BioCyber( Vol No. )
* *Biological Cybernetics
BioCyber(18)
* Synthesis of Boolean Nets and Time Behavior of a General Mathematical Neuron
BioCyber(21)
* Geometry of Binocular Vision and a Model for Stereopsis
* On Visual Detection of Light Sources
BioCyber(22)
* Methods of Analysis of Neural Nets
BioCyber(24)
* Singularities of the Visual Mapping, The
BioCyber(25)
* Filling the Gaps: The Shape of Subjective Contours and a Model for their Generation
* Spatial Mapping in the Primate Sensory Projection: Analytic Structure and Relevance to Perception
BioCyber(28)
* Analysis of a Cooperative Stereo Algorithm
* On Perceptual Analyzers Underlying Visual Texture Discrimination: Part I
BioCyber(29)
* Computation of Locally Parallel Structure
* On Perceptual Analyzers Underlying Visual Texture Discrimination: Part II
BioCyber(31)
* Visual Discrimination of Textures with Identical Third-Order Statistics
BioCyber(32)
* Internal Representation of Solid Shape with Respect to Vision, The
BioCyber(33)
* Structure of Two-Dimensional Scalar Fields with Applications to Vision, The
BioCyber(36)
* Ego Motion and a Relative Depth Map from Optical Flow
BioCyber(37)
* Quanmtitative Model of the Functional Architecture of Human Striate Cortex with Application to Vision Illusion and Cortical Texture Analysis, A
BioCyber(41)
* Theory of Preattentive Texture Discrimination Based on First-Order Statistics of Textons, A
BioCyber(42)
* Columnar Architecture and Computational Anatomy in Primate Visual Cortex: Segmentation and Feature Extraction via Spatial Frequence Coded Difference Mapping
* Information Content of Texture Gradients, The
* Interpretation of Biological Motion, The
BioCyber(44)
* Visibility of Movement Gradients
BioCyber(45)
* Neural Model for Category Learning, A
BioCyber(46)
* Slant-Tilt: The Visual Encoding of Surface Orientation
BioCyber(48)
* Textural Segmentation, Second-Order Statistics and Textural Elements
BioCyber(50)
* Structure of Images, The
BioCyber(51)
* Perceptual Organization as Nested Control
BioCyber(52)
* Detection of Binocular Disparities
* Neural Computations of Decisions in Optimization Problems
* Spatiotemporal Inseparability in Early Visual Processing
BioCyber(54)
* Neural Cocktail-Party Processor, A
BioCyber(58)
* Finding Motion Parameters from Spherical Flow Fields (or the Advantages of Having Eyes in the Back of Your Head)
* Shape from Texture
BioCyber(59)
* Stereo disparity computation using gabor Filters
BioCyber(60)
* Computational Approach to Motion Perception, A
* On the Kinetic Depth Effect
BioCyber(61)
* Gabor Filters as Texture Discriminator
BioCyber(62)
* On Problem Solving with Hopfield Netowrks
BioCyber(64)
* Self-Organizing Multiple-View Representation of 3D objects, A
BioCyber(67)
* Sensory Segmentation with Coupled Neural Oscillators
BioCyber(70)
* Representing 3D Objects by Sets of Activities of Receptive Fields
BioCyber(71)
* Stereo Vision by Self-Organization
BioCyber(72)
* Class Similarity and Viewpoint Invariance in the Recognition of 3D Objects
BioCyber(74)
* Is Correspondence Search in Human Stereo Vision a Coarse-to-Fine Process?
BioCyber(75)
* Analytic Solution of Stochastic Completion Fields
BioCyber(76)
* Computational models of visual neurons specialised in the detection of periodic and aperiodic oriented visual stimuli: bar and grating cells
BioCyber(77)
* Biologically Inspired Calibration Free Adaptive Saccade Control of a Binocular Camera Head
* Role of Retinal Bipolar Cell in Early Vision: An Implication with Analog Networks and Regularization Theory, The
* Separating Spatially Distributed Response to Stimulation from Background I: Optical Imaging
* Visual Space Distortion
BioCyber(79)
* Where Did I Take That Snapshot: Scene-Based Homing By Image Matching
BioCyber(83)
* Disparity Tuning as Simulated by a Neural Net
BioCyber(88)
* Suppression of contour perception by band-limited noise and its relation to non-classical receptive field inhibition