Your search keyword '"Andrea Pavan"' showing total 164 results

1. Editorial: Dynamic vision test application and mechanism

Author

Andrea Pavan, Yuexin Wang, Xuemin Li, and Xiaoyu Liu

Subjects

dynamic vision, dynamic vision test, motion vision, eye movement, sports vision, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2024

2. Lack of orientation specific adaptation to vertically oriented Glass patterns in human visual cortex: an fMRI adaptation investigation

Author

Andrea Pavan, Wilhelm M. Malloni, Sebastian M. Frank, Simon Wein, Rita Donato, and Mark W. Greenlee

Subjects

Medicine, Science

Abstract

Abstract The perception of coherent form configurations in natural scenes relies on the activity of early visual areas that respond to local orientation cues. Subsequently, high-level visual areas pool these local signals to construct a global representation of the initial visual input. However, it is still debated whether neurons in the early visual cortex respond also to global form features. Glass patterns (GPs) are visual stimuli employed to investigate local and global form processing and consist of randomly distributed dots pairs called dipoles arranged to form specific global configurations. In the current study, we used GPs and functional magnetic resonance imaging (fMRI) adaptation to reveal the visual areas that subserve the processing of oriented GPs. Specifically, we adapted participants to vertically oriented GP, then we presented test GPs having either the same or different orientations with respect to the adapting GP. We hypothesized that if local form features are processed exclusively by early visual areas and global form by higher-order visual areas, then the effect of visual adaptation should be more pronounced in higher tier visual areas as it requires global processing of the pattern. Contrary to this expectation, our results revealed that adaptation to GPs is robust in early visual areas (V1, V2, and V3), but not in higher tier visual areas (V3AB and V4v), suggesting that form cues in oriented GPs are primarily derived from local-processing mechanisms that originate in V1. Finally, adaptation to vertically oriented GPs causes a modification in the BOLD response within early visual areas, regardless of the relative orientations of the adapting and test stimuli, indicating a lack of orientation selectivity.

Published

2023

3. Visual Perceptual Learning of Form–Motion Integration: Exploring the Involved Mechanisms with Transfer Effects and the Equivalent Noise Approach

Author

Rita Donato, Adriano Contillo, Gianluca Campana, Marco Roccato, Óscar F. Gonçalves, and Andrea Pavan

Subjects

visual perceptual learning, equivalent noise analysis, sampling efficiency, internal noise, glass patterns, modified random-dot kinematograms, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background: Visual perceptual learning plays a crucial role in shaping our understanding of how the human brain integrates visual cues to construct coherent perceptual experiences. The visual system is continually challenged to integrate a multitude of visual cues, including form and motion, to create a unified representation of the surrounding visual scene. This process involves both the processing of local signals and their integration into a coherent global percept. Over the past several decades, researchers have explored the mechanisms underlying this integration, focusing on concepts such as internal noise and sampling efficiency, which pertain to local and global processing, respectively. Objectives and Methods: In this study, we investigated the influence of visual perceptual learning on non-directional motion processing using dynamic Glass patterns (GPs) and modified Random-Dot Kinematograms (mRDKs). We also explored the mechanisms of learning transfer to different stimuli and tasks. Specifically, we aimed to assess whether visual perceptual learning based on illusory directional motion, triggered by form and motion cues (dynamic GPs), transfers to stimuli that elicit comparable illusory motion, such as mRDKs. Additionally, we examined whether training on form and motion coherence thresholds improves internal noise filtering and sampling efficiency. Results: Our results revealed significant learning effects on the trained task, enhancing the perception of dynamic GPs. Furthermore, there was a substantial learning transfer to the non-trained stimulus (mRDKs) and partial transfer to a different task. The data also showed differences in coherence thresholds between dynamic GPs and mRDKs, with GPs showing lower coherence thresholds than mRDKs. Finally, an interaction between visual stimulus type and session for sampling efficiency revealed that the effect of training session on participants’ performance varied depending on the type of visual stimulus, with dynamic GPs being influenced differently than mRDKs. Conclusion: These findings highlight the complexity of perceptual learning and suggest that the transfer of learning effects may be influenced by the specific characteristics of both the training stimuli and tasks, providing valuable insights for future research in visual processing.

Published

2024

4. Insubordinação criativa na implementação de práticas pedagógicas no contexto da Educação Estatística

Author

Ana Paula Gonçalves Pita, Andrea Pavan Perin, and Celso Ribeiro Campos

Subjects

Educação Básica, Educação Crítica, Educação Estatística Crítica, Formação, Narrativas, Education, Education (General), L7-991, Theory and practice of education, LB5-3640

Abstract

O objetivo deste artigo é destacar aspectos referentes à Insubordinação Criativa diante do desenvolvimento de práticas pedagógicas no contexto da Educação Estatística Crítica após uma formação continuada. Para tanto, foram analisadas narrativas de professores que ensinam Matemática nas seguintes modalidades: educação infantil, ensino fundamental, ensino médio e educação de jovens e adultos. Durante a formação, os docentes participantes tiveram como proposta atividades voltadas para um ensino crítico, reflexivo e dialógico por meio de discussões sobre temas como perspectivas da modelagem Matemática enquanto abordagem pedagógica, definição das competências da Educação Estatística e perspectivas da Educação Crítica. Além disso, foram oportunizados, durante os encontros, momentos para que os professores formulassem, aplicassem, discutissem, reformulassem e voltassem a discutir projetos. Optou-se por utilizar narrativas para a geração de dados, para reflexão e formação docente e como produto sobre acontecimentos relacionados à Educação Estatística Crítica. Compreende-se que, ao propor ações voltadas para essa vertente, provavelmente o professor cria possibilidades para o desenvolvimento da competência crítica, que é importante para todos, por valorizar o diálogo e as reais necessidades dos sujeitos envolvidos no processo de ensino e aprendizagem. Após analisar as narrativas, foi possível perceber a importância do ensino e da aprendizagem em uma vertente crítica e participativa do professor e da teoria refletida na ação e entre os docentes.

Published

2023

5. Spatial and Temporal Selectivity of Translational Glass Patterns Assessed With the Tilt After-Effect

Author

Andrea Pavan, Adriano Contillo, Filippo Ghin, Rita Donato, Matthew J. Foxwell, Daniel W. Atkins, George Mather, and Gianluca Campana

Subjects

Psychology, BF1-990

Abstract

Glass patterns (GPs) have been widely employed to investigate the mechanisms underlying processing of global form from locally oriented cues. The current study aimed to psychophysically investigate the level at which global orientation is extracted from translational GPs using the tilt after-effect (TAE) and manipulating the spatiotemporal properties of the adapting pattern. We adapted participants to translational GPs and tested with sinewave gratings. In Experiment 1, we investigated whether orientation-selective units are sensitive to the temporal frequency of the adapting GP. We used static and dynamic translational GPs, with dynamic GPs refreshed at different temporal frequencies. In Experiment 2, we investigated the spatial frequency selectivity of orientation-selective units by manipulating the spatial frequency content of the adapting GPs. The results showed that the TAE peaked at a temporal frequency of ∼30 Hz, suggesting that orientation-selective units responding to translational GPs are sensitive to high temporal frequencies. In addition, TAE from translational GPs peaked at lower spatial frequencies than the dipoles’ spatial constant. These effects are consistent with form-motion integration at low and intermediate levels of visual processing.

Published

2021

6. Investigating the Interaction Between Form and Motion Processing: A Review of Basic Research and Clinical Evidence

Author

Rita Donato, Andrea Pavan, and Gianluca Campana

Subjects

glass patterns, motion-form integration, ventral and dorsal stream, neural modulation, conscious perception, Psychology, BF1-990

Abstract

A widely held view of the visual system supported the perspective that the primate brain is organized in two main specialized streams, called the ventral and dorsal streams. The ventral stream is known to be involved in object recognition (e.g., form and orientation). In contrast, the dorsal stream is thought to be more involved in spatial recognition (e.g., the spatial relationship between objects and motion direction). Recent evidence suggests that these two streams are not segregated but interact with each other. A class of visual stimuli known as Glass patterns has been developed to shed light on this process. Glass patterns are visual stimuli made of pairs of dots, called dipoles, that give the percept of a specific form or apparent motion, depending on the spatial and temporal arrangement of the dipoles. In this review, we show an update of the neurophysiological, brain imaging, psychophysical, clinical, and brain stimulation studies which have assessed form and motion integration mechanisms, and the level at which this occurs in the human and non-human primate brain. We also discuss several studies based on non-invasive brain stimulation techniques that used different types of visual stimuli to assess the cortico-cortical interactions in the visual cortex for the processing of form and motion information. Additionally, we discuss the timing of specific visual processing in the ventral and dorsal streams. Finally, we report some parallels between healthy participants and neurologically impaired patients in the conscious processing of form and motion.

