SIST ETS 300 393-1:1999
(Main)Radio Equipment and Systems (RES); Trans-European Trunked Radio (TETRA); Packet Data Optimized (PDO); Part 1: General network design
Radio Equipment and Systems (RES); Trans-European Trunked Radio (TETRA); Packet Data Optimized (PDO); Part 1: General network design
Analysis of predicted needs for services on digital trunked systems for packet mode data in Europe; definition of services to be provided; analysis of spectrum requirements; characteristics of relevant inter- faces. Contains: TETRA 03 - series
Radijska oprema in sistemi (RES) - Vseevropski sistem snopovnega radia (TETRA) - Optimiran sistem za prenos paketiranih podatkov (PDO) - 1. del: Splošna zasnova omrežja
General Information
Standards Content (Sample)
SLOVENSKI STANDARD
SIST ETS 300 393-1:1999
01-julij-1999
Radijska oprema in sistemi (RES) - Vseevropski sistem snopovnega radia (TETRA)
- Optimiran sistem za prenos paketiranih podatkov (PDO) - 1. del: Splošna zasnova
omrežja
Radio Equipment and Systems (RES); Trans-European Trunked Radio (TETRA); Packet
Data Optimized (PDO); Part 1: General network design
Ta slovenski standard je istoveten z: ETS 300 393-1 Edition 1
ICS:
33.070.10 Prizemni snopovni radio Terrestrial Trunked Radio
(TETRA) (TETRA)
SIST ETS 300 393-1:1999 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.
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SIST ETS 300 393-1:1999
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SIST ETS 300 393-1:1999
EUROPEAN ETS 300 393-1
TELECOMMUNICATION April 1996
STANDARD
Source: ETSI TC-RES Reference: DE/RES-06004-1
ICS: 33.020, 33.060.50
TETRA, PDO
Key words:
Radio Equipment and Systems (RES);
Trans-European Trunked Radio (TETRA);
Packet Data Optimized (PDO);
Part 1: General network design
ETSI
European Telecommunications Standards Institute
ETSI Secretariat
F-06921 Sophia Antipolis CEDEX - FRANCE
Postal address:
650 Route des Lucioles - Sophia Antipolis - Valbonne - FRANCE
Office address:
c=fr, a=atlas, p=etsi, s=secretariat - secretariat@etsi.fr
X.400: Internet:
Tel.: +33 92 94 42 00 - Fax: +33 93 65 47 16
*
Copyright Notification: No part may be reproduced except as authorized by written permission. The copyright and the
foregoing restriction extend to reproduction in all media.
© European Telecommunications Standards Institute 1996. All rights reserved.
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SIST ETS 300 393-1:1999
Page 2
ETS 300 393-1: April 1996
Whilst every care has been taken in the preparation and publication of this document, errors in content,
typographical or otherwise, may occur. If you have comments concerning its accuracy, please write to
"ETSI Editing and Committee Support Dept." at the address shown on the title page.
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SIST ETS 300 393-1:1999
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ETS 300 393-1: April 1996
Contents
Foreword .9
1 Scope .11
2 Normative references.11
3 Definitions, symbols and abbreviations.12
3.1 Definitions .12
3.2 Symbols .16
3.3 Abbreviations .17
4 Packet mode reference points .18
4.1 Introduction .18
4.2 Physical interfaces.19
4.3 Configurations.21
4.3.1 Basic configurations .21
4.3.2 Specific configuration .22
4.3.3 NMU configuration.22
4.4 Reference points.22
4.4.1 MS reference points .22
4.4.2 LS reference points .23
4.4.3 NMU reference point .24
4.4.4 TETRA to TETRA reference point.24
4.4.5 TETRA to non-TETRA reference point .24
4.5 Protocol stacks .25
4.5.1 Protocol stacks at R1 reference point .25
4.5.2 Protocol stacks at R2 reference point .26
4.5.3 Protocol stacks at R4 reference point .26
4.5.4 Protocol stacks at R6 reference point .26
5 Protocol architecture .27
5.1 Introduction .27
5.2 Functions .27
5.2.1 Layer 1 functions .27
5.2.2 Layer 2 functions .28
5.2.2.1 MAC functions (sub-layer 2.1) .29
5.2.2.1.1 Transmit functions .30
5.2.2.1.2 Receive functions .30
5.2.2.2 LLC functions (sub-layer 2.2).30
5.2.3 Layer 3 functions .31
5.2.3.1 Connection Oriented Network Protocol (CONP) .32
