New Handbook of Mathematical Psychology: Volume 2, Modeling and Measurement
Herausgeber: Batchelder, William H; Dzhafarov, Ehtibar N; Colonius, Hans
New Handbook of Mathematical Psychology: Volume 2, Modeling and Measurement
Herausgeber: Batchelder, William H; Dzhafarov, Ehtibar N; Colonius, Hans
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Shows how foundational mathematical ideas can be employed in the understanding of a variety of psychological phenomena.
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Shows how foundational mathematical ideas can be employed in the understanding of a variety of psychological phenomena.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 474
- Erscheinungstermin: 8. November 2018
- Englisch
- Abmessung: 255mm x 182mm x 27mm
- Gewicht: 1076g
- ISBN-13: 9781107029071
- ISBN-10: 1107029074
- Artikelnr.: 51971907
- Verlag: Cambridge University Press
- Seitenzahl: 474
- Erscheinungstermin: 8. November 2018
- Englisch
- Abmessung: 255mm x 182mm x 27mm
- Gewicht: 1076g
- ISBN-13: 9781107029071
- ISBN-10: 1107029074
- Artikelnr.: 51971907
1. Stochastic methods for modeling decision making Adele Diederich and
Keivan Mallahi-kara; 2. The diffusion model of speeded choice, from a
rational perspective Matt Jones; 3. Stochastic foundations of elementary
mental architectures Joseph W. Haupt, James T. Townsend and Brett
Jefferson; 4. Identifiability of probabilistic models, with examples from
knowledge structure theory Jean-Paul Doignon, Jurgen Heller and Luca
Stefanutti; 5. Quantum models of cognition and decision Jerome R. Busemeyer
and Peter D. Kvam; 6. Computational cognitive neuroscience F. Gregory
Ashby; 7. Discovering aggregation properties via voting Donald G. Saari; 8.
Categorization based on similarity and features: the Reproducing Kernel
Banach Space (RKBS) approach Jun Zhang and Haizhang Zhang; 9. The axiom of
meaningfulness in science and geometry Jean-Claude Falmagne, Louis Narens
and Christopher Doble.
Keivan Mallahi-kara; 2. The diffusion model of speeded choice, from a
rational perspective Matt Jones; 3. Stochastic foundations of elementary
mental architectures Joseph W. Haupt, James T. Townsend and Brett
Jefferson; 4. Identifiability of probabilistic models, with examples from
knowledge structure theory Jean-Paul Doignon, Jurgen Heller and Luca
Stefanutti; 5. Quantum models of cognition and decision Jerome R. Busemeyer
and Peter D. Kvam; 6. Computational cognitive neuroscience F. Gregory
Ashby; 7. Discovering aggregation properties via voting Donald G. Saari; 8.
Categorization based on similarity and features: the Reproducing Kernel
Banach Space (RKBS) approach Jun Zhang and Haizhang Zhang; 9. The axiom of
meaningfulness in science and geometry Jean-Claude Falmagne, Louis Narens
and Christopher Doble.
1. Stochastic methods for modeling decision making Adele Diederich and
Keivan Mallahi-kara; 2. The diffusion model of speeded choice, from a
rational perspective Matt Jones; 3. Stochastic foundations of elementary
mental architectures Joseph W. Haupt, James T. Townsend and Brett
Jefferson; 4. Identifiability of probabilistic models, with examples from
knowledge structure theory Jean-Paul Doignon, Jurgen Heller and Luca
Stefanutti; 5. Quantum models of cognition and decision Jerome R. Busemeyer
and Peter D. Kvam; 6. Computational cognitive neuroscience F. Gregory
Ashby; 7. Discovering aggregation properties via voting Donald G. Saari; 8.
Categorization based on similarity and features: the Reproducing Kernel
Banach Space (RKBS) approach Jun Zhang and Haizhang Zhang; 9. The axiom of
meaningfulness in science and geometry Jean-Claude Falmagne, Louis Narens
and Christopher Doble.
Keivan Mallahi-kara; 2. The diffusion model of speeded choice, from a
rational perspective Matt Jones; 3. Stochastic foundations of elementary
mental architectures Joseph W. Haupt, James T. Townsend and Brett
Jefferson; 4. Identifiability of probabilistic models, with examples from
knowledge structure theory Jean-Paul Doignon, Jurgen Heller and Luca
Stefanutti; 5. Quantum models of cognition and decision Jerome R. Busemeyer
and Peter D. Kvam; 6. Computational cognitive neuroscience F. Gregory
Ashby; 7. Discovering aggregation properties via voting Donald G. Saari; 8.
Categorization based on similarity and features: the Reproducing Kernel
Banach Space (RKBS) approach Jun Zhang and Haizhang Zhang; 9. The axiom of
meaningfulness in science and geometry Jean-Claude Falmagne, Louis Narens
and Christopher Doble.