Published

2020

7. Mechanisms Underlying Directional Motion Processing and Form-Motion Integration Assessed with Visual Perceptual Learning

Author

Rita Donato, Andrea Pavan, Giovanni Cavallin, Lamberto Ballan, Luca Betteto, Massimo Nucci, and Gianluca Campana

Subjects

dynamic Glass patterns, random dot kinematograms, directional motion, non-directional motion, visual perceptual learning, form–motion integration, Biology (General), QH301-705.5

Abstract

Dynamic Glass patterns (GPs) are visual stimuli commonly employed to study form–motion interactions. There is brain imaging evidence that non-directional motion induced by dynamic GPs and directional motion induced by random dot kinematograms (RDKs) depend on the activity of the human motion complex (hMT+). However, whether dynamic GPs and RDKs rely on the same processing mechanisms is still up for dispute. The current study uses a visual perceptual learning (VPL) paradigm to try to answer this question. Identical pre- and post-tests were given to two groups of participants, who had to discriminate random/noisy patterns from coherent form (dynamic GPs) and motion (RDKs). Subsequently, one group was trained on dynamic translational GPs, whereas the other group on RDKs. On the one hand, the generalization of learning to the non-trained stimulus would indicate that the same mechanisms are involved in the processing of both dynamic GPs and RDKs. On the other hand, learning specificity would indicate that the two stimuli are likely to be processed by separate mechanisms possibly in the same cortical network. The results showed that VPL is specific to the stimulus trained, suggesting that directional and non-directional motion may depend on different neural mechanisms.

Published

2022

8. Visual Short-Term Memory for Coherent and Sequential Motion: A rTMS Investigation

Author

Andrea Pavan, Filippo Ghin, and Gianluca Campana

Subjects

visual short-term memory, repetitive transcranial magnetic stimulation, visual memory precision, serial memory effects, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

We investigated the role of the human medio-temporal complex (hMT+) in the memory encoding and storage of a sequence of four coherently moving random dot kinematograms (RDKs), by applying repetitive transcranial magnetic stimulation (rTMS) during an early or late phase of the retention interval. Moreover, in a second experiment, we also tested whether disrupting the functional integrity of hMT+ during the early phase impaired the precision of the encoded motion directions. Overall, results showed that both recognition accuracy and precision were worse in middle serial positions, suggesting the occurrence of primacy and recency effects. We found that rTMS delivered during the early (but not the late) phase of the retention interval was able to impair not only recognition of RDKs, but also the precision of the retained motion direction. However, such impairment occurred only for RDKs presented in middle positions along the presented sequence, where performance was already closer to chance level. Altogether these findings suggest an involvement of hMT+ in the memory encoding of visual motion direction. Given that both position sequence and rTMS modulated not only recognition but also the precision of the stored information, these findings are in support of a model of visual short-term memory with a variable resolution of each stored item, consistent with the assigned amount of memory resources, and that such item-specific memory resolution is supported by the functional integrity of area hMT+.

Published

2021

9. The neural basis of form and form-motion integration from static and dynamic translational Glass patterns: A rTMS investigation

Author

Andrea Pavan, Filippo Ghin, Rita Donato, Gianluca Campana, and George Mather

Subjects

Static Glass patterns, Dynamic Glass patterns, Global form, Motion-form integration, Repetitive transcranial magnetic stimulation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

A long-held view of the visual system is that form and motion are independently analysed. However, there is physiological and psychophysical evidence of early interaction in the processing of form and motion. In this study, we used a combination of Glass patterns (GPs) and repetitive Transcranial Magnetic Stimulation (rTMS) to investigate in human observers the neural mechanisms underlying form-motion integration. GPs consist of randomly distributed dot pairs (dipoles) that induce the percept of an oriented stimulus. GPs can be either static or dynamic. Dynamic GPs have both a form component (i.e., orientation) and a non-directional motion component along the orientation axis. GPs were presented in two temporal intervals and observers were asked to discriminate the temporal interval containing the most coherent GP. rTMS was delivered over early visual area (V1/V2) and over area V5/MT shortly after the presentation of the GP in each interval. The results showed that rTMS applied over early visual areas affected the perception of static GPs, but the stimulation of area V5/MT did not affect observers’ performance. On the other hand, rTMS was delivered over either V1/V2 or V5/MT strongly impaired the perception of dynamic GPs. These results suggest that early visual areas seem to be involved in the processing of the spatial structure of GPs, and interfering with the extraction of the global spatial structure also affects the extraction of the motion component, possibly interfering with early form-motion integration. However, visual area V5/MT is likely to be involved only in the processing of the motion component of dynamic GPs. These results suggest that motion and form cues may interact as early as V1/V2.

Published

2017

10. Effects of crowding and attention on high-levels of motion processing and motion adaptation.

Author

Andrea Pavan and Mark W Greenlee

Subjects

Medicine, Science

Abstract

The motion after-effect (MAE) persists in crowding conditions, i.e., when the adaptation direction cannot be reliably perceived. The MAE originating from complex moving patterns spreads into non-adapted sectors of a multi-sector adapting display (i.e., phantom MAE). In the present study we used global rotating patterns to measure the strength of the conventional and phantom MAEs in crowded and non-crowded conditions, and when attention was directed to the adapting stimulus and when it was diverted away from the adapting stimulus. The results show that: (i) the phantom MAE is weaker than the conventional MAE, for both non-crowded and crowded conditions, and when attention was focused on the adapting stimulus and when it was diverted from it, (ii) conventional and phantom MAEs in the crowded condition are weaker than in the non-crowded condition. Analysis conducted to assess the effect of crowding on high-level of motion adaptation suggests that crowding is likely to affect the awareness of the adapting stimulus rather than degrading its sensory representation, (iii) for high-level of motion processing the attentional manipulation does not affect the strength of either conventional or phantom MAEs, neither in the non-crowded nor in the crowded conditions. These results suggest that high-level MAEs do not depend on attention and that at high-level of motion adaptation the effects of crowding are not modulated by attention.

Published

2015

11. Modelling adaptation to directional motion using the Adelson-Bergen energy sensor.

Author

Andrea Pavan, Adriano Contillo, and George Mather

Subjects

Medicine, Science

Abstract

The motion energy sensor has been shown to account for a wide range of physiological and psychophysical results in motion detection and discrimination studies. It has become established as the standard computational model for retinal movement sensing in the human visual system. Adaptation effects have been extensively studied in the psychophysical literature on motion perception, and play a crucial role in theoretical debates, but the current implementation of the energy sensor does not provide directly for modelling adaptation-induced changes in output. We describe an extension of the model to incorporate changes in output due to adaptation. The extended model first computes a space-time representation of the output to a given stimulus, and then a RC gain-control circuit ("leaky integrator") is applied to the time-dependent output. The output of the extended model shows effects which mirror those observed in psychophysical studies of motion adaptation: a decline in sensor output during stimulation, and changes in the relative of outputs of different sensors following this adaptation.

Published

2013

12. Static Gratings Modulate Motion After-Effect Duration but Not Direction

Author

George Mather, Andrea Pavan, and Rosilari Bellacosa

Subjects

Psychology, BF1-990

Abstract

Motion after-effect (MAE) duration was measured after adapting to a dot field drifting transparently over a static grating. Duration was shorter when the grating was oriented orthogonally to the direction of the dot field than when it was oriented parallel to the direction of the dot field. After bi-directional adaptation involving two transparently drifting dot fields, the effect of the grating on MAE duration depended on its orientation with respect to the combined direction of the two fields, not with respect to the direction of the two component directions. On the other hand, changes in grating orientation had no effect on the apparent direction of the MAE from bi-directional adaptation. The effect of grating orientation on MAE duration is consistent with ‘motion-streak’ interactions between motion and form processes, which favour motion signals parallel to local orientation signals. Results obtained with bi-directional adapting stimuli indicate that the interactions occur after the point at which component motion signals are combined to compute pattern direction.

Published

2012

13. Motion Streaks Do Not Influence the Perceived Position of Stationary Flashed Objects

Author

Andrea Pavan and Rosilari Bellacosa Marotti

Subjects

Technology, Medicine, Science

Abstract

In the present study, we investigated whether motion streaks, produced by fast moving dots Geisler 1999, distort the positional map of stationary flashed objects producing the well-known motion-induced position shift illusion (MIPS). The illusion relies on motion-processing mechanisms that induce local distortions in the positional map of the stimulus which is derived by shape-processing mechanisms. To measure the MIPS, two horizontally offset Gaussian blobs, placed above and below a central fixation point, were flashed over two fields of dots moving in opposite directions. Subjects judged the position of the top Gaussian blob relative to the bottom one. The results showed that neither fast (motion streaks) nor slow moving dots influenced the perceived spatial position of the stationary flashed objects, suggesting that background motion does not interact with the shape-processing mechanisms involved in MIPS.

Published

2012

14. Reducing crowding by weakening inhibitory lateral interactions in the periphery with perceptual learning.

Author

Marcello Maniglia, Andrea Pavan, Luigi F Cuturi, Gianluca Campana, Giovanni Sato, and Clara Casco

Subjects

Medicine, Science

Abstract

We investigated whether lateral masking in the near-periphery, due to inhibitory lateral interactions at an early level of central visual processing, could be weakened by perceptual learning and whether learning transferred to an untrained, higher-level lateral masking known as crowding. The trained task was contrast detection of a Gabor target presented in the near periphery (4°) in the presence of co-oriented and co-aligned high contrast Gabor flankers, which featured different target-to-flankers separations along the vertical axis that varied from 2λ to 8λ. We found both suppressive and facilitatory lateral interactions at target-to-flankers distances (2λ - 4λ and 8λ, respectively) that were larger than those found in the fovea. Training reduces suppression but does not increase facilitation. Most importantly, we found that learning reduces crowding and improves contrast sensitivity, but has no effect on visual acuity (VA). These results suggest a different pattern of connectivity in the periphery with respect to the fovea as well as a different modulation of this connectivity via perceptual learning that not only reduces low-level lateral masking but also reduces crowding. These results have important implications for the rehabilitation of low-vision patients who must use peripheral vision to perform tasks, such as reading and refined figure-ground segmentation, which normal sighted subjects perform in the fovea.