5.2.3.2 Specific ConnectionLess Network Protocol (SCLNP) .33
5.2.3.3 Mobility functions .33
5.2.3.3.1 MM.33
5.2.3.3.2 MLE.34
5.2.3.4 Point-to-multipoint services .34
6 Addressing and identities .34
6.1 Introduction .34
6.2 Subscriber identities.36
6.2.1 General.36
6.2.2 TSI.36
6.2.3 SSI.37
6.2.4 Composition of subscriber identities .38
6.2.5 Allocation principles for subscriber identities.38
6.2.6 Use of subscriber identities .39
6.2.7 NSAP addresses.39
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6.2.8 Installation of TSIs . 40
6.3 TETRA Management Identity (TMI) . 40
6.3.1 General . 40
6.3.2 Composition of management identities . 40
6.3.3 Use of management identities . 41
6.4 Network layer SAP addresses (NSAP) . 41
6.4.1 General . 41
6.4.2 Static binding . 41
6.4.3 Dynamic binding . 41
6.4.3.1 General . 41
6.4.3.2 Structure and contents of NSAP addresses . 42
6.4.3.3 Use of NSAP addresses . 42
6.4.3.4 Binding of NSAP addresses. 42
6.5 TETRA Equipment Identity (TEI). 42
6.5.1 General . 42
6.5.2 Contents of TEI. 42
6.5.3 Allocation principles for TEI . 43
6.5.4 Use of TEI. 43
6.6 Mobile Network Identity (MNI) . 43
6.6.1 Contents of Mobile Network Identity (MNI) . 43
6.7 Layer 2 addresses and labels . 43
6.7.1 Overview. 43
6.7.2 Event labelling. 43
6.7.3 Scrambling label . 44
6.7.4 Use and implementation of layer 2 addresses . 44
6.7.4.1 General requirement . 44
6.7.4.2 Implementation of event labels . 44
6.7.4.3 Implementation of scrambling labels . 44
6.7.5 Labelling of packet channels . 45
6.7.5.1 Use of identities for uplink data transfers. 45
6.7.5.2 Use of identities for downlink data transfers . 45
6.7.6 System information broadcast . 45
6.7.7 Reserved value of group address for user information broadcast. 45
6.8 Use of individual addresses . 46
6.8.1 Air interface addressing functions . 46
6.8.2 Address placement in primitives and PDUs . 47
6.8.2.1 Use of ISSI at layer 2 . 47
6.8.2.2 Use of ITSI/ISSI at layer 3. 49
6.8.2.2.1 Use of ITSI/ISSI by SCLNP. 49
6.8.3 Routing principles . 49
6.8.3.1 Routing of intra-TETRA data transactions (within one
TETRA network) . 49
6.8.3.2 Routing of inter-TETRA data transactions (between two
TETRA networks). 49
6.8.3.3 Routing of external data transactions (to/from non-TETRA
networks) . 50
6.8.4 Address and identity comparison. 50
7 Mobility Management (MM) in MS . 50
7.1 Introduction. 50
7.2 Overview of MM relations and procedures. 50
7.3 Stimulation of MM. 52
7.3.1 Stimulation through TNMM-SAP. 52
7.3.2 Stimulation through LMM-SAP . 52
7.3.3 Stimulation through peer MM. 53
7.3.4 Other stimulation. 53
7.4 Outputs from MM .53
7.4.1 Output through TNMM-SAP. 53
7.4.2 Outputs through LMM-SAP. 53
7.4.3 Output to peer MM. 54
7.5 Data base requirement. 54
7.6 MM procedures . 54
7.6.1 Registration. 54
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7.6.1.1 Registration at roaming .54
7.6.1.1.1 Implicit registration.54
7.6.1.1.2 Multiple registration.54
7.6.1.1.3 Registration procedure .55
7.6.1.1.4 Registration with authentication.56
7.6.1.1.5 Registration with identity exchange .56
7.6.1.2 Registration at migration.58
7.6.1.2.1 Registration with identity exchange .58
7.6.1.2.2 Registration with authentication.59
7.6.1.3 Network initiated registration .59
7.6.2 Authentication.59
7.6.2.1 Network initiated authentication.60
7.6.2.2 MS initiated authentication.61
7.6.3 De-registration.62
7.6.4 Periodic registration.62
7.6.5 Disable/enable.62
7.6.5.1 Temporary disable.62
7.6.5.2 Temporary enable.63
7.6.5.3 Permanently disable .63
7.6.6 Energy economy mode change.63
7.7 Downloading of group identities.63
7.7.1 Add group identity.63
7.7.2 Delete group identity.64
7.7.3 Delete all group identities .64
7.7.4 Report group identities .65
7.8 Exception conditions.65
7.8.1 Undisciplined de-registration .65
8 MLE mobility scenarios and functionalities.65
8.1 Introduction .65
8.2 Overview .65
8.3 MLE responsibilities.66
8.4 MS-MLE model .67
8.5 MLE functionalities.67
8.5.1 Monitoring of neighbour cells (Scenario 1).68
