Heart Human Error Reduction
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Performance Measurement Physiological Tools Secondary Tasks Situation Awareness Stress Workload Human Computer Interaction human error heart methodology Tools Prototyping Usability Human Factors Knowledge Tools Databases Guidelines
Human Error Analysis Techniques
HF Glossary Standards Technical Reports Human Factors Program Planning Tools Cost / Risk/ Benefit Decision-Making human error assessment and reduction technique example Economic Project Management Data Item Descriptions Knowledge Elicitation Tools Cognitive Task Analysis Interviews Observation Tools Questionnaire Task Analysis Modeling & Simulation Cognitive Modeling human error analysis pdf Human Performance Modeling Mathematical Modeling Modeling Simulation System Performance Modeling Training Simulator Physical Ergonomics Empirical Models Postural Analysis Tool Software Standards Safety Accident Investigation Human Error Human Reliability Risk Assessment Critical Decision Method Human Factors Analysis And Classification System (HFACS) Human Performance Investigation Process (HPIP) Influence Diagram
Human Error Analysis Ppt
Operator Action Trees (OATS) Procedural Event Analysis Tool (PEAT) Reason 5 SATORI ACT-R Cognition as a Network of Tasks (COGNET) Executive Process Interactive Control (EPIC) Improved Performance Research Integration Tool (IMPRINT) Integrated Performance Modeling Environment (IPME) Man Machine Integrated Design and Analysis System (MIDAS) Operator Model Architecture (OMAR) Card Sorting Armed Forces Qualification Test Boyett & Conn's White Collar Performance Measure Complex Cognitive Assessment Battery Cost Estimation for Conducting Simulations Cost-Benefit Analysis for Human Factors Integration: A Practical Guide Decision Analysis Human Factors Assessments In Investment Analysis: Human Factors Cost Estimation – Potential Approaches: A Concept Paper National Airspace Resource Investment Model (NARIM) Activity Catalog Tool All-Digital Integrated Video Analysis System (ADIVA) Cluster Analysis Confusion Matrix Exploratory Sequential Data Analysis Multimedia Video Task Analysis (MVTA) Spotfire Starlight STATGRAPHICS Plus DID-Critical Task Analysis Report DID-Human Engineering Design Approach Document – Ma
/ Manning Human-Computer Interaction Safety Cases Training Needs Analysis Human Error / Human Reliability Assessment ..Human Factors Issues Compliance with Safety Requirements Diagnostic Tasks Maintenance Operator Stress Shiftwork Staffing for Safety Management Training for Emergencies ..Nuclear Human Factors human error analysis examples Decommissioning Nuclear Safety Cases Refuelling/Defuelling Refurbishment Stress in the Control Room Site Map human error assessment and reduction technique ppt .. HEART technique for Quantitative Human Error Assessment The Human Error Assessment and Reduction Technique (HEART) was developed by
A Guide To Practical Human Reliability Assessment Pdf
Williams in 1986. Since that time it has been widely used within the UK and continental Europe for the purposes of assessing human reliability. HEART is an easily-used form of human reliability http://www.hf.faa.gov/workbenchtools/default.aspx?rPage=Tooldetails&subCatId=42&toolID=110 assessment that has been used by a number of organisations since its development. This technique, which is derived from a wide range of findings in the ergonomics literature, has been designed to be simple and easily understood. It assumes that basic human reliability is dependent upon the generic nature of the task to be performed. and that under 'perfect' conditions this level of reliability http://www.synergy-ergs.com/heart.php will tend to be achieved consistently. HEART also assumes that any predicted reliability of task performance may be expected to change as a function of the extent to which identified Error Producing Conditions (EPC) might apply. HEART identifies nine generic task types and proposes nominal human unreliability values and their suggested bounding values, together with thirty eight Error Producing Conditions. Depending on the amount by which the EPCs are judged to affect the predicted unreliability a selection of error reduction strategies are suggested to combat the most deleterious effects of any identified EPC. Synergy Experience with HEART HEART Applications Synergy has used HEART in a number of nuclear industry PSA studies. In the last two years, Synergy has applied HEART in the following installations to support PSAs: Nuclear submarine refit facilities at Devonport for DML. This included the assessment of both process control operations and the physical tasks necessary when dismantling and re-assembling reactor plant. Weapons handling in connection with UK submarines Transportation and storage of nuclear waste for NIREX UK Assessment of refuelling operations at Heysham and Hartlepool Nuclear Power Stations Manufacture of Reactor Cores at Rolls Royce, Der
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