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Silvio P. Sabatini
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2020 – today
- 2024
- [c38]Ahmet Burak Kurt
, Nicola Domenici
V-Spy Scotoma: A Game Designed to Map and Detect Scotoma. MeMeA 2024: 1-5 - 2023
- [c37]Mattia Barbieri
Realter: An Immersive Simulator to Support Low-Vision Rehabilitation. XR (2) 2023: 405-416 - 2022
- [j30]Katerina Kalou, Giulia Sedda, Agostino Gibaldi, Silvio P. Sabatini:
Learning bio-inspired head-centric representations of 3D shapes in an active fixation setting. Frontiers Robotics AI 9 (2022) - [c36]Walter Setti, Fabrizio Tata, Silvio P. Sabatini, Monica Gori:
Audio drawing and working memory in blindness: design, development and validation of a multi-sensory system. EMBC 2022: 777-780 - 2021
- [c35]Francesca Peveri, Simone Testa, Silvio P. Sabatini:
A Cortically-Inspired Architecture for Event-Based Visual Motion Processing: From Design Principles to Real-World Applications. CVPR Workshops 2021: 1395-1402 - 2020
- [c34]Valentina Baruzzi, Giacomo Indiveri, Silvio P. Sabatini:
Emergence of Gabor-Like Receptive Fields in a Recurrent Network of Mixed-Signal Silicon Neurons. ISCAS 2020: 1-5 - [c33]Simone Testa
A Bio-Inspired Neuromorphic Active Vision System Based on Fixational Eye Movements. ISCAS 2020: 1-5 - [c32]Valentina Baruzzi
Compact Early Vision Signal Analyzers in Neuromorphic Technology. VISIGRAPP (4: VISAPP) 2020: 530-537 - [c31]Simone Testa
Dynamic Detectors of Oriented Spatial Contrast from Isotropic Fixational Eye Movements. VISIGRAPP (5: VISAPP) 2020: 674-681 - [i1]Dario Zanca, Alessandra Rufa, Andrea Canessa, Silvio P. Sabatini:
End-to-End Models for the Analysis of Pupil Size Variations and Diagnosis of Parkinson's Disease. CoRR abs/2002.02383 (2020)
2010 – 2019
- 2017
- [j29]Agostino Gibaldi
A Portable Bio-Inspired Architecture for Efficient Robotic Vergence Control. Int. J. Comput. Vis. 121(2): 281-302 (2017) - [c30]Katerina Kalou, Agostino Gibaldi, Andrea Canessa
Learning a Compositional Hierarchy of Disparity Descriptors for 3D Orientation Estimation in an Active Fixation Setting. ICANN (2) 2017: 192-199 - [c29]Daniele Re, Agostino Gibaldi, Silvio P. Sabatini, Michael W. Spratling
An Integrated System based on Binocular Learned Receptive Fields for Saccade-vergence on Visually Salient Targets. VISIGRAPP (6: VISAPP) 2017: 204-215 - 2016
- [j28]Manuela Chessa
A systematic analysis of a V1-MT neural model for motion estimation. Neurocomputing 173: 1811-1823 (2016) - 2015
- [j27]Silvio P. Sabatini:
Deep Representation Hierarchies for 3D Active Vision - Designing Specializations in Perception-Action Loops. Künstliche Intell. 29(1): 31-40 (2015) - [j26]Agostino Gibaldi
Emerging spatial competences: From machine perception to sensorimotor intelligence. Robotics Auton. Syst. 71: 1-2 (2015) - [j25]Agostino Gibaldi
Autonomous learning of disparity-vergence behavior through distributed coding and population reward: Basic mechanisms and real-world conditioning on a robot stereo head. Robotics Auton. Syst. 71: 23-34 (2015) - [c28]Agostino Gibaldi
Vergence control learning through real V1 disparity tuning curves. NER 2015: 332-335 - 2014
- [j24]Fabio Solari
An integrated neuromimetic architecture for direct motion interpretation in the log-polar domain. Comput. Vis. Image Underst. 125: 37-54 (2014) - [j23]Andrea Canessa
Calibrated depth and color cameras for accurate 3D interaction in a stereoscopic augmented reality environment. J. Vis. Commun. Image Represent. 25(1): 227-237 (2014) - [j22]Marco Antonelli
A Hierarchical System for a Distributed Representation of the Peripersonal Space of a Humanoid Robot. IEEE Trans. Auton. Ment. Dev. 6(4): 259-273 (2014) - [c27]Manuela Chessa, Saverio Murgia, Luca Nardelli, Silvio P. Sabatini, Fabio Solari:
Bio-inspired Active Vision for Obstacle Avoidance. GRAPP 2014: 505-512 - [c26]Manuela Chessa