Published

2011

15. A Study on the Toughening of Polymer Matrix Composites by Interphase Modification

Author

Andrea Pavan

Subjects

Chemistry, QD1-999

Published

1990

16. Modelling the User Modelling Community (and Other Communities as Well).

Author

Dario De Nart, Dante Degl'Innocenti, Andrea Pavan, Marco Basaldella, and Carlo Tasso

Published

2015

17. SISTEMA INTEGRADO DE ORIENTACAO ACADEMICA BUSCA POR ORIENTADORES COM BASE EM LINHAS DE PESQUISA

Author

FERNANDO HENRIQUE DA SILVA, Gustavo Aurelio Tomaz Barbosa, Joao Batista Ferreira Junior, Rodrigo Diniz, and Andrea Pavan Perin

Published

2023

18. INVESTIMENTOS NO TESOURO DIRETO: UMA ANALISE DESCRITIVA DO PERFIL DOS INVESTIDORES ENTRE 2013 E 2021

Author

Amanda Fogaca Silva Bordini, Daiane Roncato Cardozo, Andrea Pavan Perin, and Jose Marcio Mathias

Published

2023

19. A comparison of equivalent noise methods in investigating local and global form and motion integration

Author

Andrea Pavan, Adriano Contillo, Seyma Koc Yilmaz, Hulusi Kafaligonul, Rita Donato, Louise O’Hare, Koç, Şeyma, and Kafalıgönül, Hulusi

Subjects

Sampling efficiency, Linguistics and Language, Internal noise, Form-motion integration, Experimental and Cognitive Psychology, Equivalent noise methods, Sensory Systems, Language and Linguistics

Abstract

Static and dynamic cues within certain spatiotemporal proximity are used to evoke respective global percepts of form and motion. The limiting factors in this process are, first, internal noise, which indexes local orientation/direction detection, and, second, sampling efficiency, which relates to the processing and the representation of global orientation/direction. These parameters are quantified using the equivalent noise (EN) paradigm. EN has been implemented with just two levels: high and low noise. However, when using this simplified version, one must assume the shape of the overall noise dependence, as the intermediate points are missing. Here, we investigated whether two distinct EN methods, the 8-point and the simplified 2-point version, reveal comparable parameter estimates. This was performed for three different types of stimuli: random dot kinematograms, and static and dynamic translational Glass patterns, to investigate how constant internal noise estimates are, and how sampling efficiency might vary over tasks. The results indicated substantial compatibility between estimates over a wide range of external noise levels sampled with eight data points, and a simplified version producing two highly informative data points. Our findings support the use of a simplified procedure to estimate essential form-motion integration parameters, paving the way for rapid and critical applications to populations that cannot tolerate protracted measurements.

Published

2022

20. Uma investigação sobre concepções acerca da Educação Financeira de alunos do Ensino Médio

Author

Perin, Andrea Pavan, primary and Campos, Celso Ribeiro, additional

Published

2022

21. Modelling fast forms of visual neural plasticity using a modified second-order motion energy model.

Author

Andrea Pavan, Adriano Contillo, and George Mather

Published

2014

22. Attentional modulations of audiovisual interactions in apparent motion: Temporal ventriloquism effects on perceived visual speed

Author

Aysun Duyar, Andrea Pavan, Hulusi Kafaligonul, and Duyar, Aysun

Subjects

Linguistics and Language, Audiovisual interactions, Multisensory, Motion Perception, Experimental and Cognitive Psychology, Sensory Systems, Language and Linguistics, Speed perception, Temporal processing, Motion, Sound, Acoustic Stimulation, Auditory Perception, Visual Perception, Humans, Attention, Photic Stimulation

Abstract

The timing of brief stationary sounds has been shown to alter different aspects of visual motion, such as speed estimation. These effects of auditory timing have been explained by temporal ventriloquism and auditory dominance over visual information in the temporal domain. Although previous studies provide unprecedented evidence for the multisensory nature of speed estimation, how attention is involved in these audiovisual interactions remains unclear. Here, we aimed to understand the effects of spatial attention on these audiovisual interactions in time. We utilized a set of audiovisual stimuli that elicit temporal ventriloquism in visual apparent motion and asked participants to perform a speed comparison task. We manipulated attention either in the visual or auditory domain and systematically changed the number of moving objects in the visual field. When attention was diverted to a stationary object in the visual field via a secondary task, the temporal ventriloquism effects on perceived speed decreased. On the other hand, focusing attention on the auditory stimuli facilitated these effects consistently across different difficulty levels of secondary auditory task. Moreover, the effects of auditory timing on perceived speed did not change with the number of moving objects and existed in all the experimental conditions. Taken together, our findings revealed differential effects of allocating attentional resources in the visual and auditory domains. These behavioral results also demonstrate that reliable temporal ventriloquism effects on visual motion can be induced even in the presence of multiple moving objects in the visual field and under different perceptual load conditions.

Published

2022

23. On linear partial spreads.

Author

Andrea Pavan and Corrado Zanella

Published

2012

24. Motion processing impaired by transient spatial attention: Potential implications for the magnocellular pathway

Author

Andrea Pavan, Seyma Koc Yilmaz, Hulusi Kafaligonul, Luca Battaglini, Steven P. Blurton, Yılmaz, Şeyma Koç, and Kafalığonul, Hulusi

Subjects

Temporal segregation, Computational modelling, Exogenous cue, Visuospatial attention, Humans, Motion, Photic Stimulation, Reaction Time, Visual Perception, Cues, Motion Perception, Sensory Systems, Ophthalmology

Abstract

Spatial cues presented prior to the presentation of a static stimulus usually improve its perception. However, previous research has also shown that transient exogenous cues to direct spatial attention to the location of a forthcoming stimulus can lead to reduced performance. In the present study, we investigated the effects of transient exogenous cues on the perception of briefly presented drifting Gabor patches. The spatial and temporal frequencies of the drifting Gabors were chosen to mainly engage the magnocellular pathway. We found better performance in the motion direction discrimination task when neutral cues were presented before the drifting target compared to a valid spatial cue. The behavioral results support the hypothesis that transient attention prolongs the internal response to the attended stimulus, thus reducing the temporal segregation of visual events. These results were complemented by applying a recently developed model for perceptual decisions to rule out a speed-accuracy trade-off and to further assess cueing effects on visual performance. In a model-based assessment, we found that valid cues initially enhanced processing but overall resulted in less efficient processing compared to neutral cues, possibly caused by reduced temporal segregation of visual events.

Published

2022

25. Spatial and Temporal Summation Across Frames Drive the Perception of Complex Glass Patterns

Author

Marco Roccato, Gianluca Campana, Rita Donato, and Andrea Pavan

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

26. Uma investigação sobre concepções acerca da Educação Financeira de alunos do Ensino Médio

Author

Andrea Pavan Perin and Celso Ribeiro Campos

Abstract

A partir de 2018, com a inserção do Tema Contemporâneo Transversal (TCT) Educação Financeira, na Base Nacional Comum Curricular, houve um aumento expressivo de pesquisas acadêmicas sobre esse tema. No entanto, há a necessidade de trabalhos que investiguem as concepções de Educação Financeira e apontem suas diferentes vertentes (letramento, crítica e comportamental). Nessa linha, este texto tem como objetivo analisar as concepções sobre Educação Financeira de alunos do Ensino Médio. Os dados foram coletados em uma turma de 34 alunos e organizados e analisados empregando-se a técnica do Discurso do Sujeito Coletivo. No que se refere às concepções dos estudantes vimos que há um destaque ao conhecimento dos conceitos matemáticos e econômicos, no entanto eles não valorizam apenas a sua aquisição, mas o seu uso para a tomada de decisões eficazes, que proporcionem o bem-estar financeiro pessoal e coletivo. Por fim, concluímos com este estudo que o TCT Educação Financeira, contribui para a formação dos jovens na construção da criticidade e emancipação do sujeito, não se prendendo apenas à aquisição de conceitos matemáticos e econômicos.

Published

2022

27. Spatial and Temporal Selectivity of Translational Glass Patterns Assessed With the Tilt After-Effect

Author

Rita Donato, Daniel W. Atkins, Adriano Contillo, Matthew J. Foxwell, George Mather, Andrea Pavan, Filippo Ghin, Gianluca Campana, Pavan A., Contillo A., Ghin F., Donato R., Foxwell M.J., Atkins D.W., Mather G., and Campana G.

