Publications
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Author [ Title] Type Year Filters: First Letter Of Last Name is G [Clear All Filters]
“Abduction As A Strategy For Concept Formation In Mathematics: Cardano Postulating A Negative.” . Abduction and the process of scientific discovery: 179–194.
. 2007. “Abduction Of Generalizations”. Theoria - revista de teoria historia y fundamentos de la ciencia 27: 345–364.
. 2012. “An Adaptive Logic Based Approach To Abduction In Ai”. Ninth International Workshop on Non-Monotonic Reasoning, Action and Change: 1-6.
. 2011. “Adaptive Logics For Abduction And The Explication Of Explanation-Seeking Processes” . Abduction and the Process of Scientific Discovery: 97–119.
. 2007. “'argumentandi Modus Huius Scientiae Maximè Proprius: ' Guidobaldo's Mechanics And The Question Of Mathematical Principles” . Guidobaldo del Monte (1545-1607) : theory and practice of the mathematical disciplines from Urbino to Europe: 9–34. http://www.edition-open-access.de/media/proceedings/4/Proceedings4.pdf.
. 2013. “Avoiding Deontic Explosion By Contextually Restricting Aggregation”. In Proceedings of the 10th International Conference on Deontic Logic in Computer Science (DEON 2010), Proceedings of the 10th International Conference on Deontic Logic in Computer Science (DEON 2010), . Dordrecht: Springer.
. 2010. “The Body In Renaissance Arithmetic: From Mnemonics To Embodied Cognition”. In Proceedings of the Thirty Sixth Annual Convention of the Society for the Study of Artificial Intelligence and Simulation, Proceedings of the Thirty Sixth Annual Convention of the Society for the Study of Artificial Intelligence and Simulation, . The Society for the Study of Artificial Intelligence and the Simulation of Behaviour.
. 2010. “Cassirer's Critical Idealism: A Comment On Thomas Mormann.” . Laws and Models in Science: 161–171.
. 2004. “Constructive Contextual Modal Judgments For Reasoning From Open Assumptions”. In Proceedings of the Computability in Europe 2010 Conference, Proceedings of the Computability in Europe 2010 Conference, . Centre for Applied Mathematics and Information Technology, Department of Mathematics, University of Azores.
. 2010. “Content Guidance In Formal Problem Solving Processes” . Abduction and the Process of Scientific Discovery: 121–156.
. 2007. “A Contextual Approach To Meaning And Knowledge” Science and Society: 84–110.
. 1987. “The Covering Law Model Applied To Dynamical Cognitive Science: A Comment On Joel Walmsley”. Minds and Machines 21: 33–39.
. 2011. “Explaining Capacities: Assessing The Explanatory Power Of Models In The Cognitive Sciences” . Logic, Reasoning, and Rationality: 45-57.
. 2014. “The Feasibility Of Modeling Hypothetical Reasoning By Formal Logics. Including An Overview Of Adaptive Logics For Singular Fact Abduction” . Handbook of Model-Based Science.
. In Press. “A Formal Logic For The Abduction Of Singular Hypotheses” . Explanation, Prediction, and Confirmation: 93–108.
. 2011. “A Framework For Inter-Level Explanations: Outlines For A New Explanatory Pluralism.”. Studies in History and Philosophy of Science Part A 48: 1–9.
. 2014. “Functioning And Teachings Of Adaptive Logics” . Logic and Argumentation: 241–254.
. 1996. “The 'green Cheese' And 'red Herring' Problems Reconsidered. Epistemological Versus Methodological Tasks For Philosophers Of Science”. Logique et analyse: 433-455.
. 2015. “Increasing Returns In Science: A Model Of The Dynamics Of Scientific Activity”. Logic Journal of the IGPL 18: 278-294.
. 2010. “Inferential Explanations In Biology”. Studies in History and Philosophy of Biological and Biomedical Sciences 44: 356–364.
. 2013. “Mechanistic And Non-Mechanistic Varieties Of Dynamical Models In Cognitive Science: Explanatory Power, Understanding, And The 'mere Description' Worry”. Synthese 192: 43–66.
. 2014. “Modelling Abduction In Science By Means Of A Modal Adaptive Logic”. FOUNDATIONS OF SCIENCE 18: 611–624.
. 2013. “The Need For Adaptive Logics In Epistemology” . Logic, Epistemology, and the Unity of Science: 459–485.
. 2004. “Non-Cognitive Values And Objectivity In Scientific Explanation: The Case Of The Movius Line”. PERSPECTIVES ON SCIENCE 21: 429–452.
. 2013.