Detection of 3D position of eyes through a consumer RGB-D camera for stereoscopic mixed reality environments. IC3D 2014: 1-8 - 2013
- [j21]Manuela Chessa
Adjustable linear models for optic flow based obstacle avoidance. Comput. Vis. Image Underst. 117(6): 603-619 (2013) - [j20]Fabio Solari
Natural perception in dynamic stereoscopic augmented reality environments. Displays 34(2): 142-152 (2013) - [c25]Matteo Garibotti, Manuela Chessa
An affordable stereoscopic 3D augmented reality system for life-like interaction. CVMP 2013: 5:1-5:10 - [c24]Agostino Gibaldi
Population coding for a reward-modulated Hebbian learning of vergence control. IJCNN 2013: 1-8 - 2012
- [j19]Fabio Solari
Design strategies for direct multi-scale and multi-orientation feature extraction in the log-polar domain. Pattern Recognit. Lett. 33(1): 41-51 (2012) - [j18]Francisco Barranco
Vector Disparity Sensor with Vergence Control for Active Vision Systems. Sensors 12(2): 1771-1799 (2012) - [c23]Manuela Chessa, Matteo Garibotti, Andrea Canessa, Agostino Gibaldi, Silvio P. Sabatini, Fabio Solari:
A Stereoscopic Augmented Reality System for the Veridical Perception of the 3D Scene Layout. VISAPP (2) 2012: 15-23 - [c22]Manuela Chessa
Veridical Perception of 3D Objects in a Dynamic Stereoscopic Augmented Reality System. VISIGRAPP (Selected Papers) 2012: 274-285 - [c21]Agostino Gibaldi
How a Population-based Representation of Binocular Visual Signal Can Intrinsically Mediate Autonomous Learning of Vergence Control. INNS-WC 2012: 212-221 - 2011
- [c20]Guido Maiello
Assessment of stereoscopic depth perception in augmented reality environments based on low-cost technologies. APGV 2011: 111 - [c19]Agostino Gibaldi
A neuromorphic control module for real-time vergence eye movements on the iCub robot head. Humanoids 2011: 543-550 - [c18]Ester Martínez-Martín
An integrated virtual environment for visual-based reaching. ICUIMC 2011: 33 - [c17]Manuela Chessa
A Quantitative Comparison of Speed and Reliability for Log-Polar Mapping Techniques. ICVS 2011: 41-50 - 2010
- [j17]Silvio P. Sabatini, Giulia Gastaldi, Fabio Solari
A compact harmonic code for early vision based on anisotropic frequency channels. Comput. Vis. Image Underst. 114(6): 681-699 (2010) - [j16]Nikolay Chumerin
Learning Eye Vergence Control from a Distributed Disparity Representation. Int. J. Neural Syst. 20(4): 267-278 (2010) - [j15]Agostino Gibaldi
A cortical model for binocular vergence control without explicit calculation of disparity. Neurocomputing 73(7-9): 1065-1073 (2010)
2000 – 2009
- 2009
- [c16]Agostino Gibaldi, Manuela Chessa, Andrea Canessa, Silvio P. Sabatini, Fabio Solari:
A neural model for binocular vergence control without explicit calculation of disparity. ESANN 2009 - [c15]Manuela Chessa
A Fast Joint Bioinspired Algorithm for Optic Flow and Two-Dimensional Disparity Estimation. ICVS 2009: 184-193 - [c14]Rossella Breveglieri
Evidence for Peak-Shaped Gaze Fields in Area V6A: Implications for Sensorimotor Transformations in Reaching Tasks. IWINAC (2) 2009: 324-333 - [c13]Manuela Chessa, Fabio Solari, Silvio P. Sabatini:
A Virtual Reality Simulator for Active Stereo Vision Systems. VISAPP (2) 2009: 444-449 - 2008
- [c12]Manuela Chessa
Motion Interpretation Using Adjustable Linear Models. BMVC 2008: 1-10 - 2007
- [j14]Javier Díaz
A phase-based stereo vision system-on-a-chip. Biosyst. 87(2-3): 314-321 (2007) - [c11]Jayathu G. Samarawickrama, Silvio P. Sabatini:
Version and vergence control of a stereo camera head by fitting the movement into the Hering's law. CRV 2007: 363-370 - [c10]Silvio P. Sabatini, Giulia Gastaldi, Fabio Solari, Karl Pauwels, Marc M. Van Hulle, Javier Díaz, Eduardo Ros, Nicolas Pugeault, Norbert Krüger:
Compact (and accurate) early vision processing in the harmonic space. VISAPP (1) 2007: 213-220 - 2005
- [c9]Giulia Gastaldi, Alessandro Pareschi, Silvio P. Sabatini, Fabio Solari
