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| Q44919586 | A cholinergic synaptically triggered event participates in the generation of persistent activity necessary for eye fixation. |
| Q47938047 | A learning network model of the neural integrator of the oculomotor system |
| Q49057248 | A mathematical analysis of the characteristics of the system connecting the cerebellar ventral paraflocculus and extraoculomotor nucleus of alert monkeys during upward ocular following responses |
| Q42592985 | A modeling framework for deriving the structural and functional architecture of a short-term memory microcircuit. |
| Q43189463 | A recurrent network model of somatosensory parametric working memory in the prefrontal cortex |
| Q38209457 | A tale of two species: Neural integration in zebrafish and monkeys |
| Q39188370 | Acquired pendular nystagmus |
| Q51868971 | Alexander's law and the oculomotor neural integrator: three-dimensional eye velocity in patients with an acute vestibular asymmetry. |
| Q33299510 | Alexander's law in patients with acute vestibular tone asymmetry--evidence for multiple horizontal neural integrators |
| Q48540135 | An improved neural-network model for the neural integrator of the oculomotor system: more realistic neuron behavior |
| Q47851349 | Analysis of spike statistics in neuronal systems with continuous attractors or multiple, discrete attractor States. |
| Q51644742 | Anatomy and discharge properties of pre-motor neurons in the goldfish medulla that have eye-position signals during fixations. |
| Q45240223 | Angular path integration by moving "hill of activity": a spiking neuron model without recurrent excitation of the head-direction system. |
| Q42610483 | Balanced cortical microcircuitry for maintaining information in working memory |
| Q34329072 | CASK mutations are frequent in males and cause X-linked nystagmus and variable XLMR phenotypes |
| Q42364947 | Comparisons of Neuronal and Excitatory Network Properties between the Rat Brainstem Nuclei that Participate in Vertical and Horizontal Gaze Holding |
| Q51496263 | Computational advantages of reverberating loops for sensorimotor learning. |
| Q38746886 | Computational principles of memory. |
| Q48352029 | Continuous attractors and oculomotor control |
| Q51647752 | Control of constraint forces and trajectories in a rich sensory and actuation environment |
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| Q35925047 | Correlated neural variability in persistent state networks |
| Q51624386 | Design of continuous attractor networks with monotonic tuning using a symmetry principle. |
| Q92093639 | Different Activation Mechanisms of Excitatory Networks in the Rat Oculomotor Integrators for Vertical and Horizontal Gaze Holding |
| Q48276609 | Differential temporal storage capacity in the baseline activity of neurons in macaque frontal eye field and area V4. |
| Q48175257 | Disabling of the oculomotor neural integrator by kainic acid injections in the prepositus-vestibular complex of the cat. |
| Q67412360 | Discrete attractor dynamics underlies persistent activity in the frontal cortex |
| Q39039805 | Distinct neural circuits for control of movement vs. holding still |
| Q43101058 | Diversity of neural responses in the brainstem during smooth pursuit eye movements constrains the circuit mechanisms of neural integration |
| Q48263068 | Electrophysiological and morphological properties of neurons in the prepositus hypoglossi nucleus that express both ChAT and VGAT in a double-transgenic rat model |
| Q33921204 | Encoding of eye position in the goldfish horizontal oculomotor neural integrator |
| Q35003550 | Eye position and eye velocity integrators reside in separate brainstem nuclei. |
| Q37262057 | Fixational eye movements during viewing of dynamic natural scenes |
| Q33577348 | Functional dissection of circuitry in a neural integrator |
| Q87920005 | Gaze holding after anterior-inferior temporal lobectomy |
| Q36693907 | How the brain keeps the eyes still |
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| Q51643725 | In vivo intracellular recording and perturbation of persistent activity in a neural integrator. |
| Q34248269 | Inhibitory control by an integral feedback signal in prefrontal cortex: a model of discrimination between sequential stimuli. |