Subjects

Materials science, selectivity to temporal frequency, Experimental and Cognitive Psychology, motion-form integration, 050105 experimental psychology, Article, 03 medical and health sciences, 0302 clinical medicine, Optics, Artificial Intelligence, dynamic translational Glass pattern, Psychology, 0501 psychology and cognitive sciences, business.industry, 05 social sciences, C830 Experimental Psychology, dynamic translational Glass patterns, selectivity to spatial frequency, tilt after-effect, C800 Psychology, Sensory Systems, BF1-990, Ophthalmology, Tilt (optics), After effect, Global Positioning System, Current (fluid), business, 030217 neurology & neurosurgery

Abstract

Glass patterns (GPs) have been widely employed to investigate the mechanisms underlying processing of global form from locally oriented cues. The current study aimed to psychophysically investigate the level at which global orientation is extracted from translational GPs using the tilt after-effect (TAE) and manipulating the spatiotemporal properties of the adapting pattern. We adapted participants to translational GPs and tested with sinewave gratings. In Experiment 1, we investigated whether orientation-selective units are sensitive to the temporal frequency of the adapting GP. We used static and dynamic translational GPs, with dynamic GPs refreshed at different temporal frequencies. In Experiment 2, we investigated the spatial frequency selectivity of orientation-selective units by manipulating the spatial frequency content of the adapting GPs. The results showed that the TAE peaked at a temporal frequency of ∼30 Hz, suggesting that orientation-selective units responding to translational GPs are sensitive to high temporal frequencies. In addition, TAE from translational GPs peaked at lower spatial frequencies than the dipoles’ spatial constant. These effects are consistent with form-motion integration at low and intermediate levels of visual processing.

Published

2021

28. Geological monitoring networks for risk management close to large rock cliffs: the case history of Gallivaggio and Cataeggio in the italian Alps

Author

Maria Luisa Pastore, Nicola Petrella, Andrea Pavan, and Luca Dei Cas

Subjects

Synthetic aperture radar, Geography, Planning and Development, 0211 other engineering and technologies, lcsh:GA101-1776, lcsh:G1-922, 02 engineering and technology, Rockfall, Mining engineering, Interferometric synthetic aperture radar, lcsh:Cartography, lcsh:Human ecology. Anthropogeography, Rock mass classification, Risk management, 021101 geological & geomatics engineering, Earth-Surface Processes, 021110 strategic, defence & security studies, Global and Planetary Change, Data processing, geography, geography.geographical_feature_category, Warning system, business.industry, Landslide, Anthropology, lcsh:GF1-900, business, Geology, lcsh:Geography (General)

Abstract

In areas located near large rock cliffs, risk reduction by early warning monitoring systems highligts potentiality but also critical issues and limits. The paper examines two rock slope failures that occurred in a short time from each other near inhabited areas in the Italian Alps. The viscous behavior of the rock mass was reconstructed through data processing from ground-based Synthetic Aperture Radar Interferometry (InSAR), and elaboration of acceleration and speed curves. Landslides types and underlying complexity associated with rock detachment mechanisms suggest the identification of precautionary alarm thresholds for collapse forecasting. The analysis of financial outlay, both for mitigation works and for monitoring activities, highlight the adequacy and the opportunity to combine passive systems, like embankments or rockfall drapery meshes, with a reliable monitoring network for early warning.

Published

2021

29. Visual Short-Term Memory for Coherent and Sequential Motion: A rTMS Investigation

Author

Gianluca Campana, Filippo Ghin, Andrea Pavan, Pavan, Andrea, Ghin, Filippo, and Campana, Gianluca

Subjects

visual short-term memory, Repetitive transcranial magnetic stimulation, Serial memory effects, Visual memory precision, Visual short-term memory, Computer science, General Neuroscience, Speech recognition, medicine.medical_treatment, repetitive transcranial magnetic stimulation, Neurosciences. Biological psychiatry. Neuropsychiatry, serial memory effects, Retention interval, cognitive_experimental_psychology, Motion (physics), Article, Variable resolution, Transcranial magnetic stimulation, Functional integrity, visual memory precision, Late phase, medicine, Early phase, RC321-571

Abstract

We investigated the role of the human medio-temporal complex (hMT+) in the memory encoding and storage of a sequence of four coherently moving random dot kinematograms (RDKs), by applying repetitive transcranial magnetic stimulation (rTMS) during an early or late phase of the retention interval. Moreover, in a second experiment, we also tested whether disrupting the functional integrity of hMT+ during the early phase impaired the precision of the encoded motion directions. Overall, results showed that both recognition accuracy and precision were worse in middle serial positions, suggesting the occurrence of primacy and recency effects. We found that rTMS delivered during the early (but not the late) phase of the retention interval was able to impair not only recognition of RDKs, but also the precision of the retained motion direction. However, such impairment occurred only for RDKs presented in middle positions along the presented sequence, where performance was already closer to chance level. Altogether these findings suggest an involvement of hMT+ in the memory encoding of visual motion direction. Given that both position sequence and rTMS modulated not only recognition but also the precision of the stored information, these findings are in support of a model of visual short-term memory with a variable resolution of each stored item, consistent with the assigned amount of memory resources, and that such item-specific memory resolution is supported by the functional integrity of area hMT+.

Published

2021

30. Electrophysiological aftereffects of high-frequency transcranial random noise stimulation (hf-tRNS): an EEG investigation

Author

Louise O'Hare, Filippo Ghin, Andrea Pavan, Ghin F., O'Hare L., and Pavan A.

Subjects

medicine.medical_specialty, medicine.medical_treatment, Stimulation, Audiology, Electroencephalography, Transcranial Direct Current Stimulation, High-frequency transcranial random noise stimulation (hf-tRNS), Time–frequency analysi, Visual evoked potentials, Modulation (music), medicine, Humans, Resting state, Global motion, Physics, Transcranial direct-current stimulation, Resting state fMRI, medicine.diagnostic_test, General Neuroscience, Visual evoked potential, Spectral density, Time–frequency analysis, Electrophysiological Phenomena, Electrophysiology, Disease Progression, Research Article, Transcranial electrical stimulation, Human

Abstract

There is evidence that high-frequency transcranial random noise stimulation (hf-tRNS) is effective in improving behavioural performance in several visual tasks. However, so far there has been limited research into the spatial and temporal characteristics of hf-tRNS-induced facilitatory effects. In the present study, electroencephalogram (EEG) was used to investigate the spatial and temporal dynamics of cortical activity modulated by offline hf-tRNS on performance on a motion direction discrimination task. We used EEG to measure the amplitude of motion-related VEPs over the parieto-occipital cortex, as well as oscillatory power spectral density (PSD) at rest. A time–frequency decomposition analysis was also performed to investigate the shift in event-related spectral perturbation (ERSP) in response to the motion stimuli between the pre- and post-stimulation period. The results showed that the accuracy of the motion direction discrimination task was not modulated by offline hf-tRNS. Although the motion task was able to elicit motion-dependent VEP components (P1, N2, and P2), none of them showed any significant change between pre- and post-stimulation. We also found a time-dependent increase of the PSD in alpha and beta bands regardless of the stimulation protocol. Finally, time–frequency analysis showed a modulation of ERSP power in the hf-tRNS condition for gamma activity when compared to pre-stimulation periods and Sham stimulation. Overall, these results show that offline hf-tRNS may induce moderate aftereffects in brain oscillatory activity.

Published

2021

31. Short gamma-ray burst jet propagation in binary neutron star merger environments

Author

Andrea Mignone, Riccardo Ciolfi, Jay Vijay Kalinani, Andrea Pavan, and ITA

Subjects

Gamma-ray bursts, Hydrodynamics, Methods: numerical, Neutron star mergers, Relativistic processes, Stars: jets, Astrophysics::High Energy Astrophysical Phenomena, FOS: Physical sciences, General Relativity and Quantum Cosmology (gr-qc), Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Compact star, 01 natural sciences, General Relativity and Quantum Cosmology, Gravitation, 0103 physical sciences, Merger simulation, 010306 general physics, 010303 astronomy & astrophysics, Solar and Stellar Astrophysics (astro-ph.SR), Astrophysics::Galaxy Astrophysics, High Energy Astrophysical Phenomena (astro-ph.HE), Physics, Jet (fluid), Astronomy and Astrophysics, Observable, Neutron star, Astrophysics - Solar and Stellar Astrophysics, Space and Planetary Science, Astrophysics - High Energy Astrophysical Phenomena, Gamma-ray burst, Event (particle physics)

Abstract

The multimessenger event GW170817/GRB 170817A confirmed that binary neutron star (BNS) mergers can produce short gamma-ray burst (SGRB) jets. This evidence promoted new investigations on the mechanisms through which a BNS merger remnant can launch such a powerful relativistic outflow and on the propagation of the latter across the surrounding post-merger environment. In particular, great strides have been made in jet propagation models, establishing connections between the initial jet launching conditions, including the incipient jet launching time (with respect to merger) and the injection parameters, and the observable SGRB prompt and afterglow emission. However, present semi-analytical models and numerical simulations (with one notable exception) adopt simple hand-made prescriptions to account for the post-merger environment, lacking a direct association with any specific merging BNS system. Here, we present the first three-dimensional relativistic hydrodynamics simulations of incipient SGRB jets propagating through a post-merger environment that is directly imported from the outcome of a previous general relativistic BNS merger simulation. Our results show that the evolution and final properties of the jet can be largely affected by the anisotropies and the deviations from axisymmetry and homologous expansion characterizing more realistic BNS merger environments. In addition, we find that the inclusion of the gravitational pull from the central compact object, often overlooked, can have a major impact. Finally, we consider different jet launching times referred to the same BNS merger model and discuss the consequences for the ultimate jet properties., 16 pages, 20 figures

Published

2021

32. Temporal characteristics of global form perception in translational and circular Glass patterns

Author

Rita Donato, Gianluca Campana, Massimo Nucci, Jorge Almeida, Andrea Pavan, Donato R., Pavan A., Almeida J., Nucci M., and Campana G.