8.5.2 Scanning of neighbour cells (Scenario 2).68
8.5.3 MM activation of the MS-MLE (Scenario 3).69
8.5.4 Open up MLE service (Scenario 4) .70
8.5.5 Close of MLE service (Scenario 5).71
8.5.6 Changing to serving cell (Scenario 6) .71
8.5.7 Surveillance of the serving cell (Scenario 7) .71
8.5.8 Inviting MM intervention.72
8.5.8.1 No service can be found (Scenario 8) .72
8.5.8.2 LA found outside RA (Scenario 9) .73
8.5.9 Set-up of MAC broadcast (SYNC + SYSINFO) (Scenario 10) .74
8.5.10 Set-up of MLE broadcast (NETWORK) (Scenario 11).74
8.5.11 MM registering (Scenario 12).74
8.5.12 Announce old cell and go-to-channel (Scenario 13) .75
8.5.13 Announce old cell (Scenario 14) .75
8.5.14 Announce new cell and successful restoration (Scenario 15).75
8.5.15 Announce new cell and restoration failure (Scenario 16).76
8.5.16 Path lost to the serving cell (Scenario 17).76
8.6 Initial cell selection .77
8.6.1 MLE functions as viewed at the LMM SAP .77
8.6.2 MLE functions.77
8.7 Cell re-selection by roaming .78
8.7.1 Announced cell re-selection .78
8.7.1.1 Announced cell re-selection (type-2) .78
8.7.1.2 Announced cell re-selection (type-3) .79
8.7.1.2.1 MLE functions .79
8.7.2 Unannounced cell re-selection.80
8.7.3 Undeclared cell re-selection.81
8.7.3.1 MLE functions as viewed at the LMM SAP.81
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8.8 MLE service requests during cell re-selection. 82
8.8.1 Undeclared cell re-selection . 82
8.9 No MLE recovery. 83
9 Technical realisation of TETRA connection mode CONP . 83
9.1 Introduction. 83
9.2 Overview of the protocol. 83
9.2.1 Internal organisation of the network layer and ISO. 83
9.2.2 End-to-end protocol . 85
9.3 Handover and mobility. 85
9.4 Packet through layer 3 in connection mode . 85
9.5 Interconnection. 85
9.6 Addresses . 89
9.7 Lower layer service used. 89
9.8 Services produced by the protocol. 90
9.9 Primitive definition . 90
9.10 Protocol functions. 90
9.11 Structure and encoding of the PDUs. 90
10 Technical realisation of TETRA Specific ConnectionLess Network Service (SCLNS). 91
10.1 Introduction. 91
10.2 Overview of the protocol.91
10.2.1 Internal organisation of the network layer. 91
10.2.2 Interconnection . 92
10.2.3 Addresses. 95
10.3 Lower layer service used. 95
10.4 Services provided by the protocol . 96
10.4.1 Full version . 96
10.4.2 Slim version . 96
10.5 Primitives definition . 96
10.5.1 Data transmission group. 96
10.5.2 Protocol sequences . 97
10.6 Protocol functions. 100
10.7 Structure and encoding of the PDUs. 101
Annex A (normative): Priority functions for packet mode services . 102
A.1 Introduction. 102
A.2 Priority and OSI layers. 102
A.2.1 Exchange of priority information with other protocol entities. 102
A.2.2 Passing of priority information. 102
A.2.2.1 Encoding of priority in PDUs. 102
A.2.2.2 Encoding of priority in primitives . 102
A.2.3 Framework for priorities . 103
A.2.4 Priority parameters. 103
A.2.4.1 Subscriber class . 103
A.2.4.1.1 Description . 103
A.2.4.1.2 Defining subscriber class. 104
A.2.4.1.3 Values of subscriber class . 104
A.2.4.2 Network Connection (NC) priority . 104
A.2.4.2.1 Definition . 104
A.2.4.3 SCLNP priority facility . 105
A.2.4.4 CONP expedited data. 105
A.2.4.5 Mobile Network Identity (MNI). 105
A.2.4.6 Cell service level. 105
A.2.4.7 Message type. 106
A.2.4.8 Message length . 106
A.2.4.9 Emergency calls . 106
A.2.5 Priority functions. 106
A.2.5.1 Layer 2 access priority (air interface only) . 106
A.2.5.1.1 General . 106
A.2.5.1.2 Address restrictions . 107
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A.2.5.2 System broadcast functions .107
A.2.5.2.1 Summary .107
A.2.5.2.2 Network access control .107
A.2.5.3 MTU queue management .107
A.2.5.4 Infrastructure queue management.108
A.2.6 Relationship between parameters and functions.108
A.2.6.1 Summary table .108
A.2.6.2 Mapping of priority parameters at layer 2.108
A.2.6.2.1 Overview.108
A.2.6.2.2 Mapping of the ranked element.109
Annex B (informative): Quality of Service (QoS).110
B.1 Introduction.110
B.1.1 Quality of network service.
