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From Biology to Mathematical Models and Back: Teaching Modeling to Biology Students, and Biology to Math and Engineering Students

, , and . CBE-Life Sciences Education, 9 (3): 248--265 (Sep 21, 2010)
DOI: 10.1187/cbe.10-03-0022

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Information Maximization Fails to Maximize Expected Utility in a Simple Foraging Model, , and . CoRR, (2010)From Biology to Mathematical Models and Back: Teaching Modeling to Biology Students, and Biology to Math and Engineering Students, , and . CBE-Life Sciences Education, 9 (3): 248--265 (Sep 21, 2010)Biologically Inspired Approaches to Robotics., , , and . Commun. ACM, 40 (3): 30-38 (1997)Modeling of the Dorsal Gradient across Species Reveals Interaction between Embryo Morphology and Toll Signaling Pathway during Evolution., , , , and . PLoS Comput. Biol., (2014)Ultra-Low-Power and Robust Digital-Signal-Processing Hardware for Implantable Neural Interface Microsystems., , and . IEEE Trans. Biomed. Circuits Syst., 5 (2): 169-178 (2011)A controller for continuous wave peristaltic locomotion., , , , and . IROS, page 197-202. IEEE, (2011)Synthetic Nervous System Control of a Bioinspired Soft Grasper for Pick-and-Place Manipulation., , , , , , , , and . Living Machines (1), volume 14157 of Lecture Notes in Computer Science, page 300-321. Springer, (2023)Evolution and Analysis of Model CPGs for Walking: I. Dynamical Modules., , and . J. Comput. Neurosci., 7 (2): 99-118 (1999)Evolution and Analysis of Model CPGs for Walking: II. General Principles and Individual Variability., , and . J. Comput. Neurosci., 7 (2): 119-147 (1999)Neural control exploits changing mechanical advantage and context dependence to generate different feeding responses in Aplysia., , , , , and . Biol. Cybern., 91 (5): 333-345 (2004)