Subjects

Visual perception, Circular Glass patterns, Computer science, Dynamic Glass pattern, media_common.quotation_subject, education, Motion Perception, Summation, Circular Glass pattern, Motion, Form perception, Dynamic Glass patterns, Form-motion interaction, Perception, Humans, Computer vision, media_common, business.industry, Process (computing), Translational Glass patterns, Sensory Systems, Temporal summation, Apparent motion, Form Perception, Ophthalmology, Pattern Recognition, Visual, Sensory Thresholds, Human visual system model, Global Positioning System, Artificial intelligence, Percept, business

Abstract

The human visual system is continuously exposed to a natural environment with static and moving objects that the visual system needs to continuously integrate and process. Glass patterns (GPs) are a class of visual stimuli widely used to study how the human visual system processes and integrates form and motion signals. GPs are made of pairs of dots that elicit a strong percept of global form. A rapid succession of unique frames originates dynamic GPs. Previous psychophysical studies showed that dynamic translational GPs are easier to detect than the static version because of the spatial summation across the unique frames composing the pattern. However, it is not clear whether the same mechanism is involved in dynamic circular GPs. In the present study, we psychophysically investigated the role of the temporal and spatial summation in the perception of both translational and circular GPs. We manipulated the number of unique frames in dynamic GPs and the update rate of the frames presentation. The results suggest that spatial and temporal summation across unique frames takes place for both translational and circular GPs. Moreover, the number of unique frames and the pattern update rate equally influence the discrimination thresholds of translational and circular GPs. These results show that form and motion integration is likely to be processed similarly for translational and circular GPs.

Published

2021

33. Improvement in visual perception after high-frequency transcranial random noise stimulation (hf-tRNS) in those with migraine: An equivalent noise approach

Author

Peter Goodwin, Andrea Pavan, Alex Sharp, Louise O'Hare, Adriano Contillo, O'Hare L., Goodwin P., Sharp A., Contillo A., and Pavan A.

Subjects

Sham control, medicine.medical_specialty, Visual perception, Cognitive Neuroscience, medicine.medical_treatment, Migraine Disorders, Sampling factor, Experimental and Cognitive Psychology, Neurological disorder, Audiology, Transcranial Direct Current Stimulation, Global motion perception, Behavioral Neuroscience, Internal neural noise, Migraine Disorder, medicine, Humans, Ictal, Neurostimulation, Transcranial direct-current stimulation, Two-alternative forced choice, Brain, medicine.disease, Noise, Migraine, Case-Control Studies, Visual Perception, Case-Control Studie, Psychology, Human

Abstract

Migraine is a common neurological disorder with strong links to vision. Interictal migraine is thought to be characterised by internal noise in the brain, possibly due to increased variability in neural firing, which can be estimated using equivalent noise tasks. High-frequency transcranial random noise stimulation (hf-tRNS) can be used to modulate levels of internal noise in the brain, and so presents a possible therapy to redress noise levels in the migraine brain. This is a case-control study using a 2-alternative forced choice (2AFC) design. Hf-tRNS and Sham control stimulation were used alongside a global motion direction discrimination task and visually based equivalent noise tasks. The migraine group demonstrated increased baseline internal noise levels compared to the control group. Internal noise levels, and sampling, were reduced using hf-tRNS but not Sham stimulation. However, there were no differences in terms of coherence thresholds, slopes, and lapse rate for global motion discrimination between the two groups. This is the first demonstration of the possibility of decreasing internal noise levels in migraine using hf-tRNS. Future work could explore the possibility of neurostimulation as a therapy for migraine.

Published

2020

34. Ageing in athletics tracks: A multi-technique experimental investigation

Author

R. Frassine, Andrea Pavan, Andrea Marenghi, Luca Andena, Emanuele Testa, and Stefano Tagliabue

Subjects

Artificial ageing, Materials science, Polymers and Plastics, business.industry, Organic Chemistry, Uniaxial compression, Mechanical properties, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Durability, 0104 chemical sciences, Characterization (materials science), Athletics tracks, Water immersion, Ageing, Thermo-gravimetric analysis, 0210 nano-technology, Process engineering, business

Abstract

This is an extensive study of the ageing of athletics tracks, approached with a variety of experimental techniques. The effects of environmental variables, such as UV radiation, relative humidity, water immersion and temperature, were investigated using several artificial ageing protocols, applied to six prefabricated tracks of different color and chemical formulation. A few effective techniques capable of detecting and monitoring the changes occurring in track materials because of ageing were identified among a broad range of available experimental tests. In particular, semi-quantitative colorimetric analysis and dispersive electron spectroscopy were successfully employed to investigate surface degradation phenomena, while uniaxial compression and thermo-gravimetric analysis allowed characterization of the underlying bulk material. The combination of accelerated ageing protocols and monitoring techniques proved to be a powerful tool to study ageing in athletics tracks, with the aim of developing new products with improved durability for installations in critical areas.

Published

2018

35. Letramento estatístico e competência crítica em um ambiente de aprendizagem criativa

Author

Andréa Pavan Perin and Ana Paula Gonçalves Pita

Subjects

análise crítica, gráfico e tabelas, análise narrativa, Education

Abstract

Este artigo objetiva analisar o desenvolvimento do letramento estatístico no que se refere a leitura, interpretação e análise crítica de gráficos estatísticos de um grupo de alunos do 1º ano do Ensino Médio. Buscamos um espaço que julgamos ideal para esse desenvolvimento e encontramos nos preceitos da aprendizagem criativa amparo para essa abordagem pedagógica. Para interpretação do material, apoiamo-nos na Análise Narrativa. A análise dos dados mostrou que os grupos de estudantes transitaram pelos três níveis mais elevados de letramento estatístico, segundo a classificação que empregamos neste estudo. Afirmamos que a leitura residiu nos níveis mais elevados, pois os estudantes buscaram fazer leitura entre os dados, ou seja, compararam resultados, estabeleceram relações matemáticas e formularam questionamentos para além dos dados existentes. Ademais, os estudantes também se mostraram preocupados com os aspectos da sociedade retratados nas representações gráficas, mostrando desigualdades sociais ali apresentadas, ou seja, construíram críticas sociopolíticas.

Published

2024

36. The neural basis of form and form-motion integration from static and dynamic translational Glass patterns: A rTMS investigation

Author

Rita Donato, Filippo Ghin, George Mather, Andrea Pavan, Gianluca Campana, Pavan A., Ghin F., Donato R., Campana G., and Mather G.

Subjects

Adult, C850 Cognitive Psychology, Dynamic Glass pattern, media_common.quotation_subject, medicine.medical_treatment, Interval temporal logic, Cognitive Neuroscience, Repetitive transcranial magnetic stimulation, Motion Perception, Stimulus (physiology), 050105 experimental psychology, lcsh:RC321-571, 03 medical and health sciences, 0302 clinical medicine, Dynamic Glass patterns, Perception, medicine, Humans, 0501 psychology and cognitive sciences, Computer vision, Static Glass pattern, Motion perception, Global form, Motion-form integration, Static Glass patterns, Neurology, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Visual Cortex, media_common, business.industry, 05 social sciences, C830 Experimental Psychology, Transcranial Magnetic Stimulation, Transcranial magnetic stimulation, Visual cortex, medicine.anatomical_structure, Pattern Recognition, Visual, Global Positioning System, Artificial intelligence, Percept, business, Psychology, 030217 neurology & neurosurgery, Human

Abstract

A long-held view of the visual system is that form and motion are independently analysed. However, there is physiological and psychophysical evidence of early interaction in the processing of form and motion. In this study, we used a combination of Glass patterns (GPs) and repetitive Transcranial Magnetic Stimulation (rTMS) to investigate in human observers the neural mechanisms underlying form-motion integration. GPs consist of randomly distributed dot pairs (dipoles) that induce the percept of an oriented stimulus. GPs can be either static or dynamic. Dynamic GPs have both a form component (i.e., orientation) and a non-directional motion component along the orientation axis. GPs were presented in two temporal intervals and observers were asked to discriminate the temporal interval containing the most coherent GP. rTMS was delivered over early visual area (V1/V2) and over area V5/MT shortly after the presentation of the GP in each interval. The results showed that rTMS applied over early visual areas affected the perception of static GPs, but the stimulation of area V5/MT did not affect observers’ performance. On the other hand, rTMS was delivered over either V1/V2 or V5/MT strongly impaired the perception of dynamic GPs. These results suggest that early visual areas seem to be involved in the processing of the spatial structure of GPs, and interfering with the extraction of the global spatial structure also affects the extraction of the motion component, possibly interfering with early form-motion integration. However, visual area V5/MT is likely to be involved only in the processing of the motion component of dynamic GPs. These results suggest that motion and form cues may interact as early as V1/V2.

Published

2017

37. Short- and long-term forms of neural adaptation: An ERP investigation of dynamic motion aftereffects

Author

Utku Kaya, Hulusi Kafaligonul, Andrea Pavan, Sibel Akyuz, Akyüz, Sibel, Kaya, Utku, Kafalıgönül, Hulusi, Akyuz S., Pavan A., Kaya U., and Kafaligonul H.

