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New Research in Journal of Neuroscience

Congratulations to Eckart, whose latest paper has just been accepted for publication in JN.

Spatial position information accumulates steadily over time

Eckart Zimmerman, Concetta Morrone and David C. Burr

The acquisition of sensorimotor parameters that control goal-directed motor behaviours occurs by observing another person. During such observation, biological motion properties associated with the observed person are coded into a representation that controls motor learning. Understanding the underlying mechanisms, specifically associated with coding biological motion, has theoretical and practical significance. In this study, we examined the following questions: are the underlying velocity characteristics associated with observed biological motion kinematics imitated? (Experiment 1); is attention involved in imitating biological motion kinematics? (Experiment 2); can selective attention modulate how biological motion kinematics are imitated/represented? (Experiment 3). Having completed practice during which participants observed a model displaying a movement sequence, and thus did not overtly generate any motor signals, kinematic analyses confirmed that biological motion kinematics were imitated. Using a dual-task tone counting protocol, we attenuated the coding of biological motion kinematics (Experiment 2), and subsequently augmented coding using a selective attention protocol (Experiment 3). These findings confirmed velocity characteristics of biological motion kinematics are coded during observation, most likely through bottom-up sensorimotor processes. The fact that we influenced coding using two different attentional protocols indicated these bottom-up processes are influenced by input modulation, which is consistent with top-down control during observational practice.

(Read More - PDF)

In the News: "The Plasticity Potential of Young Brain"

Recent research from the lab focussed on the plasticity potential of young visual brain. The paper by Tinelli et al shows that the effects of the lesions to visual regions of the brain are functionally compensated for, at least partially, when the brain damage occurs perinatally. In addition the authors show that in these cases the non-lesioned visual cortex respondeds not only to stimuli presented to the spared visual field, but also to the blind field. This shows that the brain responds to the lesion with a profound reorganization of the anatomical visual pathways.

Original Article:

Blindsight in children with congenital and acquired cerebral lesions PDF
Cortex, Volume 49, Issue 6, June 2013, Pages 1636-1647
Francesca Tinelli, Guido Marco Cicchini, Roberto Arrighi, Michela Tosetti, Giovanni Cioni, Maria Concetta Morrone

Press Coverage:

Le Scienze [Italian] Read more

La Nazione [Italian] Read more

Il Tirreno [Italian] Read more

click here for a full list of News Articles

Constructing stable spatial maps of the world

New review article by Dave and Concetta summarizing the latest results of on stability across eye movements.


To interact rapidly and effectively with our environment, our brain needs access to a neural representation—or map—of the spatial layout of the external world. However, the construction of such a map poses major challenges to the visual system, given that the images on our retinae depend on where the eyes are looking, and shift each time we move our eyes, head, and body to explore the world. Much research has been devoted to how the stability is achieved, with the debate often polarized between the utility of spatiotopic maps (that remain solid in external coordinates), as opposed to transiently updated retinotopic maps. Our research suggests that the visual system
uses both strategies to maintain stability.

The review accompanies Dave's Perception Lecture at last ECVP in Alghero and puts in a wider context recent work from the lab. (PDF)

See Also:

Turi and Burr, Proc Roy Soc, 2012 (PDF)

Cicchini, Binda, Burr and Morrone, J Neurophys, 2013 (PDF)

Zimmermann, Morrone, Fink and Burr Current Biology, 2013 (PDF)

New Perspectives on Autism published in Trends in Cognitive Sciences

When the world becomes ‘too real’: a Bayesian explanation of autistic perception

Liz Pellicano and David Burr

Perceptual experience is influenced both by incoming sensory information and prior knowledge about the world, a concept recently formalised within Bayesian decision theory. We propose that Bayesian models can be applied to autism, a neurodevelopmental condition with atypicalities in sensation and perception, to pinpoint fundamental differences in perceptual mechanisms. We suggest specifically that attenuated Bayesian priors, ‘hypo-priors’, may be responsible for the unique perceptual experience of autistic people, leading to a tendency to perceive the world more accurately rather than modulated by prior experience. In this account, we consider how hypo-priors might explain key features of autism, the broad range of sensory and other non-social atypicalities, in addition to the phenomenological differences in autistic perception.

