For about two decades, compliance with Software Considerations in Airborne Systems and Equipment Certification (DO-178B/ED-12B) has been the primary means for receiving regulatory approval for using software on commercial airplanes. A new edition of the standard, DO-178C/ED-12C, was published in December 2011, and recognized by regulatory bodies in 2013. The purpose remains unchanged: to provide guidance 'for the production of software for airborne systems and equipment that performs its intended function with a level of confidence in safety that complies with airworthiness requirements.' The text of the guidance does not directly explain how its collection of objectives contributes to achieving this purpose; thus, the assurance case for th...
The application of assurance engineering techniques improves the duration of failure-free performanc...
In principle, formal methods offer many advantages for aerospace software development: they can help...
The safety critical community – those involved in developing and verifying safety critical systems –...
For about two decades, compliance with Software Considerations in Airborne Systems and Equipment Cer...
International audienceGuidance for producing airborne software today must be developed to the expect...
The RTCA has recently released DO-178C and DO-278A as new certification guidance for the production ...
This paper investigates the software standard DO-278A from the RTCA according to assurance level 3 t...
Software development in safety-critical domains is dictated by software standards, such as "Software...
Software applications in which failure may result in possible catastrophic consequences on human lif...
The avionics industry requires that safety-critical software be assessed according to strict certifi...
We outline the current approach to certification of aircraft software, and the rôle of the DO-178B ...
Within the past decade, software has become an increasingly common element in computing systems. In ...
Avionics, like any other safety-critical real-time systems, pose unique challenges on system design,...
https://doi.org/10.21949/14035271993PDFOrganization InfoPartsProductsCertificationProceduresQuality ...
Several model-based approaches have been proposed to ease the process of developing certifiable safe...
The application of assurance engineering techniques improves the duration of failure-free performanc...
In principle, formal methods offer many advantages for aerospace software development: they can help...
The safety critical community – those involved in developing and verifying safety critical systems –...
For about two decades, compliance with Software Considerations in Airborne Systems and Equipment Cer...
International audienceGuidance for producing airborne software today must be developed to the expect...
The RTCA has recently released DO-178C and DO-278A as new certification guidance for the production ...
This paper investigates the software standard DO-278A from the RTCA according to assurance level 3 t...
Software development in safety-critical domains is dictated by software standards, such as "Software...
Software applications in which failure may result in possible catastrophic consequences on human lif...
The avionics industry requires that safety-critical software be assessed according to strict certifi...
We outline the current approach to certification of aircraft software, and the rôle of the DO-178B ...
Within the past decade, software has become an increasingly common element in computing systems. In ...
Avionics, like any other safety-critical real-time systems, pose unique challenges on system design,...
https://doi.org/10.21949/14035271993PDFOrganization InfoPartsProductsCertificationProceduresQuality ...
Several model-based approaches have been proposed to ease the process of developing certifiable safe...
The application of assurance engineering techniques improves the duration of failure-free performanc...
In principle, formal methods offer many advantages for aerospace software development: they can help...
The safety critical community – those involved in developing and verifying safety critical systems –...