Subjects

Event-related potential, C850 Cognitive Psychology, Cognitive Neuroscience, Motion Perception, Experimental and Cognitive Psychology, Adaptation (eye), Electroencephalography, 050105 experimental psychology, Motion (physics), 03 medical and health sciences, Motion, 0302 clinical medicine, Long-term, Figural Aftereffect, Neuroplasticity, medicine, Humans, 0501 psychology and cognitive sciences, Neural adaptation, Evoked Potentials, Dynamic motion aftereffect, Neuronal Plasticity, medicine.diagnostic_test, Short-term, 05 social sciences, C830 Experimental Psychology, Adaptation, Physiological, C800 Psychology, Term (time), Neuropsychology and Physiological Psychology, medicine.anatomical_structure, Duration (music), Evoked Potential, Psychology, B140 Neuroscience, Neuroscience, 030217 neurology & neurosurgery, Human, Event-related potentials

Abstract

Adaptation is essential to interact with a dynamic and changing environment, and can be observed on different timescales. Previous studies on a motion paradigm called dynamic motion aftereffect (dMAE) showed that neural adaptation can establish even in very short timescales. However, the neural mechanisms underlying such rapid form of neural plasticity is still debated. In the present study, short- and long-term forms of neural plasticity were investigated using dynamic motion aftereffect combined with EEG (Electroencephalogram). Participants were adapted to directional drifting gratings for either short (640 msec) or long (6.4 sec) durations. Both adaptation durations led to motion aftereffects on the perceived direction of a dynamic and directionally ambiguous test pattern, but the long adaptation produced stronger dMAE. In line with behavioral results, we found robust changes in the event-related potentials elicited by the dynamic test pattern within 64–112 msec time range. These changes were mainly clustered over occipital and parieto-occipital scalp sites. Within this time range, the aftereffects induced by long adaptation were stronger than those by short adaptation. Moreover, the aftereffects by each adaptation duration were in the opposite direction. Overall, these EEG findings suggest that dMAEs reflect changes in cortical areas mediating low- and mid-level visual motion processing. They further provide evidence that short- and long-term forms of motion adaptation lead to distinct changes in neural activity, and hence support the view that adaptation is an active time-dependent process which involves different neural mechanisms.

Published

2020

38. The neural mechanisms underlying directional and apparent circular motion assessed with repetitive transcranial magnetic stimulation (rTMS)

Author

Andrea Pavan, Massimo Nucci, Rita Donato, Gianluca Campana, Donato R., Pavan A., Nucci M., and Campana G.

Subjects

Dorsum, Visual perception, "Circular dynamic glass patterns", genetic structures, Cognitive Neuroscience, medicine.medical_treatment, Motion Perception, Experimental and Cognitive Psychology, Motion processing, 050105 experimental psychology, 03 medical and health sciences, Behavioral Neuroscience, Motion, 0302 clinical medicine, Circular motion, Neuroimaging, Circular dynamic glass pattern, Repetitive transcranial magnetic stimulation (rTMS), medicine, " Apparent non-directional motion", Humans, 0501 psychology and cognitive sciences, Visual Cortex, Brain Mapping, "Motion form interaction", 05 social sciences, "Motion form interaction", " Apparent non-directional motion", "Circular dynamic glass patterns", "Circular motion", "Repetitive transcranial magnetic stimulation", "Neural mechanisms", Neural mechanism, "Repetitive transcranial magnetic stimulation", Magnetic Resonance Imaging, Transcranial Magnetic Stimulation, Transcranial magnetic stimulation, Motion-form interaction, "Neural mechanisms", Apparent non-directional motion, "Circular motion", Psychology, Neuroscience, 030217 neurology & neurosurgery, Photic Stimulation, Human

Abstract

Dynamic Glass patterns (GPs) are a class of visual stimuli that evoke apparent motion and are commonly used to investigate the interaction between global form and motion processing in the visual system. Neuroimaging studies showed that (complex) circular dynamic GPs mainly activate areas along both the ventral and the dorsal stream such as hMT+, V3b/KO, dorsal V4 and LOC, whereas directional motion from rotating random dot kinematograms (RDKs) mainly activates the human MT complex (hMT+) and area V6. However, despite the large number of correlational information from fMRI studies, there is scarce evidence about the causal involvement of these brain areas in the perception of dynamic circular GPs and rotating RDKs. The aim of this study is to compare the neural basis of dynamic circular GPs and rotating RDKs by temporarily interfering with repetitive transcranial magnetic stimulation (rTMS) delivered over two visual areas largely involved in form and motion processing, such as V1/V2 and hMT+. Our results showed that rTMS over hMT + interfered only with the processing of rotating RDKs but not with the processing of circular dynamic GPs. On the other hand, rTMS delivered over early visual areas (V1/V2) did not interfere with the processing of both visual stimuli. These results suggest that partially different neural substrates subtend the processing of circular directional motion and apparent non-directional motion.

Published

2020

39. Limited Attention Diminishes Spatial Suppression From Large Field Glass Patterns

Author

Filippo Ghin, George Mather, Andrea Pavan, Adriano Contillo, Matthew J. Foxwell, Pavan A., Contillo A., Ghin F., Foxwell M.J., and Mather G.

Subjects

Adult, C850 Cognitive Psychology, Computer science, Magnitude (mathematics), Experimental and Cognitive Psychology, Adaptation (eye), Glass pattern, Summation, 050105 experimental psychology, spatial suppression, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Figural Aftereffect, Artificial Intelligence, Distraction, Humans, 0501 psychology and cognitive sciences, Attention, Coherence level, business.industry, 05 social sciences, form after-effect, C830 Experimental Psychology, C800 Psychology, Sensory Systems, Field (geography), Form Perception, Ophthalmology, form adaptation, Rapid serial visual presentation, Pattern Recognition, Visual, Global Positioning System, visuospatial attention, business, Algorithm, 030217 neurology & neurosurgery, Human

Abstract

Glass patterns (GPs) consist of randomly distributed dot pairs (dipoles) whose orientations are determined by specific geometric transforms. We investigated the role of visuospatial attention in the processing of global form from GPs by measuring the effect of distraction on adaptation to GPs. In the nondistracted condition, observers were adapted to coherent GPs. After the adaptation period, they were presented with a test GP divided in two halves along the vertical and were required to judge which side of the test GP was more coherent. In the attention-distracted condition, a high-load rapid serial visual presentation task was performed during the adapting period. The magnitude of the form after-effect was measured using a technique that measures the coherence level at which the test GP appears random. The rationale was that if attention has a modulatory effect on the spatial summation of dipoles, in the attention-distracted condition, we should expect a weaker form after-effect. However, the results showed stronger form after-effect in the attention-distracted condition than in the nondistracted condition, suggesting that distraction during adaptation increases the strength of form adaptation. Additional experiments suggested that distraction may reduce the spatial suppression from large-scale textures, strengthening the spatial summation of local-oriented signals.

Published

2019

40. Interactions between motion and form processing in the human visual system.

Author

George Mather, Andrea Pavan, Rosilari Bellacosa Marotti, Gianluca Campana, and Clara Casco

Published

2013

41. The application of online transcranial random noise stimulation and perceptual learning in the improvement of visual functions in mild myopia

Author

Andrea Pavan, Gianluca Campana, Rebecca Camilleri, Camilleri R., Pavan A., and Campana G.

Subjects

Adult, Male, medicine.medical_specialty, Boosting (machine learning), Visual acuity, Cognitive Neuroscience, media_common.quotation_subject, Visual Acuity, Experimental and Cognitive Psychology, Sensory system, Audiology, Transcranial Direct Current Stimulation, Contrast sensitivity, Mild myopia, Transcranial random noise stimulation, tRNS, Visual perceptual learning, Behavioral Neuroscience, Choice Behavior, Online Systems, Statistics, Nonparametric, 050105 experimental psychology, Task (project management), Young Adult, 03 medical and health sciences, C810 Applied Psychology, 0302 clinical medicine, Perceptual learning, Generalization (learning), Perception, Myopia, medicine, Humans, Learning, Contrast (vision), Single-Blind Method, 0501 psychology and cognitive sciences, media_common, Vision Tests, 05 social sciences, C830 Experimental Psychology, Visual Perception, Female, medicine.symptom, Psychology, Photic Stimulation, 030217 neurology & neurosurgery, Cognitive psychology

Abstract

It has recently been demonstrated how perceptual learning, that is an improvement in a sensory/perceptual task upon practice, can be boosted by concurrent high-frequency transcranial random noise stimulation (tRNS). It has also been shown that perceptual learning can generalize and produce an improvement of visual functions in participants with mild refractive defects. By using three different groups of participants (single-blind study), we tested the efficacy of a short training (8 sessions) using a single Gabor contrast-detection task with concurrent hf-tRNS in comparison with the same training with sham stimulation or hf-tRNS with no concurrent training, in improving visual acuity (VA) and contrast sensitivity (CS) of individuals with uncorrected mild myopia. A short training with a contrast detection task is able to improve VA and CS only if coupled with hf-tRNS, whereas no effect on VA and marginal effects on CS are seen with the sole administration of hf-tRNS. Our results support the idea that, by boosting the rate of perceptual learning via the modulation of neuronal plasticity, hf-tRNS can be successfully used to reduce the duration of the perceptual training and/or to increase its efficacy in producing perceptual learning and generalization to improved VA and CS in individuals with uncorrected mild myopia.