| Q37638424 | Internal models and neural computation in the vestibular system |
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| Q52006816 | Mathematical model predicts clinical ocular motor syndromes. |
| Q46620292 | Membrane properties of excitatory and inhibitory neurons in the rat prepositus hypoglossi nucleus |
| Q58556458 | Methods for Mapping Neuronal Activity to Synaptic Connectivity: Lessons From Larval Zebrafish |
| Q44074352 | Model for a robust neural integrator |
| Q45040655 | Models of the mechanism underlying perceived location of a perisaccadic flash |
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| Q48701133 | Neural activity in macaque parietal cortex reflects temporal integration of visual motion signals during perceptual decision making. |
| Q44361737 | Neural correlates for angular head velocity in the rat dorsal tegmental nucleus. |
| Q69355711 | Neural integration by short term potentiation |
| Q28286384 | Neural integrators for decision making: a favorable tradeoff between robustness and sensitivity |
| Q39559157 | Neural nets |
| Q36800638 | Neural network modelling |
| Q44568972 | Neural network models of velocity storage in the horizontal vestibulo-ocular reflex |
| Q42098587 | Neuronal circuits underlying persistent representations despite time varying activity |
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| Q46838640 | Oscillatory and intrinsic membrane properties of guinea pig nucleus prepositus hypoglossi neurons in vitro |
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| Q48258072 | Projections and firing properties of down eye-movement neurons in the interstitial nucleus of Cajal in the cat. |
| Q39424249 | Purkinje Cells Directly Inhibit Granule Cells in Specialized Regions of the Cerebellar Cortex |
| Q37368393 | Robust neuronal dynamics in premotor cortex during motor planning |
| Q41936411 | Rubrocerebellar feedback loop isolates the interposed nucleus as an independent processor of corollary discharge information in mice |
| Q36359596 | Slow diffusive dynamics in a chaotic balanced neural network. |
| Q27334867 | Smooth enlargement of human standing sway by instability due to weak reaction floor and noise |
| Q48378102 | Sparse cerebellar innervation can morph the dynamics of a model oculomotor neural integrator |
| Q36759305 | Spatial gradients and multidimensional dynamics in a neural integrator circuit |
| Q41465508 | Spatial patterns of persistent neural activity vary with the behavioral context of short-term memory |
| Q75363610 | Spontaneous eye movements in goldfish: oculomotor integrator performance, plasticity, and dependence on visual feedback |
| Q52079009 | Stability of the memory of eye position in a recurrent network of conductance-based model neurons. |
| Q37604479 | Stable Control of Firing Rate Mean and Variance by Dual Homeostatic Mechanisms |
| Q42792586 | Synaptic Mechanism for the Sustained Activation of Oculomotor Integrator Circuits in the Rat Prepositus Hypoglossi Nucleus: Contribution of Ca2+-Permeable AMPA Receptors |
| Q42692551 | Synaptic and intrinsic homeostasis cooperate to optimize single neuron response properties and tune integrator circuits |
| Q50586016 | Temporal integration and 1/f power scaling in a circuit model of cerebellar interneurons. |
| Q51638455 | Temporal integration by calcium dynamics in a model neuron. |
| Q48225746 | Temporal integration by stochastic recurrent network dynamics with bimodal neurons |
| Q52023909 | The autapse: a simple illustration of short-term analog memory storage by tuned synaptic feedback. |
| Q48810825 | The oculomotor integrator: testing of a neural network model |
| Q39453171 | Transmitter-controlled properties of alpha-motoneurones causing long-lasting motor discharge to brief excitatory inputs |
| Q30513883 | Universal conditions for exact path integration in neural systems |
| Q48094909 | Vertical eye movement-related type II neurons with downward on-directions in the vestibular nucleus in alert cats |
| Q53626078 | Vestibular perception and action employ qualitatively different mechanisms. I. Frequency response of VOR and perceptual responses during Translation and Tilt. |
| Q52233598 | Vestibuloocular reflex arc analysis using an experimentally constrained neural network. |
| Q24618595 | What is the biological basis of sensorimotor integration? |