NOC:Industrial Safety Engineering


Lecture 1 - Introduction to Industrial Safety Engineering


Lecture 2 - Key concepts and terminologies


Lecture 3 - Key concepts and terminologies-Safety domain ontology


Lecture 4 - Key concepts and terminologies-Risk Assessment and Control


Lecture 5 - Safety Engineering and Accident causing mechanisms


Lecture 6 - Preliminary Hazard List


Lecture 7 - Preliminary Hazard Analysis


Lecture 8 - Hazard and operability study (HAZOP)


Lecture 9 - Failure Modes and Effects Analysis (FMEA)- Identification of Failure Modes


Lecture 10 - Failure Modes and Effects Analysis (FMEA) (Continued...)


Lecture 11 - Application of Hazard Identification Techniques


Lecture 12 - Fault Tree Analysis (FTA) - Construction


Lecture 13 - Fault Tree Analysis (FTA) - Gate by Gate method


Lecture 14 - Fault Tree Analysis (FTA) - Cut-set method


Lecture 15 - Fault Tree Analysis (FTA) - Importance measures


Lecture 16 - Event Tree Analysis (ETA)


Lecture 17 - Bowtie Tool


Lecture 18 - Bow-tie: Common Cause Cut Sets


Lecture 19 - Bow-tie: Cut-sets for Accident Scenarios


Lecture 20 - Bow-tie: Cut-sets for Accident Scenarios (Continued...)


Lecture 21 - Bow-tie: Identification of Safety Barriers


Lecture 22 - Risk Assessment


Lecture 23 - Consequence Assessment


Lecture 24 - Energy Control Model and Hazard Control Hierarchy


Lecture 25 - Safety Function Deployment


Lecture 26 - Ranking of Design Solutions: AHP approach


Lecture 27 - Quantification of Basic Events for Non-repairable Components


Lecture 28 - Quantification of Basic Events: Hazard Rate


Lecture 29 - Quantification of Basic Events: Exponential Distribution


Lecture 30 - Quantification of Basic Events: Weibull Distribution


Lecture 31 - Quantification of Basic Events: Failure to Repair Process


Lecture 32 - Quantification of Basic Events: Combined Process


Lecture 33 - Quantification of Basic Events: Failure and Repair Intensities


Lecture 34 - Computation of combined process parameters: Laplace transform analysis


Lecture 35 - Computation of combined process parameters: Markov Analysis


Lecture 36 - Quantification of Systems Safety and Reliability Block Diagram


Lecture 37 - Systems Safety Quantification: Truth Table Approach


Lecture 38 - Systems Safety Quantification: Structure Function


Lecture 39 - Systems Safety Quantification: Minimal Cut and Minimal Path Representation


Lecture 40 - Systems Safety Quantification: Tutorial


Lecture 41 - Human Error, Classification and Causes


Lecture 42 - Human Error, Classification and Causes (Continued...)


Lecture 43 - Human Error Identification


Lecture 44 - Human Reliability Assessment


Lecture 45 - Human Error Quantification from Experts’ opinions – Fuzzy Set Approach


Lecture 46 - Accident Investigation


Lecture 47 - Accident Investigation and Analysis: Descriptive Analytics


Lecture 48 - Control Chart Analysis


Lecture 49 - Accident Data Analysis: Regression


Lecture 50 - Accident Data Analysis: Classification Tree


Lecture 51 - Occupational Health and Safety Management Systems(OH&SMS) and OHSAS 18001 - Part I


Lecture 52 - Occupational Health and Safety Management Systems(OH&SMS) and OHSAS 18001 - Part II


Lecture 53 - Occupational Health and Safety Management Systems(OH&SMS) and OHSAS 18001 - Part III


Lecture 54 - Safety Performance Indicators - Part I


Lecture 55 - Safety Performance Indicators - Part II


Lecture 56 - Energy Isolations


Lecture 57 - Virtual Reality - Introduction


Lecture 58 - Geometry of virtual world


Lecture 59 - VR roadmap - A case study


Lecture 60 - Summary