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High-resolution behavioral mapping of electric fishes in Amazonian habitats
ArticleAbstract: The study of animal behavior has been revolutionized by sophisticated methodologies that identify anPalabras claves:Autores:Cowan N.J., Demir A., Eric S. Fortune, Jayakumar R.P., Madhav M.S., Stamper S.A.Fuentes:scopusFeedback control as a framework for understanding tradeoffs in biology
Conference ObjectAbstract: Control theory arose from a need to control synthetic systems. From regulating steam engines to tuniPalabras claves:Autores:Ankarali M.M., Cowan N.J., Daniel T.L., Dyhr J.P., Eric S. Fortune, Madhav M.S., Roth E., Sefati S., Sponberg S., Stamper S.A.Fuentes:scopusEffects of restraint and immobilization on electrosensory behaviors of weakly electric fish
ArticleAbstract: Weakly electric fishes have been an important model system in behavioral neuroscience for more thanPalabras claves:Curare, Distress, Electric fish, Electric organ discharge (EOD), Electrocommunication, Immobilization, Jamming avoidance response (JAR), Pain, Restraint, StressAutores:Chacron M.J., Eric S. Fortune, Hitschfeld E., Stamper S.A., Vonderschen K.Fuentes:scopusClosed-Loop Control of Active Sensing Movements Regulates Sensory Slip
ArticleAbstract: Animals generate active sensing movements, such as whisking in rodents and eye movements in humans aPalabras claves:active sensing, Augmented reality, closed loop, Control theory, Eigenmannia virescens, gymnotiformes, reafferent feedbackAutores:Arend L.A., Biswas D., Cowan N.J., Eric S. Fortune, Stamper S.A., Vágvölgyi B.P.Fuentes:scopusClosed-loop stabilization of the Jamming Avoidance Response reveals its locally unstable and globally nonlinear dynamics
ArticleAbstract: The Jamming Avoidance Response, or JAR, in the weakly electric fish has been analyzed at all levelsPalabras claves:Dynamical systems modeling, Eigenmannia, Electrosensory system, FEEDBACKAutores:Cowan N.J., Eric S. Fortune, Madhav M.S., Stamper S.A.Fuentes:scopusActive sensing via movement shapes spatiotemporal patterns of sensory feedback
ArticleAbstract: Previous work has shown that animals alter their locomotor behavior to increase sensing volumes. HowPalabras claves:active sensing, Electroreception, Sensory volume, ShapingAutores:Cowan N.J., Eric S. Fortune, Roth E., Stamper S.A.Fuentes:scopusDynamic modulation of visual and electrosensory gains for locomotor control
ArticleAbstract: Animal nervous systems resolve sensory conflict for the control of movement. For example, the glassPalabras claves:feedback control, locomotion, Multisensory integration, Sensory conflict, system identification, Weakly electric fishAutores:Cowan N.J., Demir A., Eric S. Fortune, Stamper S.A., Sutton E.E.Fuentes:scopusPerception and coding of envelopes in weakly electric fishes
ReviewAbstract: Natural sensory stimuli have a rich spatiotemporal structure and can often be characterized as a higPalabras claves:Electrosensory system, jamming avoidance response, Second-order statistics, Social envelope responseAutores:Chacron M.J., Eric S. Fortune, Stamper S.A.Fuentes:scopusSensory cues modulate smooth pursuit and active sensing movements
ArticleAbstract: Animals routinely use autogenous movement to regulate the information encoded by their sensory systePalabras claves:active sensing, Electrosensation, Sensorimotor system, Sensory cue, Smooth pursuit, Weakly electric fishAutores:Cowan N.J., Eric S. Fortune, Stamper S.A., Uyanik I.Fuentes:scopusSpecies differences in group size and electrosensory interference in weakly electric fishes: Implications for electrosensory processing
ArticleAbstract: In animals with active sensory systems, group size can have dramatic effects on the sensory informatPalabras claves:Electrosensory, Electrotaxis, gymnotiformes, SOCIAL BEHAVIORAutores:Carrera-G E., Eric S. Fortune, Fugère V., Krahe R., Stamper S.A., Tan E.Fuentes:scopus