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Safety concept and scope for WP Controls Fabian Moser February 5, 2010.

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Presentation on theme: "Safety concept and scope for WP Controls Fabian Moser February 5, 2010."— Presentation transcript:

1 Safety concept and scope for WP Controls Fabian Moser February 5, 2010

2 Introduction What is this presentation about? Preparatory work for strategy on safety in control system Identification of required quality assurance level for development of control system Preparatory work required for beam verification system What can audience expect? Introduction into control system safety strategy Summary of first steps of the process PP-100201-a-FMO, February 5, 2010 F. Moser 2

3 Relation to overall project PP-100201-a-FMO, February 5, 2010 F. Moser 3 Project PSVACControls BMREQSafety Inception … A&D… MAG… Work- Packages Disciplines Phases

4 Overview Plan Progress Safety strategy Overview Summary of contents Step 1: Safety Concept Overview Summary of contents Step 2: Safety ScopeConclusions and Outlook PP-100201-a-FMO, February 5, 2010 F. Moser 4

5 Safety strategy PP-100201-a-FMO, February 5, 2010 F. Moser 5 Hazard and risk analysisSafety requirementsSafety-related systems

6 Hazard and risk analysis PP-100201-a-FMO, February 5, 2010 F. Moser 6 Concept Develop understanding of the plant concept and its environment Based on conceptual design information Identify top-level hazards – emerge from goals (Preliminary Hazard List) Scope Determine boundary of controlled equipment and control system Specify scope of hazard and risk analysis Identify system-level hazards – emerge from design (Preliminary Hazard Analysis) Analysis Determine all hazards and hazardous events Determine the risks associated with the hazards and hazardous events (probability for harms to materialize and severity of their impacts) For all modes of operation For all reasonably foreseeable circumstances

7 Progress PP-100201-a-FMO, February 5, 2010 F. Moser 7 Concept Develop understanding of the plant concept and its environment Based on conceptual design information Identify top-level hazards – emerge from goals (Preliminary Hazard List) Scope Determine boundary of controlled equipment and control system Specify scope of hazard and risk analysis Identify system-level hazards – emerge from design (Preliminary Hazard Analysis) Analysis Determine all hazards and hazardous events Determine the risks associated with the hazards and hazardous events (probability for harms to materialize and severity of their impacts) For all modes of operation For all reasonably foreseeable circumstances

8 Step 1: Safety Concept document Sources of hazards List of physical, biological or chemical agents, properties of the environment or activities Preliminary Hazard List Identifies potential hazards and mishaps Structured approach with different perspectives Safety regulations Summary of applicable directives PP-100201-a-FMO, February 5, 2010 F. Moser 8 PM-090630-a-FMO

9 Sources of hazards Comprehensive list has been createdIdentified sources (agents), characteristics and defining mishapsExamples: PP-100201-a-FMO, February 5, 2010 F. Moser 9

10 Structure of Preliminary Hazard List PP-100201-a-FMO, February 5, 2010 F. Moser 10 Perspectives (safety aspects) Perspectives (safety aspects)

11 Content of Preliminary Hazard List Comprehensive list of top-level hazardsUnder normal and single-fault conditionsExamples: PP-100201-a-FMO, February 5, 2010 F. Moser 11

12 Safety regulations Medical device directive applies to all parts whose purpose is medical treatment Council Directive 93/42/EEC of 14 June 1993 concerning medical devices, OJ L 169, 12. July 1993, S. 1-43. Standards serve as conformity guidelines EN ISO 14971:2007 Medical devices – Application of risk management to medical devices EN ISO 13485:2003 Medical devices – Quality management systems — Requirements for regulatory purposes EN ISO 14155:2003 Clinical investigation of medical devices for human subjects PP-100201-a-FMO, February 5, 2010 F. Moser 12

13 Consequences of the Activity Basis for identification and separation of safety-relevant subsystems created Comprehensive list of top-level hazards allowed scope definition Understood regulatory framework Development process defined keeping regulatory framework in mind Quality assurance applied throughout entire lifecycle of control system development Increased requirements on contractor selection PP-100201-a-FMO, February 5, 2010 F. Moser 13

14 Step 2: Safety Scope document (REF) Based on Safety Concept and the Preliminary Hazard ListSelects in-scope hazards from PHL Hazards that are relevant for medical application Defines boundary of the Medical Device Identifies parts participating in medical treatment and foreseen safety functions Specifies scope of the hazard and risk analysis PP-100201-a-FMO, February 5, 2010 F. Moser 14 PM-100114-a-FMO

15 Equipment in scope (ongoing) Associates in-scope hazards with subsystems Lists physical equipment within the safety-related subsystems Lists software within the safety-related subsystems PP-100201-a-FMO, February 5, 2010 F. Moser 15

16 Preliminary Scope Map PP-100201-a-FMO, February 5, 2010 F. Moser 16 Treatment to machine conversion HIS/OIS Beam Position Monitors Beam Intenstity Monitors Beam Energy Monitors Magnet Kicker Stop Rotator Magnet Kicker Chopper Magnet Induction (Betatron) MAG VACBID PS BI SRC RFQRFCLinac/IH Quality Assurance Dosimetry Equipment AcceleratorBeam Delivery Medical Technical Equipment Infrastructure Gantry PPS Gantry PPS Gantry Structure Gantry Structure Central Scheduler Medical Imaging Devices DTMI Gateway PACS A&A System A&A System Treatment Planning System Safety & Access Control System Building Automation System Beam Interlock System Beam Interlock System Accelerator Control System Control System Medical Software Systems Supervisory Control System Gantry Beam Delivery Control System Patient Verification System Patient Positioning System Diagnostic Imaging Review Long Term Data Repository Patient Record and Verification System Data import/export - external sites Alignment Equipment Infra- structure Devices

17 Events in scope Comprehensive list of accident-initiating event types Component failures Configuration faults Timing failures … Comprehensive list of external events Electrical power failure Patient identification failure Ion beam failure … PP-100201-a-FMO, February 5, 2010 F. Moser 17

18 Required next steps Check and complement concept & scopeReview and approve concept & scopePerform risk analysis on existing designRefine risk analysisRefine design of safety-related systems PP-100201-a-FMO, February 5, 2010 F. Moser 18 Requires additional manpower

19 Conclusions Initiated risk management processIdentified need for top-down approach Project-wide WP covering process Coordination of individual activities Performed preparatory work in order to elaborate beam-verification requirements PP-100201-a-FMO, February 5, 2010 F. Moser 19

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