part 6-1:
Object identification system (OBIS) (IEC 62056-6-1)
EN 62056-6-2, Electricity metering data exchange – The DLMS/COSEM suite – Part 6-2:
COSEM interface classes (IEC 62056-6-2)
EN 62056-9-7:2013, Electricity metering data exchange – The DLMS/COSEM suite – Part 9-7:
Communication profile for TCP-UDP/IP networks (IEC 62056-9-7:2013)
Recommendation ITU-T G.9901 (2014) Narrowband Orthogonal Frequency Division
Multiplexing Power Line Communication Transceivers – Power Spectral Density Specification
– available at http://www.itu.int/rec/T-REC-G.9901/en
Recommendation ITU-T G.9903 (2014) Narrowband Orthogonal Frequency Division
Multiplexing Power Line Communication Transceivers for G3-PLC Networks available at
http://www.itu.int/rec/T-REC-G.9903/en
IETF RFC 768: User Datagram Protocol. Edited by J. Postel. August 1980. Available from
http://www.ietf.org/rfc/rfc768.txt
IETF RFC 2460: Internet Protocol, Version 6 (IPv6) Specification. Edited by S. Deering, R.
Hinden. December 1998. Available from http://www.ietf.org/rfc/rfc2460.txt
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IETF RFC 4193: Unique Local IPv6 Unicast Addresses. Edited by R. Hinden, B. Haberman.
October 2005. Available from http://www.ietf.org/rfc/rfc4193.txt
IETF RFC 4291: IP Version 6 Addressing Architecture. Edited by R. Hinden, S. Deering.
February 2006. Available from http://www.ietf.org/rfc/rfc4291.txt
IETF RFC 4944: Transmission of IPv6 Packets over IEEE 802.15.4 Networks. Available from
http://www.ietf.org/rfc/rfc2460.txt
IETF RFC 6282: Compression Format for IPv6 Datagrams over IEEE 802.15.4-Based
Networks. Available from http://www.ietf.org/rfc/rfc2460.txt
3 Abbreviations
6LoWPAN IPv6 over Low power Wireless Personal Area Networks
European Committee for Electrotechnical Standardization
CENELEC
DLMS Device Language Message Specification
EAP Extensible Authentication Protocol
IEC International Electrotechnical Commission
IP Internet Protocol
ITU-T International Telecommunication Union-Telecommunication
LBA LoWPAN Bootstrapping Agent
LBP LoWPAN Bootstrapping Protocol
MAC Media Access Control
NNAP Neighbourhood Network Access Point
OFDM Orthogonal Frequency Division Multiplexing
OSI Open System Interconnection
PAN Personal Area Network
PLC Power Line Communication
PSK Pre-Shared Key
TCP Transmission Control Protocol
UDP User Datagram Protocol
Furthermore, the abbreviations given in Clause 4 of ITU-T G.9903 apply also.
4 Conventions
Through the document, the applicability of each provision from the reference documents is
given using the following convention:
• I = "Informative". The statements of the reference document are provided for information
only;
• N = “Normative”: The statements of the reference document apply without modifications or
remarks;
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• S = “Selection”: The statements of the reference document apply with the selections
specified;
• E = “Extension”: The statements of the reference document apply with the extensions
specified;
• N/R = “Not Relevant”: The statements of the reference document do not apply. An
explanation may be given under the part title.
5 Overview
The present technical specification constitutes the specification for ITU-T G.9903
communication profile for metering purposes based on OFDM and DLMS/COSEM.
This technical specification has been developed to meet the following aims:
• Robustness: the communication profile shall be suited to severe powerline environments;
• Performance: it embeds adaptive modulation to use the proper modulation according to
the quality of the link;
• Simplicity: it shall be simple to implement, install (Plug and Play), operate and maintain;
• Flexibility: it shall be compatible with diverse applications and network topologies;
• Security: it shall offer a secure environment for the promotion of Value Added services;
• Openness: it shall be based on open standards in order to support multi-supplier
solutions;
• Scalability: it shall support a very large range of devices (from 2 up to 2000 nodes in the
same PAN);
• Future proof: it shall be able to support future applications.