(Read More - PDF)

New Research in Journal of Vision

Congratulations to Michela, who's latest paper just got accepted for publication in JOV.

Spatiotemporal dynamics of perisaccadic remapping in humans revealed by classification images

Michela Panichi, David C. Burr, Concetta Morrone and Stefano Baldassi

We actively scan our environment with fast ballistic movements called saccades, which create large and rapid displacements of the image on the retina. At the time of saccades, vision becomes transiently distorted in many ways: Briefly flashed stimuli are displaced in space and in time, and spatial and temporal intervals appear compressed. Here we apply the psychophysical technique of classification images to study the spatiotemporal dynamics of visual mechanisms during saccades. We show that saccades cause gross distortions of the classification images. Before the onset of saccadic eye movements, the positive lobes of the images become enlarged in both space and in time and also shifted in a systematic manner toward the pre-saccadic fixation (in space) and anticipated in time by about 50 ms. The transient reorganization creates a spatiotemporal organization oriented in the direction of saccadic-induced motion at the time of saccades, providing a potential mechanism for integrating stimuli across saccades, facilitating stable and continuous vision in the face of constant eye movements.

(Read More - PDF)

A royal News!

Congratulations to Marco, who's latest paper just got accepted for publication in Proceedings of the Royal Society.

Marco Turi and  David C. Burr

How our perceptual experience of the world remains stable and continuous despite the frequent repositioning eye movements remains very much a mystery. One possibility is that our brain actively constructs spatiotopic representation of the world, which is anchored in external—or at least head-centred—coordinates. In this study, we show that the positional motion aftereffect (the change in apparent position after to motion) is spatially selective in external rather than retinal coordinates, whereas the classic aftereffect (the illusion of motion after prolonged inspection of a moving source) is selective in retinotopic coordinates. The results provide clear evidence for a spatiotopic map in humans: one which can be influenced by image motion.

(Read More - PDF)

New article in Trends in Cognitive Science

Number, texture and crowding

John Ross and  David C. Burr

A recent study shows that selectivity for numerosity emerges as a natural property in deep networks of hierarchical generative models of visual perception. These results, together with recent conceptualizations of crowding and texture, suggest that the ‘sense of number’ is a fundamental visual property, independent of texture and seemingly related attributes.

Number and Texture

(Read More - PDF)

New Research in Journal of Vision

Congratulations to Eckart, who's latest paper just got accepted for publication in JOV.

Visual motion distorts visual and motor space

Eckart Zimmerman, David C. Burr and Concetta Morrone


Much evidence suggests that visual motion can cause severe distortions in the perception of spatial position. In this study, we show that visual motion also distorts saccadic eye movements. Landing positions of saccades performed to objects presented in the vicinity of visual motion were biased in the direction of motion. The targeting errors for both saccades and perceptual reports were maximum during motion onset and were of very similar magnitude under the two conditions. These results suggest that visual motion affects a representation of spatial position, or spatial map, in a similar fashion for visuomotor action as for perception.

(Read More - PDF)

New Research in Journal of Neuroscience

Congratulations to Marco and Roberto, who's latest paper just got accepted for publication in Journal of Neuroscience.

Optimal Encoding of Interval Timing in Expert Percussionists.
Marco Cicchini, Roberto Arrighi, Luca Cecchetti, Marco Giusti and David C. Burr

We measured temporal reproduction in human subjects with various levels of musical expertise: expert drummers, string musicians, and non-musicians. While duration reproduction of the non-percussionists showed a characteristic central tendency or regression to the mean, drummers responded veridically. Furthermore, when the stimuli were auditory tones rather than flashes, all subjects responded veridically. The behavior of all three groups in both modalities is well explained by a Bayesian model that seeks to minimize reproduction errors by incorporating a central tendency prior, a probability density function centered at the mean duration of the sample. We measured separately temporal precision thresholds with a bisection task; thresholds were twice as low in drummers as in the other two groups. These estimates of temporal precision, together with an adaptable Bayesian prior, predict well the reproduction results and the central tendency strategy under all conditions and for all subject groups. These results highlight the efficiency and flexibility of sensorimotor mechanisms estimating temporal duration.

(Read More - PDF)

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