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  1. Scientific discovery as a combinatorial optimisation problem: How best to navigate the landscape of possible experiments?Douglas B. Kell - 2012 - Bioessays 34 (3):236-244.
    A considerable number of areas of bioscience, including gene and drug discovery, metabolic engineering for the biotechnological improvement of organisms, and the processes of natural and directed evolution, are best viewed in terms of a ‘landscape’ representing a large search space of possible solutions or experiments populated by a considerably smaller number of actual solutions that then emerge. This is what makes these problems ‘hard’, but as such these are to be seen as combinatorial optimisation problems that are best attacked (...)
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  • Social knowing: The social sense of 'scientific knowledge'.Alexander Bird - 2010 - Philosophical Perspectives 24 (1):23-56.
    There is a social or collective sense of ‘knowledge’, as used, for example, in the phrase ‘the growth of scientific knowledge’. In this paper I show that social knowledge does not supervene on facts about what individuals know, nor even what they believe or intend, or any combination of these or other mental states. Instead I develop the idea that social knowing is an analogue to individual knowing, where the analogy focuses on the functional role of social and individual knowing.
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  • Life at the frontier: The relevance of heuristic appraisal to policy. [REVIEW]Thomas Nickles - 2009 - Axiomathes 19 (4):441-464.
    Economic competitive advantage depends on innovation, which in turn requires pushing back the frontiers of various kinds of knowledge. Although understanding how knowledge grows ought to be a central topic of epistemology, epistemologists and philosophers of science have given it insufficient attention, even deliberately shunning the topic. Traditional confirmation theory and general epistemology offer little help at the frontier, because they are mostly retrospective rather than prospective. Nor have philosophers been highly visible in the science and technology policy realm, despite (...)
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  • Questioning Scientific Publications: Understanding how Indonesian Scholars Perceive the Obligation to Publish and its Ethical Practices.Yuliana Hanami, Idhamsyah Eka Putra, Muhammad Aldan Relintra & Syauqiyyah Syahlaa - 2023 - Journal of Academic Ethics 21 (4):625-647.
    Considerable demand for academic research and publications is not a new subject of discussion in the academic field. In Indonesia, there is increasing challenge and pressure to conduct scientific publications, making it a very competitive field for academics, particularly for lecturers and postgraduate students. The present study examines Indonesian scholars’ perceptions of academic publishing as a demand from institutions and the government, as well as their understanding of academic misconduct. We conducted a survey with open-ended questions to 55 scholars. The (...)
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  • The Scientific Research Output of U.S. Research Universities, 1980–2010: Continuing Dispersion, Increasing Concentration, or Stable Inequality? [REVIEW]Steven Brint & Cynthia E. Carr - 2017 - Minerva 55 (4):435-457.
    Extending and expanding Geiger and Feller’s analysis of increasing dispersion in R&D expenditures during the 1980s, the paper analyzes publication and citation counts as well as R&D expenditures for 194 top producers using Web of Science data. We find high and stable levels of inequality in the 1990s and 2000s, combined with robust growth both in the system and on individual campuses, considerable opportunities for short-range mobility and very limited opportunities for long-range mobility. Initial investments in research, private control, and (...)
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  • Discovery without a ‘logic’ would be a miracle.Benjamin C. Jantzen - 2016 - Synthese 193 (10).
    Scientists routinely solve the problem of supplementing one’s store of variables with new theoretical posits that can explain the previously inexplicable. The banality of success at this task obscures a remarkable fact. Generating hypotheses that contain novel variables and accurately project over a limited amount of additional data is so difficult—the space of possibilities so vast—that succeeding through guesswork is overwhelmingly unlikely despite a very large number of attempts. And yet scientists do generate hypotheses of this sort in very few (...)
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  • Hypothesizing about signaling networks.Nam Tran & Chitta Baral - 2009 - Journal of Applied Logic 7 (3):253-274.
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  • Kurzweil's argument for the success of AI.Drew McDermott - 2006 - Artificial Intelligence 170 (18):1227-1233.
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  • Scientific discovery, causal explanation, and process model induction.Pat Langley - 2019 - Mind and Society 18 (1):43-56.
    In this paper, I review two related lines of computational research: discovery of scientific knowledge and causal models of scientific phenomena. I also report research on quantitative process models that falls at the intersection of these two themes. This framework represents models as a set of interacting processes, each with associated differential equations that express influences among variables. Simulating such a quantitative process model produces trajectories for variables over time that one can compare to observations. Background knowledge about candidate processes (...)
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  • Tools of the Trade: UK Research Intermediaries and the Politics of Impacts. [REVIEW]Matthew Kearnes & Matthias Wienroth - 2011 - Minerva 49 (2):153-174.
    In recent years questions concerning the impact of public research funding have become the preeminent site at which struggles over the meanings and value of science are played out. In this paper we explore the ‘politics of impact’ in contemporary UK science and research policy and, in particular, detail the ways in which UK research councils have responded to and reframed recent calls for the quantitative measurement of research impacts. Operating as ‘boundary organisations’ research councils are embroiled in what might (...)
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  • How Artificial Intelligence Can Help Us Understand Human Creativity.Fernand Gobet & Giovanni Sala - 2019 - Frontiers in Psychology 10.
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