...
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Radijska oprema in sistemi (RES) - Vseevropski sistem snopovnega radia (TETRA) - Optimiran sistem za prenos paketiranih podatkov (PDO) - 1. del: Splošna zasnova omrežjaRadio Equipment and Systems (RES); Trans-European Trunked Radio (TETRA); Packet Data Optimized (PDO); Part 1: General network design33.070.10Prizemni snopovni radio (TETRA)Terrestrial Trunked Radio (TETRA)33.020Telekomunikacije na splošnoTelecommunications in generalICS:Ta slovenski standard je istoveten z:ETS 300 393-1 E13SIST ETS 300 393-1:1999en01-PDM-19993SIST ETS 300 393-1:1999SLOVENSKI
STANDARD
SIST ETS 300 393-1:1999
EUROPEANETS 300 393-1TELECOMMUNICATIONApril 1996STANDARDSource: ETSI TC-RESReference: DE/RES-06004-1ICS:33.020, 33.060.50Key words:TETRA, PDORadio Equipment and Systems (RES);Trans-European Trunked Radio (TETRA);Packet Data Optimized (PDO);Part 1: General network designETSIEuropean Telecommunications Standards InstituteETSI SecretariatPostal address: F-06921 Sophia Antipolis CEDEX - FRANCEOffice address: 650 Route des Lucioles - Sophia Antipolis - Valbonne - FRANCEX.400: c=fr, a=atlas, p=etsi, s=secretariat - Internet: secretariat@etsi.frTel.: +33 92 94 42 00 - Fax: +33 93 65 47 16Copyright Notification: No part may be reproduced except as authorized by written permission. The copyright and theforegoing restriction extend to reproduction in all media.© European Telecommunications Standards Institute 1996. All rights reserved.SIST ETS 300 393-1:1999*
Page 2ETS 300 393-1: April 1996Whilst every care has been taken in the preparation and publication of this document, errors in content,typographical or otherwise, may occur. If you have comments concerning its accuracy, please write to"ETSI Editing and Committee Support Dept." at the address shown on the title page.SIST ETS 300 393-1:1999
Page 3ETS 300 393-1: April 1996ContentsForeword.91Scope.112Normative references.113Definitions, symbols and abbreviations.123.1Definitions.123.2Symbols.163.3Abbreviations.174Packet mode reference points.184.1Introduction.184.2Physical interfaces.194.3Configurations.214.3.1Basic configurations.214.3.2Specific configuration.224.3.3NMU configuration.224.4Reference points.224.4.1MS reference points.224.4.2LS reference points.234.4.3NMU reference point.244.4.4TETRA to TETRA reference point.244.4.5TETRA to non-TETRA reference point.244.5Protocol stacks.254.5.1Protocol stacks at R1 reference point.254.5.2Protocol stacks at R2 reference point.264.5.3Protocol stacks at R4 reference point.264.5.4Protocol stacks at R6 reference point.265Protocol architecture.275.1Introduction.275.2Functions.275.2.1Layer 1 functions.275.2.2Layer 2 functions.285.2.2.1MAC functions (sub-layer 2.1).295.2.2.1.1Transmit functions.305.2.2.1.2Receive functions.305.2.2.2LLC functions (sub-layer 2.2).305.2.3Layer 3 functions.315.2.3.1Connection Oriented Network Protocol (CONP).325.2.3.2Specific ConnectionLess Network Protocol (SCLNP).335.2.3.3Mobility functions.335.2.3.3.1MM.335.2.3.3.2MLE.345.2.3.4Point-to-multipoint services.346Addressing and identities.346.1Introduction.346.2Subscriber identities.366.2.1General.366.2.2TSI.366.2.3SSI.376.2.4Composition of subscriber identities.386.2.5Allocation principles for subscriber identities.386.2.6Use of subscriber identities.396.2.7NSAP addresses.39SIST ETS 300 393-1:1999
