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Engineering design methods
In: Materials & Design, Band 10, Heft 6, S. 322-323
Engineering design principles
In: Materials & Design, Band 21, Heft 5, S. 493-494
Mechanical engineering design
In: Materials & Design, Band 15, Heft 2, S. 116-117
Optimizing engineering designs
In: Materials & Design, Band 14, Heft 6, S. 368
Negotiation in engineering design
In: Group decision and negotiation, Band 3, Heft 1, S. 69-91
ISSN: 1572-9907
Engineering design for performance
In: Materials in engineering, Band 3, Heft 6, S. 644
Structural engineering design in practice
In: Materials & Design, Band 17, Heft 2, S. 112
Principles of engineering design
In: Materials & Design, Band 4, Heft 2, S. 743-744
Principles of engineering design
In: Materials & Design, Band 4, Heft 1, S. 693
Engineering design by legislation
In: Nuclear and chemical waste management, Band 7, Heft 3-4, S. 177
ISSN: 0191-815X
Mathematical Models and Engineering Design
In: Water and environment journal, Band 7, Heft 1, S. 18-23
ISSN: 1747-6593
AbstractThe role of mathematical models in engineering design is no longer that of simply automating techniques which were previously carried out manually. Throughout industry models are now becoming accepted as one of the main decision support systems to managers. This is certainly the case in engineering design for managing the environment. We are rapidly moving into the age of expert systems and hydro‐informatics, where the primary aim of most models is decision support. In this paper the role of the models in modern practice is reviewed and illustrated by case histories.
Editorial: Ethics and Engineering Design
In: Science, technology, & human values: ST&HV, Band 31, Heft 3, S. 223-236
ISSN: 1552-8251
Engineering ethics and science and technology studies (STS) have until now developed as separate enterprises. The authors argue that they can learn a lot from each other. STS insights can help make engineering ethics open the black box of technology and help discern ethical issues in engineering design. Engineering ethics, on the other hand, might help STS to overcome its normative sterility. The contributions in this special issue show in various ways how the gap between STS and engineering ethics might be overcome. In this editorial introduction, the authors discuss the various contributions briefly and delve into the way the various authors conceptualize the engineering design process and the consequences of those conceptualizations for what ethical issues become visible. They also discuss the implications for the responsibility of engineers for technological development.