Name: GR 2833 CORE : ISSUE 3 REV 2
Brand: TEL

GENERIC OPERATIONS INTERFACES USING OSI TOOLS: INFORMATION MODEL FOR INTEGRATED DIGITAL LOOP CARRIER AND FIBER IN THE LOOP SYSTEMS

Published date

01-12-2013

Publisher

Telcordia Technologies

1 Introduction
1.1 Purpose and Scope
1.2 Relationship with Other TAs, TRs, GRs, and
              Standards
1.3 Requirements Terminology
1.4 Organization of the Document
1.5 Changes in this Issue
2 Background
2.1 Background of the Management Operations Interface
              Environment
2.1.1 Conceptual View of System Management
2.1.2 OSI-Based Systems Management Communications
2.2 IDLC System Management
2.3 FITL System Management
2.4 GR-2833-CORE and the GR-303-CORE Integrated
              Access Platform
3 Overview of the IDLC and FITL Information Model
3.1 Overview of Managed Objects
3.2 IDLC and FITL Testing Overview
3.2.1 IDLC and FITL Testing Architecture
3.2.2 Test Model Overview
3.3 Modeling Considerations for Integrated IDLC and
              FITL Systems
3.4 GR-303-Feature Groups and the Integrated
              IDLC and FITL Information Model
4 Guidelines on Use of Managed Objects for
              IDLC AND FITL Systems
4.1 Summary of Object Class for IDLC System and
              FITL System Management
4.2 Requirements for Object Class Support
4.2.1 Termination Point Fragment
4.2.2 Managed Element Fragment
4.2.3 Cross-Connection Fragment
4.2.4 Protection Switch Fragment
4.2.5 Generic Support Object Fragment
4.2.6 Performance Monitoring Fragment
4.2.7 Point-to-Multipoint Fragment
4.2.8 Test Management and Access Fragment
4.2.9 Video Transport Management Fragment
4.3 EM-RDT Object Groups
4.3.1 Core Object Groups
4.3.2 Extension Object Groups
5 IDLC and FITL System Model Summary
5.1 Major Changes to Information Model from Issue 2
5.2 Inheritance Relationships
5.3 Containment Relationships
5.4 Definitions for GR-2833-CORE Issue 3
5.4.1 Managed Objects
5.4.2 Packages
5.4.3 Attributes
5.4.4 Name Bindings
5.4.5 Actions
5.4.6 Notifications
5.4.7 Parameters
5.4.8 Supporting Productions
5.5 Information Model Deprecations from Issue 2
5.5.1 Deprecated Objects
5.5.2 Deprecated Namebindings
6 Examples
6.1 Examples of IDLC System Models
6.2 Examples of FITL System Models
6.3 Example Model of a Combined Technology NE
6.4 Test Model Examples
6.5 Examples of Video Service Models
Appendix A: IDLC and FITL System Model Summary
   A.1 alertingCadence
   A.2 channelTestCoordinator
   A.3 fitlCTPBidirectional
   A.4 ftilCTPSink
   A.5 fitlCTPSource
   A.6 fitlDropTestingSystem
   A.7 fitlLineTTPBidirectional
   A.8 fitlLineTTPSink
   A.9 fitlLineTTPSource
   A.10 fitlPathTTPBidirecitonal
   A.11 fitlPathTTPSink
   A.12 fitlPathTTPSource
   A.13 idlcCallProcessingProfile
   A.14 idlcDataLinkProfile
   A.15 idlcTerminal
   A.16 idlcTerminalBCRrl
   A.17 multipleAccessFunction
   A.18 ptmLineTTPGroup
   A.19 ptmPathTTPGroup
   A.20 ptmTTPGroup
   A.21 testResponseCircuit
Appendix B: Test Category Summaries
   B.1 Test Categories
   B.1.1 FITL Drop Test Category
   B.1.2 Multimeter Measurement Test Category
   B.1.3 Noise Measurement Test Category
   B.1.4 Tone Measurement Test Category
Appendix C: TR-TSY-O00303 Supplement 3 and CMISE-GR2833
              EM-RDT IDLC Models
Appendix D: IDLC and FITL System Model Summary
   D.1 RDT System/Hardware Object Group
   D.2 RDT General Support Object Group
   D.3 Interface Group (IG) Object Group
   D.4 POTS + ISDN Object Group
   D.5 DSl Object Group
References
Acronyms
List of Figures
Figure 2-1 A Conceptual Model for System Management
Figure 2-2 Management Communications Using CMISE
Figure 3-1 Generic Test Access and Testing Architecture
Figure 3-2 Metallic Loop Testing Using OSI/CMISE Interfaces
              in an IDLC System
Figure 3-3 Metallic Loop Testing Using an OSI/CMISE Interface
              in an Integrated FITL System
Figure 5-1 Inheritance Hierarchy (Sheet 1 of 2)