Page 4ETS 300 393-1: April 19966.2.8Installation of TSIs.406.3TETRA Management Identity (TMI).406.3.1General.406.3.2Composition of management identities.406.3.3Use of management identities.416.4Network layer SAP addresses (NSAP).416.4.1General.416.4.2Static binding.416.4.3Dynamic binding.416.4.3.1General.416.4.3.2Structure and contents of NSAP addresses.426.4.3.3Use of NSAP addresses.426.4.3.4Binding of NSAP addresses.426.5TETRA Equipment Identity (TEI).426.5.1General.426.5.2Contents of TEI.426.5.3Allocation principles for TEI.436.5.4Use of TEI.436.6Mobile Network Identity (MNI).436.6.1Contents of Mobile Network Identity (MNI).436.7Layer 2 addresses and labels.436.7.1Overview.436.7.2Event labelling.436.7.3Scrambling label.446.7.4Use and implementation of layer 2 addresses.446.7.4.1General requirement.446.7.4.2Implementation of event labels.446.7.4.3Implementation of scrambling labels.446.7.5Labelling of packet channels.456.7.5.1Use of identities for uplink data transfers.456.7.5.2Use of identities for downlink data transfers.456.7.6System information broadcast.456.7.7Reserved value of group address for user information broadcast.456.8Use of individual addresses.466.8.1Air interface addressing functions.466.8.2Address placement in primitives and PDUs.476.8.2.1Use of ISSI at layer 2.476.8.2.2Use of ITSI/ISSI at layer 3.496.8.2.2.1Use of ITSI/ISSI by SCLNP.496.8.3Routing principles.496.8.3.1Routing of intra-TETRA data transactions (within oneTETRA network).496.8.3.2Routing of inter-TETRA data transactions (between twoTETRA networks).496.8.3.3Routing of external data transactions (to/from non-TETRAnetworks).506.8.4Address and identity comparison.507Mobility Management (MM) in MS.507.1Introduction.507.2Overview of MM relations and procedures.507.3Stimulation of MM.527.3.1Stimulation through TNMM-SAP.527.3.2Stimulation through LMM-SAP.527.3.3Stimulation through peer MM.537.3.4Other stimulation.537.4Outputs from MM.537.4.1Output through TNMM-SAP.537.4.2Outputs through LMM-SAP.537.4.3Output to peer MM.547.5Data base requirement.547.6MM procedures.547.6.1Registration.54SIST ETS 300 393-1:1999
Page 5ETS 300 393-1: April 19967.6.1.1Registration at roaming.547.6.1.1.1Implicit registration.547.6.1.1.2Multiple registration.547.6.1.1.3Registration procedure.557.6.1.1.4Registration with authentication.567.6.1.1.5Registration with identity exchange.567.6.1.2Registration at migration.587.6.1.2.1Registration with identity exchange.587.6.1.2.2Registration with authentication.597.6.1.3Network initiated registration.597.6.2Authentication.597.6.2.1Network initiated authentication.607.6.2.2MS initiated authentication.617.6.3De-registration.627.6.4Periodic registration.627.6.5Disable/enable.627.6.5.1Temporary disable.627.6.5.2Temporary enable.637.6.5.3Permanently disable.637.6.6Energy economy mode change.637.7Downloading of group identities.637.7.1Add group identity.637.7.2Delete group identity.647.7.3Delete all group identities.647.7.4Report group identities.657.8Exception conditions.657.8.1Undisciplined de-registration.658MLE mobility scenarios and functionalities.658.1Introduction.658.2Overview.658.3MLE responsibilities.668.4MS-MLE model.678.5MLE functionalities.678.5.1Monitoring of neighbour cells (Scenario 1).688.5.2Scanning of neighbour cells (Scenario 2).688.5.3MM activation of the MS-MLE (Scenario 3).698.5.4Open up MLE service (Scenario 4).708.5.5Close of MLE service (Scenario 5).718.5.6Changing to serving cell (Scenario 6).718.5.7Surveillance of the serving cell (Scenario 7).718.5.8Inviting MM intervention.728.5.8.1No service can be found (Scenario 8).728.5.8.2LA found outside RA (Scenario 9).738.5.9Set-up of MAC broadcast (SYNC + SYSINFO) (Scenario 10).748.5.10Set-up of MLE broadcast (NETWORK) (Scenario 11).748.5.11MM registering (Scenario 12).748.5.12Announce old cell and go-to-channel (Scenario 13).758.5.13Announce old cell (Scenario 14).758.5.14Announce new cell and successful restoration (Scenario 15).758.5.15Announce new cell and restoration failure (Scenario 16).768.5.16Path lost to the serving cell (Scenario 17).768.6Initial cell selection.778.6.1MLE functions as viewed at the LMM SAP.778.6.2MLE functions.778.7Cell re-selection by roaming.788.7.1Announced cell re-selection.788.7.1.1Announced cell re-selection (type-2).788.7.1.2Announced cell re-selection (type-3).798.7.1.2.1MLE functions.798.7.2Unannounced cell re-selection.808.7.3Undeclared cell re-selection.818.7.3.1MLE functions as viewed at the LMM SAP.81SIST ETS 300 393-1:1999