A man-machine communication system based on the visual analysis of dynamic gestures. ICIP (3) 2005: 397-400 - 2004
- [j13]Silvio P. Sabatini, Fabio Solari
A continuum-field model of visual cortex stimulus-driven behaviour: emergent oscillations and coherence fields. Neurocomputing 57: 411-433 (2004) - [j12]Silvio P. Sabatini, Fabio Solari
Emergence of motion-in-depth selectivity in the visual cortex through linear combination of binocular energy complex cells with different ocular dominance. Neurocomputing 58-60: 865-872 (2004) - 2003
- [j11]Silvio P. Sabatini, Fabio Solari
Phase-Based Binocular Perception of Motion in Depth: Cortical-Like Operators and Analog VLSI Architectures. EURASIP J. Adv. Signal Process. 2003(7): 690-702 (2003) - [c8]Silvio P. Sabatini, Fabio Solari:
An Early Cognitive Approach to Visual Motion Analysis. AI*IA 2003: 385-397 - [c7]Silvio P. Sabatini, Fabio Solari, Giacomo M. Bisio:
Lattice Models for Context-Driven Regularization in Motion Perception. WIRN 2003: 35-42 - 2001
- [c6]Silvio P. Sabatini, Fabio Solari, Giulia Andreani, Chiara Bartolozzi, Giacomo M. Bisio:
A Hierarchical Model of Complex Cells in Visual Cortex for the Binocular Perception of Motion-in-Depth. NIPS 2001: 1271-1278 - [c5]Silvio P. Sabatini, Fabio Solari, Giacomo M. Bisio:
A Cortical Architecture for the Binocular Perception of Motion-in-depth. WIRN 2001: 157-162 - 2000
- [c4]Silvio P. Sabatini, Paolo Cavalleri, Fabio Solari, Giacomo M. Bisio:
Recovering 3-D Egomotion Parameters from Optic Flow: From Structural Principles to Analog Architectures. CAMP 2000: 117-121
1990 – 1999
- 1999
- [j10]Silvio P. Sabatini, Fabio Solari:
An architectural hypothesis for direction selectivity in the visual cortex: the role of spatially asymmetric intracortical inhibition. Biol. Cybern. 80(3): 171-183 (1999) - 1998
- [j9]Bruno Crespi, Alex Cozzi, Luigi Raffo
Analog computation for phase-based disparity estimation: continuous and discrete models. Mach. Vis. Appl. 11(2): 83-95 (1998) - [j8]Giacomo M. Bisio, Luigi Raffo
Analogue VLSI primitives for perceptual tasks in machine vision. Neural Comput. Appl. 7(3): 216-228 (1998) - [j7]Luigi Raffo
Analog VLSI circuits as physical structures for perception in early visual tasks. IEEE Trans. Neural Networks 9(6): 1483-1494 (1998) - 1997
- [j6]Silvio P. Sabatini, Luigi Raffo
Functional Periodic Intracortical Couplings Induced by Structured Lateral Inhibition in a Linear Cortical Network. Neural Comput. 9(3): 525-531 (1997) - [j5]Luigi Raffo
Design of an ASIP architecture for low-level visual elaborations. IEEE Trans. Very Large Scale Integr. Syst. 5(1): 145-153 (1997) - [c3]Giacomo M. Bisio, Gian Marco Bo, M. Confalone, Luigi Raffo
An Analog VLSI Computational Engine for Early Vision Tasks. ICANN 1997: 1175-1180 - 1996
- [j4]Silvio P. Sabatini:
Recurrent inhibition and clustered connectivity as a basis for Gabor-like receptive fields in the visual cortex. Biol. Cybern. 74(3): 189-202 (1996) - [j3]Luigi Raffo, Silvio P. Sabatini, Giacomo M. Bisio:
A programmable VLSI architecture based on multilayer CNN paradigms for real-time visual processing. Int. J. Circuit Theory Appl. 24(3): 357-367 (1996) - [j2]Giacomo Indiveri
A recurrent neural architecture mimicking cortical preattentive vision systems. Neurocomputing 11(2-4): 155-170 (1996) - [c2]Silvio P. Sabatini, Fabio Solari, Giacomo M. Bisio:
An Architectural Mechanism for Direction-tuned Cortical Simple Cells: The Role of Mutual Inhibition. NIPS 1996: 104-110 - 1995
- [j1]Giacomo Indiveri
A neuromorphic architecture for cortical multilayer integration of early visual tasks. Mach. Vis. Appl. 8(5): 305-314 (1995) - 1993
- [c1]Giacomo M. Bisio, Daniele D. Caviglia
A neural network architectural model of visual cortical cells for texture segregation. ICNN 1993: 755-760
Coauthor Index
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last updated on 2024-08-23 18:35 CEST by the dblp team
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