Published

2016

42. Probing athletics tracks degradation using a microscratch technique

Author

Stefano Tagliabue, Andrea Marenghi, Andrea Pavan, R. Frassine, Luca Andena, and Manuel Testa

Subjects

Artificial ageing, Work (thermodynamics), Materials science, Friction, Polymers and Plastics, Scratch hardness, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Durability, Scratch testing, Natural rubber, Microscopy, Natural ageing, Composite material, Organic Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Athletics tracks, Ageing, visual_art, visual_art.visual_art_medium, Degradation (geology), 0210 nano-technology, Layer (electronics)

Abstract

Continuous outdoor exposure of athletics tracks can lead to an important degradation of their mechanical and aesthetical properties. In this work, flat laboratory samples prepared from rubber blends of different colours were subjected to natural and artificial ageing, to investigate their effect on the surface properties. Compositional variations demonstrated a generalized oxidization of the outer (top) material layer, together with surfacing of inorganic additives; a small increase of the degradation temperature of the natural rubber component was reported, similar to the one previously observed on bulk track samples. The smooth surface of the present samples allowed their testing using a microscratching technique, able to mechanically probe the material within a few hundred microns below the top surface. The formation of a significantly harder outer crust layer was reported, potentially impacting the track performance since it is exactly the locus of interaction between the athlete and the sport surface. In particular, the increase in scratch hardness is accompanied by a significant reduction in the apparent friction coefficient. These surface modifications, previously unreported in the literature, are independent phenomena with respect to generalized bulk ageing. Microscratch data supported by microscopy evidenced a significantly varying sensitivity to ageing for the different colours (red, blue, green, neutral). Moreover, this sensitivity appeared strongly dependent on the applied ageing protocol (natural vs. artificial). In view of these results, care must be taken when accelerated artificial weathering is used to simulate long-term natural ageing of these materials.

Published

2020

43. Modulatory mechanisms underlying high-frequency transcranial random noise stimulation (hf-tRNS): A combined stochastic resonance and equivalent noise approach

Author

Filippo Ghin, Adriano Contillo, Chiara Milesi, George Mather, Gianluca Campana, Andrea Pavan, Pavan A., Ghin F., Contillo A., Milesi C., Campana G., and Mather G.

Subjects

Adult, Male, C850 Cognitive Psychology, Adolescent, Stochastic resonance, Stochastic Processe, Motion Perception, Biophysics, Transcranial Direct Current Stimulation, Signal, 050105 experimental psychology, lcsh:RC321-571, Young Adult, 03 medical and health sciences, Transcranial random noise stimulation, 0302 clinical medicine, Humans, Global motion, Global sampling, High-frequency transcranial random noise stimulation, Internal noise, Neuroscience (all), Neurology (clinical), 0501 psychology and cognitive sciences, Detection theory, Sensitivity (control systems), lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Physics, Stochastic Processes, Two-alternative forced choice, Noise (signal processing), General Neuroscience, 05 social sciences, C830 Experimental Psychology, C800 Psychology, Intensity (physics), Visual Perception, Female, B140 Neuroscience, Noise, Biological system, Photic Stimulation, 030217 neurology & neurosurgery, Human

Abstract

Background High-frequency transcranial random noise stimulation (hf-tRNS) is a neuromodulatory technique consisting of the application of alternating current at random intensities and frequencies. hf-tRNS induces random neural activity in the system that may boost the sensitivity of neurons to weak inputs. Stochastic resonance is a nonlinear phenomenon whereby the addition of an optimal amount of noise results in performance enhancement, whereas further noise increments impair signal detection or discrimination. Objective The aim of the study was to assess whether modulatory effects of hf-tRNS rely on the stochastic resonance phenomenon, and what is the specific neural mechanism producing stochastic resonance. Method Observers performed a two-interval forced choice motion direction discrimination task in which they had to report whether two moving patches presented in two temporal intervals had the same or different motion directions. hf-tRNS was administered at five intensity levels (0.5, 0.75, 1.0, 1.5, and 2.25 mA). Results The results showed a significant improvement in performance when hf-tRNS was applied at 1.5 mA, representing the optimal level of external noise. However, stimulation intensity at 2.25 mA significantly impaired direction discrimination performance. An equivalent noise (EN) analysis, used to assess how hf-tRNS modulates the mechanisms underlying global motion processing, showed an increment in motion signal integration with the optimal current intensity, but reduced motion signal integration at 2.25 mA. Conclusion These results indicate that hf-tRNS-induced noise modulates neural signal-to-noise ratio in a way that is compatible with the stochastic resonance phenomenon.

Published

2019

44. A 3D Numerical Model for the Optimization of Running Tracks Performance

Author

Luca Andena, Stefano Mariani, Francesco Briatico-Vangosa, Andrea Pavan, S. Aleo, and Francesco Caimmi

Subjects

Materials science, Mechanical engineering, modeling, 030229 sport sciences, 02 engineering and technology, General Medicine, mechanical properties, 021001 nanoscience & nanotechnology, Energy minimization, Track (rail transport), Finite element method, Shock (mechanics), 03 medical and health sciences, 0302 clinical medicine, athletics tracks, Honeycomb, geometry optimization, 0210 nano-technology, Material properties, Representation (mathematics), Reduction (mathematics), Engineering(all)

Abstract

In previous works, a finite element model of the shock absorbing characteristics of athletics tracks was developed, able to give sufficiently reliable predictions from laboratory tests performed on suitable material samples. The model proved to be effective in discriminating the effects of geometry (i.e. thickness) and material properties (essentially the elastic characteristics) on force reduction, thus allowing a first optimization of the tracks in view of their approval by the International Association of Athletics Federations (IAAF). This simplified 2D model neglected the real track structure, considering it as a single layer of material having homogenized properties. In the present study, a new 3D model was developed to accurately describe the structure of multi-layered tracks, with properties and geometrical construction (e.g. solid or honeycomb) differing from one layer to another. Several tracks having different combinations of top/bottom layers varying in both material formulation (i.e. chemical composition) and geometry were thus considered. Mechanical properties of the individual elements constituting the track were measured with small-scale laboratory tests, taking into account their strain-rate dependence. The 3D model allowed a complete representation of the loads acting on the track and it gave results which are in very good agreement with the experiments. This proves it to be a valuable tool for the purpose of optimizing the track in terms of material formulation as well as layer geometrical construction and arrangement: as an example, the effect of changing the cell size of the honeycomb pattern was investigated.

Published

2016

45. The effects of high-frequency transcranial random noise stimulation (hf-tRNS) on global motion processing: An equivalent noise approach

Author

Adriano Contillo, Andrea Pavan, George Mather, Filippo Ghin, Ghin F., Pavan A., Contillo A., and Mather G.

Subjects

0301 basic medicine, Adult, Male, Elementary cognitive task, C850 Cognitive Psychology, Photic Stimulation, Computer science, Speech recognition, medicine.medical_treatment, media_common.quotation_subject, Biophysics, Motion Perception, Stimulus (physiology), Transcranial Direct Current Stimulation, lcsh:RC321-571, 03 medical and health sciences, Transcranial random noise stimulation, 0302 clinical medicine, Psychometric function, Perception, medicine, Humans, Motion perception, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Global motion, media_common, Internal noise, Transcranial direct-current stimulation, High-frequency transcranial random noise stimulation, Directional tuning, Global sampling, General Neuroscience, C830 Experimental Psychology, 030104 developmental biology, Female, Neurology (clinical), B140 Neuroscience, 030217 neurology & neurosurgery, Psychomotor Performance, Human

Abstract

BACKGROUND: High frequency transcranial random noise stimulation (hf-tRNS) facilitates performance in several perceptual and cognitive tasks, however, little is known about the underlying modulatory mechanisms. OBJECTIVE: In this study we compared the effects of hf-tRNS to those of anodal and cathodal tDCS in a global motion direction discrimination task. An equivalent noise (EN) paradigm was used to assess how hf-tRNS modulates the mechanisms underlying local and global motion processing. METHOD: Motion coherence threshold and slope of the psychometric function were estimated using an 8AFC task in which observers had to discriminate the motion direction of a random dot kinematogram presented either in the left or right visual hemi-field. During the task hf-tRNS, anodal and cathodal tDCS were delivered over the left hMT+. In a subsequent experiment we implemented an EN paradigm in order to investigate the effects of hf-tRNS on the mechanisms involved in visual motion integration (i.e., internal noise and sampling). RESULTS: hf-tRNS reduced the motion coherence threshold but did not affect the slope of the psychometric function, suggesting no modulation of stimulus discriminability. Anodal and cathodal tDCS did not produce any modulatory effects. EN analysis in the last experiment found that hf-tRNS modulates sampling but not internal noise, suggesting that hf-tRNS modulates the integration of local motion cues. CONCLUSION: hf-tRNS interacts with the output neurons tuned to directions near to the directional signal, incrementing the signal-to-noise ratio and the pooling of local motion cues and thus increasing the sensitivity for global moving stimuli.