6 Targeted communication environments
The DLMS/COSEM narrow-band OFDM PLC profile for G3 networks is intended for remote
data exchange on Neighbourhood Networks (NN) between Neighbourhood Network Access
Points (NNAP) and Local Network Access Points (LNAPs) or End Devices using OFDM
technology over the low voltage electricity distribution network as a communication medium.
The functional reference architecture is shown in Figure 1.
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Electricity Metering End Device
Meter application functions
I
Meter communication functions
M
L
NN LN
C Local Network Access Point (LNAP)
N
C
Neigbourhood Network Access Point (NNAP)
WAN
AMI Head End System
Figure 1 – Communication architecture
End devices – typically electricity meters – comprise application functions and communication
functions. They may be connected directly to the NNAP via the C interface, or to an LNAP via
an M interface, while the LNAP is connected to the NNAP via the C interface. The LNAP
function may be co-located with the metering functions.
A NNAP comprises gateway functions and it may comprise concentrator functions. Upstream,
it is connected to the Metering Head End System (HES) using suitable communication media
and protocols.
End devices and LNAPs may communicate to different NNAPs, but to one NNAP only at a
time. From the PLC communication point of view, the NNAP acts as the PAN coordinator
while end devices and LNAPs act as PAN devices.
NNAPs and similarly LNAPs may communicate to each other, but this is out of the scope of
this Technical Specification, which covers the C interface only.
When the NNAP has concentrator functions, it acts as a DLMS/COSEM client. When the
NNAP has gateway functionality only, then the HES plays the role of a DLMS/COSEM client.
The end devices or the LNAPs play the role of DLMS/COSEM servers.
A mixed architecture is also possible, i.e. both the HES and the NNAP can act as a client.
7 Reference model
The proposed protocol stack uses the following OSI layers as shown in Figure 2:
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COSEM Application Process
IEC 62056-6-1/6-2
Application COSEM Application layer
Layer IEC 62056-5-3
WRAPPER
IEC 62056-4-7
Transport
UDP
Layer IETF RFC 768
Network
IPv6
Layer IETF RFC 2460
ITU-T G.9903
6LoWPAN Adaptation Sub-layer
Data Link
LOADng routing
Layer
MAC Sublayer
IEEE 802.15.4 – 2006 based
Physical
Physical layer
Layer ITU-T G.9903
PLC Media
Figure 2 – OSI layers
The protocol stack aggregates several layers and sublayers that form the ITU-T G.9903
DLMS/COSEM profile:
• The DLMS/COSEM Application layer as specified in EN 62056-5-3 covering the
Application, Presentation and Session functionalities;
• The DLMS/COSEM transport layer as specified in FprEN 62056-4-7:2014, used with the
DLMS/COSEM UDP/IPv6 profile over G3-PLC network;
• The ITU-T G.9903 Data link layer, that consists of the IETF 6LoWPAN Adaptation Layer
and the MAC sublayer;
• The ITU-T G.9903 Physical layer adapted to the CENELEC A band (see Clause 7).
Following this reference model, a profile can be identified using the G3 PHY, data link layer
as lower layers on one hand, and the DLMS/COSEM Application layer and the COSEM object
model on the other hand.
NOTE The COSEM interface classes for setting up and managing data exchange over the narrow-band OFDM
PRIME[GK1] PLC network are specified in EN 62056-6-2
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COSEM Application Process
IEC 62056-6-1, IEC 62056-6-2
DLMS/COSEM Application layer
IEC 62056-5-3
xDLMS APDUs
DLMS/COSEM Transport layer
IEC 62056-4-7
DLMS / COSEM wrapper
UDP
IETF RFC 768
IPv6
IETF RFC 2460
Adaptation layer
(IETF 6LoWPAN based)
MAC Control
MAC Data services
services
MAC layer
(IEEE 802.15.4 based)
ITU-T G.9903 Narrow-band OFDM PLC Data Link layer for G3-PLC network
PHY Control services PHY Data services
ITU-T G.9903 Narrow-band OFDM PLC Physical layer for G3-PLC network
Figure 3 – G3-PLC protocol architecture
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8 ITU-T G.9903 communication layers
8.1 Physical Layer (PHY)
8.1.1 Overview
This layer provides the interface between the equipment and the physical transmission
medium that is the powerline. It transmits and receives MPDUs between neighbour nodes.