Figure 5-2 Inheritance Hierarchy (Sheet 2 of 2)
Figure 5-3 Name Bindings (Sheet 1 of 2)
Figure 5-4 Name Bindings (Sheet 2 of 2)
Figure 6-1 Example Point-to-Point FITL System with Analog
              Termination
Figure 6-2 Example Transport Model for a Point-to-Point
              FITL System Supporting Analog Transmission
Figure 6-3 Example Hardware Model for a Point-to-Point
              FITL System
Figure 6-4 Example Transport Model for a Point-to-Point
              FITL System Supporting DDS and ISDN 4:1 TDM
Figure 6-5 Example Point-to-Multipoint FITL System with
              Analog Terminations
Figure 6-6 Example Transport Model for a Point-to-Multipoint
              FITL System Supporting Analog Transmission
Figure 6-7 Example of Multiple Access Function and Point-to-
              Multipoint Termination Point Groupings in Point-to-
              Multipoint FITL System
Figure 6-8 Example of a UFITL System
Figure 6-9 Example Transport Model for a UFITL System
Figure 6-10 Example Hardware Model for a UFITL System
Figure 6-11 Example of a Combined Technology NE
Figure 6-12 Example Transport Model for a Combined Technology
              NE (Sheet 1 of 2)
Figure 6-13 Example Transport Model for a Combined Technology
              NE (Sheet 2 of 2)
Figure 6-14 Example Channel Test Sequence for LSS
Figure 6-15 Example Drop Test Sequence for LSS
Figure 6-16 Example Special Service Circuit Test Sequence
Figure 6-17 Example HFC System For Video Services
Figure 6-18 Example HFC Model for Video Services
              (Access Subnetwork)
Figure 6-19 Example HFC Transport Model for Video Services
              (NIU/STU)
Figure 6-20 Example FITL System for Video Services
Figure 6-21 Example FITL Transport Model for Video Services
Figure 6-22 Example FITL Transport Model of Video Service
              (NIU/STU)
List of Tables
Table 2-1 Preliminary Impact Assessment of Integrated Access
              Platform Requirements Work on GR-2833-CORE
Table 4-1 Object Classes for IDLC and FITL System Management
Table 4-2 Core Object Groups for CMISE-GR2833 EM-RDT
Table 4-3 Extension Object Groups for CMISE-GR2833 EM-RDT
Table 5-1 GR-2833 Issue 2 Object Classes Moved to Other
              Documents
Table C-1 IDLC Object Classes in GR2833 and in Supplement 3
Table D-1 circuitPack
Table D-2 cross ConnectionBCRrl
Table D-3 equipmentHolder
Table D-4 fabric BCRrl
Table D-5 managedElementRl
Table D-6 alarmSeverityAssignmentProfile
Table D-7 currentAlarmSummaryControlBCRrl
Table D-8 diagnosticControl
Table D-9 eventForwardingDiscriminator
Table D-10 managementOperationsSchedule
Table D-11 scanReportRecord
Table D-12 simpleScanner
Table D-13 thresholdData
Table D-14 idlcCallProcessingProfile
Table D-15 idlcDataLinkProfile
Table D-16 idlcTerminal
Table D-17 analogLineTTPBidirectional
Table D-18 ds0CTPBidirectional
Table D-19 isdnBriPathTTPBidirectional
Table D-20 isdnCTPBidirectional
Table D-21 isdnDSLTTPBidirectional
Table D-22 quarterDs0CTPBidirectional
Table D-23 isdnTTPCurrentData - GR-836
Table D-24 dslCTPBidirectional
Table D-25 dslLineTTPBidirectional
Table D-26 dslPathTTPBidirectionalBCRrl
Table D-27 dslLineTTPSinkCurrentData
Table D-28 dslPathTTPSinkCurrentData

Gives Bellcore's view of proposed generic requirements for an operations communications interface for managing Integrated Digital Loop Carrier (IDLC) and Fiber In the Loop (FITL) systems using the Open Systems Interconnection (OSI) management services and protocols defined in ISO/IEC IS 9595 (Common Management Information Service Element Definition) and ISO/IEC IS 9596 (Common Management Information Protocol). Specifically proposes an information model that gives a common frame of reference for operations communications between a managing system, and IDLC system, and a FITL system. Also, the model may be used for managing multiple technology access systems which may be a combination of IDLC, FITL, and SONET transport technologies.

