Switch to: References

Add citations

You must login to add citations.
  1. Strukturwandel der Wissenschaft.Gregor Schiemann, Alfred Nordmann & Hans Radder (eds.) - 2014
    Mit Robotik, Digitalisierung, softwaregesteuerten Präzisionsinstrumenten und hochkomplexen Simulationsverfahren wird heute Technik zur treibenden Kraft der wissenschaftlichen Forschungspraxis. Gleichzeitig sieht sich die universitäre Forschung wachsenden gesellschaftlichen Einflüssen ausgesetzt und nähert sich selbst immer mehr der Industrieforschung an, woraus sich neue Fragen nach den Werten und der Objektivität der Wissenschaft ergeben. Derartig weitreichende Veränderungen haben zahlreiche Spekulationen darüber provoziert, ob sich in der Wissenschaftsgeschichte gegenwärtig ein Epochenbruch vollzieht. Dieser Sammelband setzt sich aus philosophischen, historischen und kulturwissenschaftlichen Perspektiven mit den Epochenbruchthesen auseinander, bestätigt (...)
    Download  
     
    Export citation  
     
    Bookmark  
  • Science Transformed?: Debating Claims of an Epochal Break.Alfred Nordmann, Hans Radder & Gregor Schiemann (eds.) - 2011 - University of Pittsburgh Press.
    Advancements in computing, instrumentation, robotics, digital imaging, and simulation modeling have changed science into a technology-driven institution. Government, industry, and society increasingly exert their influence over science, raising questions of values and objectivity. These and other profound changes have led many to speculate that we are in the midst of an epochal break in scientific history. -/- This edited volume presents an in-depth examination of these issues from philosophical, historical, social, and cultural perspectives. It offers arguments both for and against (...)
    Download  
     
    Export citation  
     
    Bookmark   14 citations  
  • What is a problem?Jan C. Schmidt - 2011 - Poiesis and Praxis 7 (4):249-274.
    Among others, the term problem plays a major role in the various attempts to characterize interdisciplinarity or transdisciplinarity, as used synonymously in this paper. Interdisciplinarity is regarded as problem solving among science, technology and society and as problem orientation beyond disciplinary constraints. The point of departure of this paper is that the discourse and practice of ID have problems with the problem. The objective here is to shed some light on the vague notion of problem in order to advocate a (...)
    Download  
     
    Export citation  
     
    Bookmark   12 citations  
  • Technoscientia est Potentia?Karen Kastenhofer & Jan C. Schmidt - 2011 - Poiesis and Praxis 8 (2-3):125-149.
    Within the realm of nano-, bio-, info- and cogno- (or NBIC) technosciences, the ‘power to change the world’ is often invoked. One could dismiss such formulations as ‘purely rhetorical’, interpret them as rhetorical and self-fulfilling or view them as an adequate depiction of one of the fundamental characteristics of technoscience. In the latter case, a very specific nexus between science and technology, or, the epistemic and the constructionist realm is envisioned. The following paper focuses on this nexus drawing on theoretical (...)
    Download  
     
    Export citation  
     
    Bookmark   3 citations  
  • Prospective Technology Assessment of Synthetic Biology: Fundamental and Propaedeutic Reflections in Order to Enable an Early Assessment.Jan Cornelius Schmidt - 2016 - Science and Engineering Ethics 22 (4):1151-1170.
    Synthetic biology is regarded as one of the key technosciences of the future. The goal of this paper is to present some fundamental considerations to enable procedures of a technology assessment of synthetic biology. To accomplish such an early “upstream” assessment of a not yet fully developed technology, a special type of TA will be considered: Prospective TA. At the center of ProTA are the analysis and the framing of “synthetic biology,” including a characterization and assessment of the technological core. (...)
    Download  
     
    Export citation  
     
    Bookmark   2 citations