The physical layer uses OFDM modulation in the CENELEC A-band. This band covers the
frequency range from 3 kHz up to 95 kHz and its use is restricted to electricity suppliers and
their licensees. The OFDM signal uses a frequency bandwidth of 54,6875 kHz located on the
high end of the CENELEC A-Band.
For more details about the G3-PLC PHY layer, see ITU-T G.9903, Clause 7.
8.1.2 G3-PLC PHY data plane services
G3-PLC PHY data plane services are generated / used by the MAC layer entity whenever
data have to be transmitted to / received from (a) peer MAC entity(ies) using the PHY
transmission procedures. See ITU-T G.9903, 7.17.1. They are the following:
• PD-DATA.request: allows the MAC layer entity to request the transmission of an MPDU to
a peer MAC entity;
• PD-DATA.confirm: allows the PHY layer entity to confirm the end of the transmission of an
MPDU;
• PD-DATA.indication: allows the PHY layer entity to transfer a PPDU from the PHY to the
local MAC layer;
• PD-ACK.request: allows the MAC layer entity to send an ACK PHY frame to the peer MAC
entity via the local PHY layer;
• PD-ACK.confirm: allows the PHY layer entity to confirm the end of the transmission of an
ACK PHY frame;
• PD-ACK.indication: allows the PHY layer entity to indicate that an ACK PHY frame has
been received from the peer MAC frame.
8.1.3 G3 PHY management plane services
G3 PHY management plane services are used to manage the physical layer by the MAC
layer. See ITU-T G.9903, 7.17.2. They are described below:
• PLME_SET: allows the MAC layer entity to set the characteristics (power, modulation…) to
use for the next PHY packet to transmit;
• PLME_GET: allows the MAC layer entity to get physical information from the last physical
packet received: channel characteristics (power, modulation…), the signal noise ratio
(SNR) global or per each carrier and the phase differential with the neighbour;
• PLME_SET_TRX_STATE: allows the MAC layer entity to change the mode of the PHY
layer either in transmission or reception mode;
• PLME_CS: allows the MAC layer entity to get media status using carrier sense (either idle
or busy). This information is used by the CSMA-CA algorithm implemented in the MAC
layer.
8.2 MAC layer
8.2.1 Overview
A G3-PLC subnetwork is a mesh network with two types of nodes, the PAN Coordinator and
PAN devices. The PAN coordinator is at the root of the mesh network and acts as the master
node that provides the subnetwork with connectivity. There is one PAN coordinator in a
subnetwork. Any other subnetwork node is a PAN device.
The PAN Coordinator manages the G3-PLC subnetwork resources and connections. This
specific PAN device is initially the subnetwork itself and all other nodes should follow a
registration process to enrol themselves on the subnetwork.
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PAN devices start in a “non-associated” state and they try to find directly a PAN Coordinator
or a neighbour PAN device to register to the G3-PLC subnetwork. Once done, the PAN device
receives a short MAC address and may automatically serve as a router for other PAN devices
which wants to connect to the subnetwork.
The functions offered by the MAC layer are:
• Channel Access implementation using the CSMA/CA algorithm;
• Inter-frame (IFS) spacing management;
• Management of the priority access to the channel following the type of MPDU to transmit;
• Automatic Repeat Request (ARQ) mechanism between nodes based on acknowledged
and unacknowledged retransmission;
• MAC packet (MPDU) segmentation and reassembly to / from PHY layer;
8.2.2 G3-PLC MAC Data Services
G3 MAC data plane services are generated / used by the Adaptation layer entity whenever
data have to be transmitted to / received from (a) peer Adaptation entity(ies) using the MAC
transmission procedures. See ITU-T G.9903, 9.3.3. They are the following:
• MCPS-DATA: is used to send or receiving unicast, multicast or broadcast data.