DevelopmentNote	Supersedes GR 2833 DISK, TA NWT 001311 and TA NWT 001415 (03/2004) Supersedes DP 2833 (04/2004)
DocumentType	Standard
PublisherName	Telcordia Technologies
Status	Current
SupersededBy	GR 836 IMD : ISSUE 3 GR 909 CORE : ISSUE 2 GR 303 IMD : ISSUE 1
Supersedes	TA NWT 001311 : ISSUE 1 TA NWT 001415 : ISSUE 1 DP 2833 : ISSUE 1

GR 2833 ILR : ISSUE 3A	GENERIC OPERATIONS INTERFACES USING OSI TOOLS: INFORMATION MODEL FOR IDLC AND FITL SYSTEMS ISSUES LIST REPORT
GR 1102 CORE : ISSUE 3	OTGR SECTION 15.8: GENERIC OPERATIONS INTERFACES USING OSI TOOLS: ACCESS AND TESTING MANAGEMENT
GR 981 ILR : ISSUE 1A	SERVICE CONFIGURATION MANAGEMENT FOR NETWORK SWITCHING ELEMENTS

TR INS 001313 : ISSUE 1 REV 2	GENERIC CRITERIA FOR VERSION 0.1 WIRELESS ACCESS COMMUNICATIONS SYSTEMS (WACS)
GR 303 CORE : ISSUE 4	INTEGRATED DIGITAL LOOP CARRIER SYSTEM GENERIC REQUIREMENTS, OBJECTIVES, AND INTERFACE
SR NWT 002436 : ISSUE 1	OSI/CMISE INFORMATION MODELING AND APPLICATION DESIGN CONSIDERATIONS
TA NWT 000909 : ISSUE 2	GENERIC REQUIREMENTS AND OBJECTIVES FOR FIBER IN THE LOOP SYSTEMS
GR 2842 CORE : ISSUE 2	ATM SERVICE ACCESS MULTIPLEXER GENERIC REQUIREMENTS
FR 439 : ISSUE 2011	OPERATIONS TECHNOLOGY GENERIC REQUIREMENTS (OTGR)
GR 253 CORE : ISSUE 5	SYNCHRONOUS OPTICAL NETWORK (SONET) TRANSPORT SYSTEMS: COMMON GENERIC CRITERIA
GR 1102 CORE : ISSUE 3	OTGR SECTION 15.8: GENERIC OPERATIONS INTERFACES USING OSI TOOLS: ACCESS AND TESTING MANAGEMENT
GR 836 CORE : ISSUE 3	GENERIC OPERATIONS INTERFACES USING OSI TOOLS: INFORMATION MODEL OVERVIEW: TRANSPORT CONFIGURATION AND SURVEILLANCE FOR NETWORK ELEMENTS
SR 3581 : ISSUE 2	GR-303 OPERATIONS MIGRATION STRATEGY
GR 818 CORE : ISSUE 1	OTGR SECTION 6.1: NETWORK MAINTENANCE: ACCESS AND TESTING - GENERIC TEST ARCHITECTURE
GR 1042 CORE : ISSUE 3	GENERIC REQUIREMENTS FOR OPERATIONS INTERFACES USING OSI TOOLS - INFORMATION MODEL OVERVIEW: SYNCHRONOUS OPTICAL NETWORK (SONET) TRANSPORT INFORMATION MODEL
GR 2940 CORE : ISSUE 2	OTGR SECTION 15.9: GENERIC OPERATIONS INTERFACES USING OSI TOOLS: POTS/LOOP TESTING
GR 828 CORE : ISSUE 1 REV 2	OPERATIONS TECHNOLOGY GENERIC REQUIREMENTS (OTGR): GENERIC OPERATIONS INTERFACE - OSI COMMUNICATIONS ARCHITECTURE
GR 1031 CORE : ISSUE 2 REV 1	OTGR SECTION 15.6: OPERATIONS INTERFACES USING OSI TOOLS: TEST ACCESS MANAGEMENT