Standards | The Safety Engineer Resource
This entry provides: A list of relevant safety standards categorised by industrial domain. A list of other relevant standards by project stage (e.g. requirements fundamentals of astrodynamics and applications & coding standards). A list of reference texts which give further detail about standards
// Please add a comment to suggest other standards to be added to the list Airborne: ARP 4761 – Guidelines and Methods for Conducting the Safety fundamentals of astrodynamics and applications Assessment fundamentals of astrodynamics and applications Process on Civil Airborne Systems and Equipment [SAE] ARP 4754 – Certification Considerations for Highly-Integrated Or Complex Aircraft Systems [SAE] DO-178B / ED-12B – Software Considerations in Airborne Systems and Equipment Certification [RTCA / Eurocae] DO-248B fundamentals of astrodynamics and applications / ED-94B – Final Report for Clarification of DO-178B “Software Considerations in Airborne Systems and Equipment Certification” [RTCA / Eurocae] DO-254 / ED-80 – Design Assurance Guidance for Airborne Electronic Hardware [RTCA / Eurocae] ATM Safety Assessment Methodology [Eurocontrol] ED109 – Guidelines for CNS/ATM Systems Software Integrity Assurance [Eurocae] fundamentals of astrodynamics and applications Recommendations for A.N.S. Software [Eurocontrol] ANS Software fundamentals of astrodynamics and applications Lifecycle [Eurocontrol] Nuclear Military Def Stan 00-56 – Safety Management Requirements for Defence Systems fundamentals of astrodynamics and applications (Issue 4) [UK Ministry of Defence] Def Aust 5679 – The Procurement of Safety-Critical Computer-Based Systems [Australian Department of Defence Railway EN 50126 – Railway fundamentals of astrodynamics and applications applications. The specification and demonstration fundamentals of astrodynamics and applications of reliability, availability, maintainability and safety fundamentals of astrodynamics and applications (RAMS) [Cenelec] EN 50128 – Railway applications. Communications, signalling and processing systems. Software for railway control and protection systems [Cenelec] EN50129 – fundamentals of astrodynamics and applications Railway applications. Communication, signallign and processing systems. Safety related electronic systems for signalling [Cenelec Multi-Industrial Domains IEC 61508 – Functional safety of electrical/electronic/ programmable electronic safety-related systems [IET] Other Relevant Standards IEEE 830 References
The following books provide a useful information on standards: Software Safety and Reliability: Techniques, Approaches, and Standards of Key Industrial Sectors Debra S. Herrmann , Wiley-IEEE Computer Society Press , ISBN: 978-0-7695-0299-1.
This fundamentals of astrodynamics and applications entry was posted on April 4, 2008 at 1:51 pm and is filed under Safety Process . You can follow any responses fundamentals of astrodynamics and applications to this entry through the RSS 2.0 feed. You can leave a response , or trackback from your own site.
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This entry provides: A list of relevant safety standards categorised by industrial domain. A list of other relevant standards by project stage (e.g. requirements fundamentals of astrodynamics and applications & coding standards). A list of reference texts which give further detail about standards
// Please add a comment to suggest other standards to be added to the list Airborne: ARP 4761 – Guidelines and Methods for Conducting the Safety fundamentals of astrodynamics and applications Assessment fundamentals of astrodynamics and applications Process on Civil Airborne Systems and Equipment [SAE] ARP 4754 – Certification Considerations for Highly-Integrated Or Complex Aircraft Systems [SAE] DO-178B / ED-12B – Software Considerations in Airborne Systems and Equipment Certification [RTCA / Eurocae] DO-248B fundamentals of astrodynamics and applications / ED-94B – Final Report for Clarification of DO-178B “Software Considerations in Airborne Systems and Equipment Certification” [RTCA / Eurocae] DO-254 / ED-80 – Design Assurance Guidance for Airborne Electronic Hardware [RTCA / Eurocae] ATM Safety Assessment Methodology [Eurocontrol] ED109 – Guidelines for CNS/ATM Systems Software Integrity Assurance [Eurocae] fundamentals of astrodynamics and applications Recommendations for A.N.S. Software [Eurocontrol] ANS Software fundamentals of astrodynamics and applications Lifecycle [Eurocontrol] Nuclear Military Def Stan 00-56 – Safety Management Requirements for Defence Systems fundamentals of astrodynamics and applications (Issue 4) [UK Ministry of Defence] Def Aust 5679 – The Procurement of Safety-Critical Computer-Based Systems [Australian Department of Defence Railway EN 50126 – Railway fundamentals of astrodynamics and applications applications. The specification and demonstration fundamentals of astrodynamics and applications of reliability, availability, maintainability and safety fundamentals of astrodynamics and applications (RAMS) [Cenelec] EN 50128 – Railway applications. Communications, signalling and processing systems. Software for railway control and protection systems [Cenelec] EN50129 – fundamentals of astrodynamics and applications Railway applications. Communication, signallign and processing systems. Safety related electronic systems for signalling [Cenelec Multi-Industrial Domains IEC 61508 – Functional safety of electrical/electronic/ programmable electronic safety-related systems [IET] Other Relevant Standards IEEE 830 References
The following books provide a useful information on standards: Software Safety and Reliability: Techniques, Approaches, and Standards of Key Industrial Sectors Debra S. Herrmann , Wiley-IEEE Computer Society Press , ISBN: 978-0-7695-0299-1.
This fundamentals of astrodynamics and applications entry was posted on April 4, 2008 at 1:51 pm and is filed under Safety Process . You can follow any responses fundamentals of astrodynamics and applications to this entry through the RSS 2.0 feed. You can leave a response , or trackback from your own site.
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