8.2.3 G3-PLC MAC Management services
G3-PLC MAC management plane services are generated / used by the local Adaptation layer
entity to the local MAC entity. See ITU-T G.9903, 9.3.3. They are the following:
• MLME-BEACON-NOTIFY: allows the MAC layer entity to send to the Adaptation layer
entity information received from a neighbour during a neighbourhood discovery;
• MLME-GET: allows the Adaptation layer entity to request value about a given
configuration PIB attribute from the MAC layer entity;
• MLME-RESET: allows the Adaptation layer entity to reset the MAC layer entity to its
default configuration values;
• MLME-SCAN: uses by the Adaptation layer entity to initiate an active channel scan to
discover the neighbourhood G3-PLC network;
• MLME-COMM-STATUS: allows the local MAC layer entity to inform the Adaptation layer
entity about the status of a communication;
• MLME-SET: allows the Adaptation layer entity to set value about a given configuration PIB
attribute from the MAC layer entity;
• MLME-START: allows the Adaptation layer entity to initiate a new G3-PLC subnetwork
(new PAN). This primitive is only used by the PAN Coordinator;
• MLME-SYNC-LOSS: allows the MAC layer entity to indicate to the Adaptation layer entity
a detection of an alternate PAN network (i.e. another G3-PLC subnetwork managed by
another PAN Coordinator).
8.3 Adaptation layer
8.3.1 Overview
The following description is based on ITU-T G.9903, 9.4.
The functions offered by the IPv6 Adaptation layer are:
• Bootstrapping and Authentication process;
• UDP and IPv6 header compression;
• LOADng Mesh Routing protocol (may be disabled);
• IPv6 Address auto-configuration;
• Fragmentation and reassembly of IPv6 packet;
• G3-PLC subnetwork management;
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• Unicast, multicasting and broadcasting.
8.3.2 G3-PLC Adaptation Data Services
G3-PLC Adaptation data plane services are generated / used by the application layer entity
whenever data have to be transmitted to / received from (a) peer application entity(ies) using
the Adaptation transmission procedures. See ITU-T G.9903, 9.4.6.1. It is the following:
• ADPD-DATA: is used to send or receiving unicast, multicast or broadcast data.
8.3.3 G3-PLC Adaptation Management Services
G3-PLC Adaptation management plane services are generated / used by the local application,
layer entity to the local Adaptation layer entity. See ITU-T G.9903, 9.4.6.2. They are the
following:
• ADPM-DISCOVERY: allows the application layer to request to Adaptation layer to scan for
G3-PLC subnetwork in its POS;
• ADPM-NETWORK-START: allows the application layer entity to request the starting of a
new G3-PLC subnetwork. It shall only be invoked by a device designated as the PAN
Coordinator of the new G3-PLC subnetwork;
• ADPM-NETWORK-JOIN: for a PAN device, allows the application to request to register to
a specific G3-PLC network (identified by its PAN identifier). On other hand, for the PAN
Coordinator, this primitive is used to inform the application about a new request of
registering;
• ADPM-NETWORK-LEAVE: allows the application layer of a PAN device to remove itself
from the G3-PLC subnetwork. This primitive is not applicable for the PAN Coordinator;
• ADPM-RESET: allows the application layer to request a reset of the G3-PLC transport
layer (including the Adaptation and MAC layers);
• ADPM-GET: allows the application layer to request value about a given configuration PIB
attribute of the Adaptation and MAC layers entities;
• ADPM-SET: allows the application layer to set value about a given configuration PIB
attribute of the Adaptation and MAC layers entities;
• ADPM-NETWORK-STATUS: allows the application layer of a PAN
...
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