2003 - Fellow of American Physical Society (APS) Citation For the development of statistical physics methods to interpret the coding of sensory data by nerve cells
André Longtin works mostly in the field of Psychotherapist, limiting it down to concerns involving Stimulus (psychology) and, occasionally, Cognitive psychology. His Cognitive psychology study frequently involves adjacent topics like Stimulus (psychology). Bifurcation and Limit cycle are the two main areas of interest in his Nonlinear system studies. His study connects Nonlinear system and Bifurcation. His Noise (video) research extends to Artificial intelligence, which is thematically connected. His Image (mathematics) research extends to the thematically linked field of Noise (video). His work in Image (mathematics) is not limited to one particular discipline; it also encompasses Stochastic resonance. Stochastic resonance is often connected to Artificial intelligence in his work. His work in Quantum mechanics is not limited to one particular discipline; it also encompasses Voltage.
Artificial intelligence combines with fields such as Artificial neural network and Algorithm in his research. He undertakes multidisciplinary studies into Algorithm and Artificial intelligence in his work. His Neuroscience study often links to related topics such as Sensory system. Many of his studies on Sensory system involve topics that are commonly interrelated, such as Neuroscience. By researching both Quantum mechanics and Statistical physics, he produces research that crosses academic boundaries. His work blends Statistical physics and Quantum mechanics studies together. His study in Image (mathematics) extends to Noise (video) with its themes. His Image (mathematics) study typically links adjacent topics like Noise (video). His Control theory (sociology) study frequently links to other fields, such as Control (management).
Entrainment (biomusicology), Dynamics (music) and Duration (music) are fields of study that overlap with his Rhythm research. He merges Dynamics (music) with Rhythm in his study. He's looking at Channel (broadcasting) as part of his Interference (communication), Synchronization (alternating current) and Phase synchronization and Channel (broadcasting) study. His work on Channel (broadcasting) expands to the thematically related Interference (communication). His Optics research is intertwined with Contrast (vision) and Phase noise. By researching both Contrast (vision) and Optics, he produces research that crosses academic boundaries. He has begun a study into Phase (matter), looking into Phase synchronization and Phase locking. His research on Phase locking often connects related topics like Phase (matter). Many of his studies involve connections with topics such as Path integration and Artificial intelligence.
His research links Path integration with Neuroscience. His Artificial intelligence study frequently draws connections between adjacent fields such as Path integration. Biological neural network and Machine learning are frequently intertwined in his study. His Machine learning study frequently draws connections between related disciplines such as Biological neural network. André Longtin integrates Remote sensing and Spatial analysis in his studies. André Longtin integrates several fields in his works, including Spatial analysis and Remote sensing. Object (grammar) and Artificial intelligence are commonly linked in his work. His research brings together the fields of Neuroscience and Sensory system. His Posterior cingulate study frequently involves adjacent topics like Cortex (anatomy).
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Testing for nonlinearity in time series: the method of surrogate data
James Theiler;Stephen Eubank;André Longtin;Bryan Galdrikian.
Physica D: Nonlinear Phenomena (1992)
Time-interval sequences in bistable systems and the noise-induced transmission of information by sensory neurons.
André Longtin;Adi Bulsara;Frank Moss.
Physical Review Letters (1991)
Stochastic resonance in neuron models
André Longtin;André Longtin.
Journal of Statistical Physics (1993)
A dynamical model of saccade generation in reading based on spatially distributed lexical processing.
Ralf Engbert;André Longtin;Reinhold Kliegl.
Vision Research (2002)
Small delay approximation of stochastic delay differential equations
Steve Guillouzic;Ivan L’Heureux;André Longtin.
Physical Review E (1999)
AUTONOMOUS STOCHASTIC RESONANCE IN BURSTING NEURONS
Physical Review E (1997)
Multistability and delayed recurrent loops.
Jennifer Foss;André Longtin;Boualem Mensour;John Milton.
Physical Review Letters (1996)
Review and classification of variability analysis techniques with clinical applications
Andrea Bravi;André Longtin;Andrew J.E. Seely.
Biomedical Engineering Online (2011)
Negative Interspike Interval Correlations Increase the Neuronal Capacity for Encoding Time-Dependent Stimuli
Maurice J. Chacron;André Longtin;Leonard Maler.
The Journal of Neuroscience (2001)
Complex oscillations in the human pupil light reflex with “mixed” and delayed feedback
Andre Longtin;John G. Milton.
Bellman Prize in Mathematical Biosciences (1988)
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