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SR TSY 001171 : ISSUE 1

Superseded
Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

METHODS AND PROCEDURES FOR SYSTEM RELIABILITY ANALYSIS
Superseded date

01-11-2007

Published date

12-01-2013

1 Introduction
2 Relationship of this Special Report to Other
              Bellcore Documents
3 Definitions
4 Guidelines for the Requesting Organization
4.1 Identify Intent of the Analysis
4.2 Define a Failure in the System
4.3 Define the Reliability Objectives
4.4 Provide the Necessary Parameters
4.5 Verify the Results
5 Guidelines for System Reliability Prediction
5.1 Steps in System Reliability Modeling and Analysis
5.2 Elements of a System Reliability Model
6 Graphical Methods for Representing the System
              Architecture
6.1 Functional Block Diagrams
6.2 Reliability Block Diagrams
6.3 State Transition Diagrams
6.4 Comparison of Reliability Block and State Transition
              Diagrams
7 Basic Concepts
7.1 The Exponential Distribution
7.2 Renewal Theory Results
8 Analyzing Reliability Block Diagrams
8.1 The Combinatorial Method
8.2 Difficulties and Assumptions
9 State Space Methods
9.1 Creating State Transition Diagrams
9.2 Solution of the Markov Model
9.3 Nonexponential Times to Events
9.4 Examples of Markov Modeling
9.5 Difficulties and Assumptions of Markov Models
10 Comparison of Combinatorial and State Space
              Methods
10.1 Both Methods Applicable
10.2 Neither Method Applicable
11 Measures of System Reliability
11.1 Unavailability and Availability
11.2 Limiting Frequencies
11.3 Other Measures of Reliability
11.4 Other Common Measures of RAM
12 Failure Modes and Effects Analysis*
12.1 System Reliability Measures
13 Glossary of Terms
REFERENCES
LIST OF FIGURES
Figure 6.1 Example of a Functional Block Diagram
Figure 6.2 Functional Block Diagram of a Digital Switch
Figure 6.3 Reliability Block Diagram of a Series System
Figure 6.4 Reliability Block Diagram of a Parallel System
Figure 6.5 Reliability Block Diagram of a Hypothetical
              Billing Module
Figure 6.6 State Transition Diagram of a Two Component
              System
Figure 6.7 State Transition Diagram of a Duplicated
              Component System
Figure 6.8 State Transition Diagram with Transition Rates
Figure 9.1 State Transition Diagram for Configuration of
              Three Components
Figure 9.2 Equivalent State Transition Diagram
Figure 9.3 Reliability Block Diagram for System
Figure 9.4 State Transition Diagram for System
Figure 9.5 State Transition Diagram for Instantaneous
              Failure
Figure 9.6 Comparison of Repair Strategies
Figure 9.7 State Transition Diagram for Travel and Repair
Figure 9.8 Fragment with Nonexponential Times
Figure 9.9 Equivalent Markov Fragment
Figure 9.10 Functional Block Diagram for Optical
              Transmission System
Figure 9.11 State Transition Diagram for Optical
              Transmission System
Figure 9.12 First Markov Model
Figure 9.13 State Transition Diagram for Travel and Repair
Figure 9.14 Equivalent State Transition Diagram for Travel
              and Repair
Figure 12.1 Reliability Block Diagram for Example
Figure 12.2 State Transition Diagram for Example
Figure 12.3 FMEA State Transition Diagram for Subsystem
LIST OF TABLES
Table 9.1 Approximations for Exact Equivalent Transition
              Rates
Table 9.2 Parameters of Fiber Optic Transmission System
              Markov Model
Table 9.3 Definitions of States in Fiber Optic Transmission
              System Markov Model
Table 12.1 Example Failure Modes and Effects Table
Table 12.2 Published RAM Objectives for Switching Systems
Table 12.3 Definitions used in Cutoff Call Calculations
Table 12.4 Equations for p, and k, in Cutoff Call Calculations
Table 12.5 Example Cutoff Call Calculation
Table 12.6 Definitions used in RRIMA Calculations
Table 12.7 Values of k, for RRIMA
Table 12.8 Example RRIMA Calculations

Discusses the methods and procedures used by Bellcore to analyze system reliability. A list of documents in which system reliability is addressed is provided. Guidelines are given for collecting the information necessary to analyze a system. Various graphical procedures for describing the system are discussed and the mathematical methods used to quantify the reliability of a system are provided. A list of software, which implement the procedures, is also available.

DevelopmentNote
Included in FR 796. (04/2001) Included in FD 29 (12/2003)
DocumentType
Standard
PublisherName
Telcordia Technologies
Status
Superseded

TR NWT 000284 : ISSUE 2 RELIABILITY AND QUALITY SWITCHING SYSTEMS GENERIC REQUIREMENTS (RQSSGR)
GR 1110 CORE : ISSUE 4 BROADBAND SWITCHING SYSTEM (BSS) GENERIC REQUIREMENTS
TR NWT 000418 : ISSUE 2 GENERIC RELIABILITY ASSURANCE REQUIREMENTS FOR FIBER OPTIC TRANSPORT SYSTEMS (A MODULE OF RQGR, FR-NWT-000796)
GR 512 CORE : ISSUE 2 LSSGR: RELIABILITY, SECTION 12

MIL-HDBK-217 Revision F:1991 RELIABILITY PREDICTION OF ELECTRONIC EQUIPMENT
MIL-STD-1629 Revision A:1980 PROCEDURES FOR PERFORMING A FAILURE MODE, EFFECTS AND CRITICALITY ANALYSIS

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