61 research outputs found
Modelling interdependencies between the electricity and information infrastructures
The aim of this paper is to provide qualitative models characterizing
interdependencies related failures of two critical infrastructures: the
electricity infrastructure and the associated information infrastructure. The
interdependencies of these two infrastructures are increasing due to a growing
connection of the power grid networks to the global information infrastructure,
as a consequence of market deregulation and opening. These interdependencies
increase the risk of failures. We focus on cascading, escalating and
common-cause failures, which correspond to the main causes of failures due to
interdependencies. We address failures in the electricity infrastructure, in
combination with accidental failures in the information infrastructure, then we
show briefly how malicious attacks in the information infrastructure can be
addressed
Design for validation: An approach to systems validation
Every complex system built is validated in some manner. Computer validation begins with review of the system design. As systems became too complicated for one person to review, validation began to rely on the application of adhoc methods by many individuals. As the cost of the changes mounted and the expense of failure increased, more organized procedures became essential. Attempts at devising and carrying out those procedures showed that validation is indeed a difficult technical problem. The successful transformation of the validation process into a systematic series of formally sound, integrated steps is necessary if the liability inherent in the future digita-system-based avionic and space systems is to be minimized. A suggested framework and timetable for the transformtion are presented. Basic working definitions of two pivotal ideas (validation and system life-cyle) are provided and show how the two concepts interact. Many examples are given of past and present validation activities by NASA and others. A conceptual framework is presented for the validation process. Finally, important areas are listed for ongoing development of the validation process at NASA Langley Research Center
Resilient Computing Curriculum
This Deliverable presents the MSc Curriculum in Resilient Computing suggested by ReSIST. It includes the description of the syllabi for all the courses in the two semesters of the first year, those for the common courses in semester 3 in the second year together with an exemplification of possible application tracks with the related courses. This MSc curriculum has been updated and
completed taking advantage of a large open discussion inside and outside ReSIST. This MSc Curriculum is on-line on the official ReSIST web site, where all information is available together with all the support material generated by ReSIST and all other relevant freely available support material.European Commission through NoE IST-4-026764-NOE (ReSIST
Resilient Computing Courseware
This Deliverable describes the courseware in support to teaching Resilient Computing
in a Curriculum for an MSc track following the scheme of the Bologna process. The development of the supporting material for such a curriculum has required a rather intensive activity that involved not only the partners in ReSIST but also a much
larger worldwide community with the aim of identifying available updated support
material that can be used to build a progressive and methodical line of teaching to accompany students and interested persons in a profitable learning process. All this material is on-line on the official ReSIST web site http://www.resistnoe.org/, can be viewed and downloaded for use in a class and constitutes, at our knowledge, the first, almost comprehensive attempt, to build a database of support material related to Dependable and Resilient Computing.European Commission through NoE IST-4-026764-NOE (ReSIST
X-ware reliability and availability modeling
International audienc
SOFTWARE RELIABILITY TREND ANALYSES: FROM THEORETICAL TO PRACTICAL CONSIDERATIONS
This paper addresses the problem of reliability growth characterization and analysis. It is intended to show how reliability trend analyses can help the project manager in controlling the progress of the development activities and in appreciating the efficiency of the test programs. Reliability trend change may result from various reasons, some of them are desirable and expected (such as reliability growth due to fault removal) and some of them are undesirable (such as slowing down of the testing effectiveness). Identification in time of the latter allows the project manager to take the appropriate decisions very quickly in order to avoid problems which may manifest later. The notions of reliability growth over a given interval and local reliability trend change are introduced through the subadditive property, allowing better definition and understanding of the reliability growth phenomena; the already existing trend tests are then revisited using these concepts. Emphasis is put on the way trend tests can be used to help the management of the testing and validation process and on practical results that can be derived from their use; it is shown that, for several circumstances, trend analyses give information of prime importance to the developer
Sûreté de Fonctionnement du Logiciel
.Revue de l'Electricité et de l'Electronique, N°11, pp.37-41National audienc
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