Private: BE COMPS SEM 7 – INSTITUTE LEVEL OPTIONAL COURSE-I

Module 1
13 Topics
1.1.a Probability theory : Probability – Standard definitions and concepts
1.1.b Probability theory : Conditional Probability
1.1.c Probability theory : Baye‘s Theorem
1.2.a Probability Distributions : Central tendency and Dispersion
1.2.b Probability Distributions : Binomial
1.2.c Probability Distributions : Normal
1.2.d Probability Distributions : Poisson
1.2.e Probability Distributions : Weibull
1.2.f Probability Distributions : Exponential
1.2.g Probability Distributions : Relations between them and their significance
1.3.a Measures of Dispersion : Mean, Median, Mode, Range
1.3.b Measures of Dispersion : Mean Deviation, Standard Deviation, Variance
1.3.c Measures of Dispersion : Skewness and Kurtosis
Module 2
15 Topics
2.1.a Reliability Concepts : Reliability definitions
2.1.b Reliability Concepts : Importance of Reliability
2.1.c Reliability Concepts : Quality Assurance and Reliability
2.1.d Reliability Concepts : Bath Tub Curve
2.2.a Failure Data Analysis : Hazard rate
2.2.b Failure Data Analysis : Failure density
2.2.c Failure Data Analysis : Failure Rate
2.2.d Failure Data Analysis : Mean Time To Failure (MTTF)
2.2.e Failure Data Analysis : MTBF
2.2.f Failure Data Analysis : Reliability Functions
2.3.a Reliability Hazard Models : Constant Failure Rate
2.3.b Reliability Hazard Models : Linearly increasing
2.3.d Reliability Hazard Models : Weibull Model
2.3.e Reliability Hazard Models : Distribution functions and reliability analysis
2.3.c Reliability Hazard Models : Time Dependent Failure Rate
Module 3
4 Topics
3.1 System Reliability : System Configurations
3.2 System Reliability : Series, parallel, mixed configuration
3.3 System Reliability : k out of n structure
3.4 Reliability Improvement : System Reliability : Complex systems.
Module 4
3 Topics
4.1 Reliability Improvement : Redundancy Techniques
4.2 Reliability Improvement : Element redundancy, Unit redundancy, Standby redundancies
4.3 Reliability Improvement : Markov analysis
Module 5
5 Topics
5.4 Maintainability and Availability : Parts standardization and Interchangeability
5.5 Maintainability and Availability : Modularization and Accessibility
5.1 Maintainability and Availability : System downtime
5.2 Maintainability and Availability : Design for Maintainability-Maintenance requirements
5.3 Maintainability and Availability : Design methods: Fault Isolation
Module 6
6 Topics
6.1 Failure Mode, Effects and Criticality Analysis : Failure mode effects analysis
6.2 Failure Mode, Effects and Criticality Analysis : Severity/criticality analysis
6.3 Failure Mode, Effects and Criticality Analysis : FMECA examples
6.4 Failure Mode, Effects and Criticality Analysis : Fault tree construction
6.5 Failure Mode, Effects and Criticality Analysis : Development of functional reliability block diagram
6.6 Failure Mode, Effects and Criticality Analysis : Fau1t tree analysis and Event tree Analysis
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Module 5

Private: BE COMPS SEM 7 – INSTITUTE LEVEL OPTIONAL COURSE-I Module 5
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