Page 6ETS 300 393-1: April 19968.8MLE service requests during cell re-selection.828.8.1Undeclared cell re-selection.828.9No MLE recovery.839Technical realisation of TETRA connection mode CONP.839.1Introduction.839.2Overview of the protocol.839.2.1Internal organisation of the network layer and ISO.839.2.2End-to-end protocol.859.3Handover and mobility.859.4Packet through layer 3 in connection mode.859.5Interconnection.859.6Addresses.899.7Lower layer service used.899.8Services produced by the protocol.909.9Primitive definition.909.10Protocol functions.909.11Structure and encoding of the PDUs.9010Technical realisation of TETRA Specific ConnectionLess Network Service (SCLNS).9110.1Introduction.9110.2Overview of the protocol.9110.2.1Internal organisation of the network layer.9110.2.2Interconnection.9210.2.3Addresses.9510.3Lower layer service used.9510.4Services provided by the protocol.9610.4.1Full version.9610.4.2Slim version.9610.5Primitives definition.9610.5.1Data transmission group.9610.5.2Protocol sequences.9710.6Protocol functions.10010.7Structure and encoding of the PDUs.101Annex A (normative):Priority functions for packet mode services.102A.1Introduction.102A.2Priority and OSI layers.102A.2.1Exchange of priority information with other protocol entities.102A.2.2Passing of priority information.102A.2.2.1Encoding of priority in PDUs.102A.2.2.2Encoding of priority in primitives.102A.2.3Framework for priorities.103A.2.4Priority parameters.103A.2.4.1Subscriber class.103A.2.4.1.1Description.103A.2.4.1.2Defining subscriber class.104A.2.4.1.3Values of subscriber class.104A.2.4.2Network Connection (NC) priority.104A.2.4.2.1Definition.104A.2.4.3SCLNP priority facility.105A.2.4.4CONP expedited data.105A.2.4.5Mobile Network Identity (MNI).105A.2.4.6Cell service level.105A.2.4.7Message type.106A.2.4.8Message length.106A.2.4.9Emergency calls.106A.2.5Priority functions.106A.2.5.1Layer 2 access priority (air interface only).106A.2.5.1.1General.106A.2.5.1.2Address restrictions.107SIST ETS 300 393-1:1999
Page 7ETS 300 393-1: April 1996A.2.5.2System broadcast functions.107A.2.5.2.1Summary.107A.2.5.2.2Network access control.107A.2.5.3MTU queue management.107A.2.5.4Infrastructure queue management.108A.2.6Relationship between parameters and functions.108A.2.6.1Summary table.108A.2.6.2Mapping of priority parameters at layer 2.108A.2.6.2.1Overview.108A.2.6.2.2Mapping of the ranked element.109Annex B (informative):Quality of Service (QoS).110B.1Introduction.110B.1.1Quality of network service.110B.1.2Determination of quality of network service.110B.1.2.1
Connection oriented quality of network service.111B.1.2.2Connectionless quality of network service.111B.1.3QoS negotiation and non-negotiation.111B.1.4QoS parameter set for connection oriented services.111B.1.4.1
Summary.111B.1.4.2NC establishment delay.112B.1.4.3NC establishment failure probability.112B.1.4.4Throughput (User information transfer rate).112B.1.4.4.1Throughput for constant delay services.112B.1.4.4.2Throughput for variable delay services.113B.1.4.5Transit delay.
...
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