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International Railway Safety Conference 2007 Goa, India. M anaging the Risk of Organisational Accidents. Peter Cuffe Chief Safety & Security Officer Irish Rail peter.cuffe@irishrail.ie. Safety Professionals. Railway Organisation. Society. Individual Accidents A specific persons
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International Railway Safety Conference 2007 Goa, India Managing the Risk of Organisational Accidents Peter CuffeChief Safety & Security OfficerIrish Railpeter.cuffe@irishrail.ie
Safety Professionals Railway Organisation Society
Individual Accidents • A specific persons • Agent and victim • Limited scope Organisational Accidents • Multiple causes • Many people • Devastating consequences • Often a product of technological innovation
Organisational Accidents are the result of highly complex coincidences which are rarely foreseen by those involved. They are unpredictable because of the large number of causes and the spread of information over all the participants
Cost of Protection greatly exceeds the dangers Protection falls far shortof required level
Better defences convert to improved production Post Accident response measures
Relaxation with further improved production Better defences convert to improved production Post Accident response measures
Catastrophic Disaster Relaxation with further improved production Better defences convert to improved production Post Accident response measures
Examples of Improved Production • Invention of the Davy Lamp • Extract coal from more dangerous areas • Mine accidents increased • Introduction of Marine Radar • Travel faster in fog or busy waters • Marine history littered with “radar assisted” collisions
Dangers of the Un-Rocked Boat A lengthy accident-free period • Steady erosion of protection Easy to “forget to fear” Increasing production, without extended defences, will erode safety margins
Production v Protection Partnership is rarely equal • Production creates the resources for protection Process managers have production skills Production information is: Direct, Continuous & Easily Understood
Production v Protection Partnership is rarely equal • Successful Protection shown by Absence of Negative Outcomes • Information is indirect or intermittent • Hard to interpret, often misleading • Awareness often driven by accident or near-miss
Defences Create Understanding & Awareness Give Clear Guidance on Safe Operation Alarms & Warnings of imminent danger Restore System to a Safe State Interpose Barriers between Hazards & Losses Contain & Eliminate Hazards Provide Means of Escape & Rescue
Defences Create Understanding & Awareness Give Clear Guidance on Safe Operation Alarms & Warnings of imminent danger Restore System to a Safe State Interpose Barriers between Hazards & Losses Contain & Eliminate Hazards Provide Means of Escape & Rescue Defences-in-depth, successive layers, specific sequence
Holes are continuously moving Defences can be deliberately removed:-Maintenance-Testing-During Failures
Latent Conditions Poor Design Gaps in Supervision Undetected Manufacturing Defects Maintenance Failures Unworkable Procedures Clumsy Automation Poor Training Inadequate Tools & Equipment
Immediate Effect Shortlived Effect Committed at the “sharp” end, at the human-system interface Lie Dormant No Impact until local interaction Spawned in the organisation Pervasive Active Failures v Latent Failures
In aviation, there are foreseeable hazards: Gravity,Weather, Mountains, and Human Fallibility
Human Error v Non-Compliance Error - an intrinsic part of the Human Condition Error - distraction Error – loss of situational awareness Error - deliberate We all learn by “trial and error” • Necessary to push limits to establish system characteristics
We cannot change the Human Condition, but we can change the Conditions under which Humans work.
Investigations • Who ? • What ? • Where ? • When ? • Why ?
PRISMA • Choose “Top Event” (Accident or Near-Miss) • Determine Direct Causes • Determine Preceding Causes • Stop when the Facts Stop • Stop at limits of Organisational Control
PRISMA – 23 Categories • 4 x Technical • 5 x Organisational • 3 x Staff, Knowledge based • 6 x Staff, Rule based • 2 x Staff, Skill based • 1 x Customers • 1 x Public • 1 x Unclassifiable
PRISMA – 23 Categories • 4 x Technical • 5 x Organisational • 3 x Staff, Knowledge based • 6 x Staff, Rule based • 2 x Staff, Skill based • 1 x Customers • 1 x Public • 1 x Unclassifiable Rasmussen’s SRK Model
Knowledge based Behaviour • Unexpected or new situations • High attention level • Problem identification and solving • Situational awareness • Understanding of Process • Analytical ability
Rule based Behaviour • Recognition of situation • Pattern identification • Medium attention demand • Training to ensure correct rule application
Skill based Behaviour • Reflex/automatic reactions • Long learning process • Low attention demand • Triggered by environmental signals • Unlearning very difficult • Stress resistant • Error prevention by environmental change, not by altered behaviour
Technical External Design (Ergonomics) Construction/Maint. Material (further research required) Organisational External Supervision Rules/Procedures Management Priorities Culture PRISMA – 23 Categories
Knowledge Based External Process Status/ Characteristics (eg current permits to work) Improper Goals (eg making up for lost time by speeding) Rule Based License/Certified Competency Incorrect Permits or other Safeguards Pre-work Status Check not done Work sequence incorrect or incomplete Failure to monitor other system characteristics Failure to use correct resources PRISMA – 23 Categories
Skill Based Intentional (eg typing error) Unintentional (eg leaning against controls) PRISMA – 23 Categories • Customer(eg Inebriated passenger) • Public(eg Suicide) • Unclassifiable(eg Act of God)