Published

2018

46. Modelling the cushioning properties of athletic tracks

Author

Serena Aleo, Francesco Briatico-Vangosa, Andrea Pavan, Stefano Mariani, Francesco Caimmi, Stefano Tagliabue, and Luca Andena

Subjects

Void (astronomy), Materials science, Mechanical Engineering, 0211 other engineering and technologies, Biomedical Engineering, Cushioning, Force reduction, Physical Therapy, Sports Therapy and Rehabilitation, 02 engineering and technology, Mechanics, 021001 nanoscience & nanotechnology, Shock absorber, Cell pattern, Mechanics of Materials, Numerical modelling, Modeling and Simulation, 021105 building & construction, Athletic tracks, Orthopedics and Sports Medicine, Sports surfaces, 0210 nano-technology, Geometric structure

Abstract

In this work, a three-dimensional finite-element model of athletic tracks is presented. The model is based on data from quasi-static compression tests performed on small laboratory samples, to tune the constitutive parameters. The model was validated on three different athletic tracks, considering their top and bottom layers. Model predictions compared well with the results of shock absorption tests performed using a standard artificial athlete system, with relative errors of a few percent in terms of shock absorption. The model was then used to investigate the effect of the geometric structure of different tracks on their shock absorption capabilities. In particular, a reduction in size of the bottom layer cell pattern increased cushioning; the same property was shown to depend on the pattern voids depth in a non-monotonic way. A maximum in shock absorption was found for a void depth value about 40% higher than the one currently used in the analysed track patterns.

Published

2018

47. On the relationship between force reduction, loading rate and energy absorption in athletics tracks

Author

Antonio Ciancio, Stefano Mariani, Andrea Pavan, Luca Andena, and Francesco Briatico-Vangosa

Subjects

Chemistry, 0206 medical engineering, Work (physics), General Engineering, numerical modelling, Sports surfaces, running tracks, numerical modelling, force reduction, energy absorption, loading rate, 030229 sport sciences, 02 engineering and technology, Mechanics, loading rate, 020601 biomedical engineering, running tracks, Finite element method, 03 medical and health sciences, 0302 clinical medicine, Energy absorption, Loading rate, Sports surfaces, energy absorption, Reduction (mathematics), Simulation, Energy (signal processing), force reduction

Abstract

In this work, finite element simulations of typical sports surfaces were performed to evaluate parameters, such as the loading rate and the energy absorbed by the surface, in relation to its characteristics (surface structure and material properties). Hence, possible relations between these quantities and the standard parameters used to characterize the shock absorbing characteristics of the athletics track (in particular, its force reduction) were investigated. The samples selected for this study were two common athletics tracks and a sheet of natural rubber. They were first characterized by quasi-static compression tests; their mechanical properties were extrapolated to the strain rate of interest and their dependence on the level of deformation was modelled with hyperelastic constitutive equations. Numerical simulations were carried out for varying sample thicknesses to understand the influence of track geometry on force reduction, loading rate and stored energy. A very good correlation was found between force reduction and the other relevant parameters, with the exception of the loading rate at the beginning of the impact.

Published

2018

48. Differential effects of high-frequency transcranial random noise stimulation (hf-tRNS) on contrast sensitivity and visual acuity when combined with a short perceptual training in adults with amblyopia

Author

Gianluca Campana, Rebecca Camilleri, Antonella Veronese, Beatrice Moret, Giuseppe Lo Giudice, Andrea Pavan, Roberta Rizzo, Moret B., Camilleri R., Pavan A., Lo Giudice G., Veronese A., Rizzo R., and Campana G.

Subjects

Adult, Male, medicine.medical_specialty, C850 Cognitive Psychology, Visual acuity, genetic structures, media_common.quotation_subject, Cognitive Neuroscience, Lateral masking, Experimental and Cognitive Psychology, Audiology, Cognitive neuroscience, Transcranial Direct Current Stimulation, Amblyopia, High-frequency transcranial random noise stimulation (hf-tRNS), 050105 experimental psychology, Contrast sensitivity, Perceptual learning, Behavioral Neuroscience, 03 medical and health sciences, 0302 clinical medicine, Neuroplasticity, medicine, Humans, Contrast (vision), 0501 psychology and cognitive sciences, media_common, Monocular, Two-alternative forced choice, 05 social sciences, Middle Aged, C800 Psychology, eye diseases, Treatment Outcome, Female, medicine.symptom, Psychology, Photic Stimulation, 030217 neurology & neurosurgery

Abstract

Amblyopia is a neuro-developmental disorder characterised by several functional impairments in spatial vision even with the best optical correction. There is evidence that extensive perceptual training can improve visual acuity (VA) and contrast sensitivity (CS) in adults with amblyopia. In the present study, we assessed the efficacy of a recently developed neuro-modulatory technique (i.e., high-frequency transcranial random noise stimulation; hf-tRNS) combined with a short perceptual training in adults with amblyopia. One group of ten participants underwent a short (8 sessions) monocular training in a contrast detection task with concurrent hf-tRNS, whereas another group of ten participants underwent the same training protocol but with Sham stimulation (control group). The training consisted of a two-interval forced choice (2IFC) contrast detection task in which participants had to detect the presence of a central Gabor patch flanked by two high-contrast collinear Gabors (lateral masking). The results showed a significant and similar improvement of CS for both groups, suggesting that hf-tRNS is not crucial for the improvement of CS. However, for VA, a significant improvement was only observed in the hf-tRNS group with a mean VA improvement of 0.19 LogMAR in the amblyopic eye. Most notably, this improvement was achieved after eight training sessions. The results are discussed in terms of the influence of hf-tRNS on short-term neural plasticity.

Published

2018

49. Modeling of shock absorption in athletics track surfaces

Author

Antonio Ciancio, Emanuele Cazzoni, Luca Andena, Stefano Mariani, Francesco Briatico-Vangosa, and Andrea Pavan

Subjects

Surface (mathematics), Work (thermodynamics), Materials science, business.industry, Mechanical Engineering, Track (disk drive), Biomedical Engineering, Physical Therapy, Sports Therapy and Rehabilitation, Structural engineering, Mechanics, Finite element method, Nonlinear system, Shock absorber, Mechanics of Materials, Modeling and Simulation, Hyperelastic material, Orthopedics and Sports Medicine, Reduction (mathematics), business

Abstract

In this work, the possibility of predicting the force reduction (FR) characterizing the shock absorption capability of track surfaces by finite element modeling was investigated. The mechanical responses of a typical sport surface and of a reference material were characterized by quasi-static uniaxial compression experiments and fitted by Neo-Hookean and Mooney–Rivlin’s hyperelastic models to select the more appropriate one. Furthermore, in order to examine the materials behavior at strain rates typical of athletics applications, the rate dependence of the constitutive parameters was investigated. A finite element model, taking into consideration the post-impact nonlinear dynamics of the track surface and of the system (track surface + artificial athlete), was developed and validated through comparison with the results of FR tests. The simulations showed a very good agreement with the experiments and allowed to interpret the experimentally observed combined effect of track thickness and material intrinsic properties on the overall surface behavior.

Published

2014

50. Improving myopia via perceptual learning: is training with lateral masking the only (or the most) efficacious technique?

Author

Gianluca Campana, Andrea Pavan, Rebecca Camilleri, Filippo Ghin, Camilleri R., Pavan A., Ghin F., and Campana G.

Subjects

Adult, Linguistics and Language, medicine.medical_specialty, Visual acuity, genetic structures, Lateral interaction, media_common.quotation_subject, Visual Acuity, Lateral masking, Experimental and Cognitive Psychology, Audiology, Language and Linguistics, Contrast Sensitivity, Young Adult, Poor vision, Blurred vision, LATERAL INTERACTIONS, Perceptual learning, Myopia, medicine, Humans, Learning, Contrast (vision), Visual perceptual learning, media_common, Training (meteorology), eye diseases, Sensory Systems, CONTRAST SENSITIVITY, Treatment Outcome, Healthy individuals, medicine.symptom, Psychology, Perceptual Masking, Cognitive psychology

Abstract

Perceptual learning produces an improvement in visual functions such as an increase in visual acuity (VA) and contrast sensitivity in participants with both amblyopia and refractive defects. This improvement has been observed in the presence of lateral masking, which is known to bring about lateral interactions between detectors in early cortical pathways. Improvement has also been revealed in the absence of flankers in healthy individuals and those with amblyopia. This study seeks to understand whether a perceptual training regime really needs to be based on lateral interactions in cases where poor vision is not due to cortical dysfunction, such as myopia. Ten participants with mild myopia (max –2D) were recruited. A battery of tests measuring visual function was administered prior to (pre-test) and following (post-test) the training. The participants carried out an 8-week behavioural training using a single Gabor perceptual learning paradigm, completing a total of 24 sessions. Results indicate that training using a single Gabor protocol results in a VA improvement of 0.16 logMAR. The present study supports the idea that, in the absence of cortical deficits, as is the case in myopia, some sort of compensatory mechanism can take place at the cortical level by means of perceptual learning, resulting in more effective processing of the received blurred input. However, regarding training based on lateral masking, here we found that improvement of visual functions was smaller and limited to VA. This might suggest that training based on lateral masking, which is able to modify the strength of facilitatory and inhibitory lateral interactions, could be more effective for optimal recovery of blurred vision.

Published

2014