Results 271 to 280 of about 965,816 (315)
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System-of-systems security engineering
Tenth Annual Computer Security Applications Conference, 2002There is an increasing trend to treat a collection of individual systems that support a common mission as a single entity and to perform systems engineering activities for that entity. A security engineering process is proposed for systems-of-systems. This process addresses such issues as how to identify and mitigate risks resulting from connectivity ...
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Ontology for Systems Engineering: Model-Based Systems Engineering
2012 Sixth UKSim/AMSS European Symposium on Computer Modeling and Simulation, 2012This paper presents an ontology for systems engineering, by means of a set of information models based on a modelling methodology derived from and a simplification of the ISO 15926 part 2 data model. The methodology matches the way people think and communicate and is designed specifically to be useful for engineers.
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Systems thinking or systems engineering
International Journal of Intelligent Defence Support Systems, 2009The problem faced by most systems organisations is how to develop and sustain staff with the appropriate systems skills and experience. To date, much has been made of the delineation of systems thinking and systems engineering. In this research, the partitioning of 'thinking' and 'engineering' has been explored using Discourse Analysis (DA) of ...
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INCOSE International Symposium, 2017
AbstractThe Concept Phase of Systems Engineering, also known as Design, is most critical for it determines most of the cost, complexity and value of a system. Given the interdisciplinary nature of Design, it is no wonder that a wide variety of tools and approaches have been developed to aid in addressing design problems.
Jon Wade +2 more
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AbstractThe Concept Phase of Systems Engineering, also known as Design, is most critical for it determines most of the cost, complexity and value of a system. Given the interdisciplinary nature of Design, it is no wonder that a wide variety of tools and approaches have been developed to aid in addressing design problems.
Jon Wade +2 more
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General Systems and Systems Engineering
IEEE Transactions on Systems Science and Cybernetics, 1966One of the main lines of thought in General Systems is the transfer of system concepts from one field to another. There has been fruitful application of such theoretical concepts from engineering to other fields such as biology. In this paper, an attempt is made to apply concepts from biology to the practice of systems engineering.
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Safety Engineering – a Perspective on Systems Engineering
2011The thesis of the paper is that safety engineering should be not be considered to be ‘special and different’ but rather should be seen as a specific viewpoint on the more general practice of systems engineering, albeit with the appropriate degree of rigour applied to the processes involved. In recent correspondence with the authors, Dr Nancy Leveson of
Derek Fowler, Ronald Pierce
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An introduction to engineering: complexity in engineered systems
2004 43rd IEEE Conference on Decision and Control (CDC) (IEEE Cat. No.04CH37601), 2004Advances in technology hold promising solutions to problems that up until now have been intractable. Many of these problems are multidisciplinary encompassing engineering, science and socioeconomic aspects. Many involve systems that are multi-layered and include a large number of components making them inherently complex.
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Unifying software engineering and systems engineering
Computer, 2000The author describes CMMI (Capability Maturity Model Integration) and the emerging project methods which demonstrate the opportunities for process improvement gains open to organizations. The organization that changes from separated software and system engineering processes to a more unified approach will find itself far more suited to developing ...
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Requirements engineering in systems engineering practice
[1993] Proceedings of the IEEE International Symposium on Requirements Engineering, 2002Advances in microprocessor and network technology led to the proliferation of complex systems with distributed processing and databases, internal communication systems, and heterogeneous components. The processing components can by themselves comprise a system or they may be embedded in a physical system. Both the encompassing system and the processing
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Systems, systems of systems, and the education of engineers
Artificial Intelligence for Engineering Design, Analysis and Manufacturing, 1998The thesis presented here is that the result of engineering is the design, construction, or operation of systems or their subsystems and components and that the teaching of systems must be central to engineering education. It is maintained that current undergraduate engineering curricula do not give the student adequate appreciation of this major
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