Advanced Accident Investigation and Root Cause Analysis
Advanced Accident Investigation and Root Cause Analysis
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Duration: 5 Days
π· Target Audience: Expert Safety Engineers, Incident Investigators, Project Managers, Regulatory Compliance Officers
π― Skill Level: Advanced
π Course Objectives:
By the end of this course, participants will be able to:
β Conduct systematic accident investigations in public construction projects.
β Apply root cause analysis (RCA) techniques to determine underlying causes of incidents.
β Utilize tools such as 5-Why, Fishbone Diagram, and Fault Tree Analysis (FTA).
β Develop effective accident prevention strategies based on investigation findings.
β Understand legal and regulatory obligations for accident reporting.
β Implement corrective and preventive action plans (CAPA) to enhance workplace safety.
β Use digital tools and AI-driven analytics for accident data management.
π Course Outline:
π’ Day 1: Fundamentals of Accident Investigation
πΉ Accident causation theories (Heinrichβs Domino Theory, Swiss Cheese Model).
πΉ Types of workplace incidents: Fatalities, injuries, near misses, property damage.
πΉ Legal and regulatory requirements for accident reporting (OSHA 300, ISO 45001).
πΉ Roles and responsibilities of accident investigators.
πΉ Case Study: Reviewing a historical accident in public infrastructure projects.
π’ Day 2: Root Cause Analysis (RCA) Techniques
πΉ Overview of RCA methodologies.
πΉ 5-Why Analysis β Identifying primary and secondary root causes.
πΉ Fishbone Diagram (Ishikawa Analysis) β Categorizing human, technical, and environmental factors.
πΉ Fault Tree Analysis (FTA) β Developing logical failure sequences.
πΉ Event and Causal Factor (ECF) Charting β Systematic mapping of incidents.
πΉ Case Study: Conducting a Fishbone Diagram analysis for a real construction site accident.
π’ Day 3: Data Collection, Evidence Handling, and Interviewing Techniques
πΉ Physical evidence collection: Site inspections, CCTV footage, equipment logs.
πΉ Witness interviewing techniques: Open-ended questions, cognitive recall, avoiding biases.
πΉ Documentation and report writing: Creating clear and legally defensible reports.
πΉ Using AI and IoT for real-time accident detection and analysis.
πΉ Case Study: Conducting a mock interview with witnesses and documenting findings.
π’ Day 4: Preventive and Corrective Action Planning (CAPA)
πΉ Developing corrective action plans based on RCA findings.
πΉ Engineering vs. administrative controls: Implementing long-term preventive measures.
πΉ Behavioral safety and human error mitigation strategies.
πΉ Communication of investigation results to management and stakeholders.
πΉ Case Study: Designing a corrective action plan for a major workplace incident.
π’ Day 5: Case Study & Real-World Application
πΉ Hands-on case study: Investigating a real-life public infrastructure accident and applying RCA techniques.
πΉ Developing an accident investigation report and presenting findings.
πΉ Panel discussion: Lessons learned from past safety failures.
πΉ Course assessment and final evaluation.
πΉ Certificate of Completion & Closing Remarks.
π Tools & Software Used:
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RCA Software (TapRooT, Sologic RCA, Enablon) β For structured investigation workflows.
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Incident Reporting Software (Intelex, Safesite, Procore Safety) β For case documentation.
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BIM 360 & IoT-Based Monitoring β For predictive safety analytics.
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Power BI / Tableau β For accident trend analysis and data visualization.
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GIS Mapping Tools β For geospatial accident analysis and risk assessment.
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