1,163 research outputs found
Why Use Noise?
Measuring the dependence of visual sensitivity on parameters of the visual stimulus is a mainstay of vision science. However, it is not widely appreciated that visual sensitivity is a product of two factors that are each invariant with respect to many properties of the stimulus and task. By estimating these two factors, one can isolate visual processes more easily than by using sensitivity measures alone. The underlying idea is that noise limits all forms of communication, including vision. As an empirical matter, it is often useful to measure the human observer’s threshold with and without a noise background added to the display, to disentangle the observer’s ability from the observer’s intrinsic noise. And when we know how much noise there is, it is often useful to calculate ideal performance of the task at hand, as a benchmark for human performance. This strips away the intrinsic difficulty of the task to reveal a pure measure of human ability. Here we show how to do the factoring of sensitivity into efficiency and equivalent noise, and we document the invariances of the two factors
An epidemiologic survey of celiac disease in the Terni area (Umbria, Italy) in 2002-2010
The present work is an epidemiology survey of celiac disease in the
province of Terni (Umbria, Italy) in 2002?2010. Data were collected
from the Local Health Unit (LHU) 4 (ASL 4), Terni database
and were extrapolated from the overall population of 232,540 (as
of 2010) by identifying residents with prescription charge exemptions
for celiac disease-oriented drugs. Prevalence and incidence
analysis over the timeframe being examined showed that prevalence
(330 cases in 2010) has consistently been increasing from 2002 to
2010, whereas incidence has remained essentially the same with
minor, yearly fluctuations. Both prevalence and incidence were
higher in females than in males. Most patients were diagnosed as
young adults, with the highest rates in the 10-14, 35-40 and 55-60
age groups. Thus, in the area of investigation, there is evidence for
consistent delayed diagnosis, raising the possibility that the atypical
form the disease, more difficult to recognize and more likely to
escape early diagnosis, may have become increasingly commoner
over time. Because the current prevalence of the disease in the Terni
area is estimated to approximate 1%, the anticipated number of
cases should amount to 2,325, which value contrasts with the currently
reported 330 diagnoses. It is suggested that the current illnessdefining
criteria should be revised so to implement early diagnosis
and improve the patients? quality of life and access to treatment
Grouping in object recognition: The role of a Gestalt law in letter identification
The Gestalt psychologists reported a set of laws describing how vision groups elements to recognize objects. The Gestalt laws “prescribe for us what we are to recognize ‘as one thing’” (Köhler, 1920). Were they right? Does object recognition involve grouping? Tests of the laws of grouping have been favourable, but mostly assessed only detection, not identification, of the compound object. The grouping of elements seen in the detection experiments with lattices and “snakes in the grass” is compelling, but falls far short of the vivid everyday experience of recognizing a familiar, meaningful, named thing, which mediates the ordinary identification of an object. Thus, after nearly a century, there is hardly any evidence that grouping plays a role in ordinary object recognition. To assess grouping in object recognition, we made letters out of grating patches and measured threshold contrast for identifying these letters in visual noise as a function of perturbation of grating orientation, phase, and offset. We define a new measure, “wiggle”, to characterize the degree to which these various perturbations violate the Gestalt law of good continuation. We find that efficiency for letter identification is inversely proportional to wiggle and is wholly determined by wiggle, independent of how the wiggle was produced. Thus the effects of three different kinds of shape perturbation on letter identifiability are predicted by a single measure of goodness of continuation. This shows that letter identification obeys the Gestalt law of good continuation and may be the first confirmation of the original Gestalt claim that object recognition involves grouping
A clinical test for visual crowding
Crowding is a major limitation of visual perception. Because of crowding, a simple object, like a letter, can only be recognized if clutter is a certain critical spacing away. Crowding is only weakly associated with acuity. The critical spacing of crowding is lowest in the normal fovea, and grows with increasing eccentricity in peripheral vision. Foveal crowding is more prominent in certain patient groups, including those with strabismic amblyopia and apperceptive agnosia. Crowding may lessen with age during childhood as reading speed increases. The range of crowding predicts much of the slowness of reading in children with developmental dyslexia. There is tantalizing evidence suggesting that the critical spacing of crowding indicates neural density (participating neurons per square deg) in the visual cortex. Thus, for basic and applied reasons, it would be very interesting to measure foveal crowding clinically in children and adults with normal and impaired vision, and to track the development of crowding during childhood. While many labs routinely measure peripheral crowding as part of their basic research in visual perception, current tests are not well suited to routine clinical testing because they take too much time, require good fixation, and are mostly not applicable to foveal vision. Here we report a new test for clinical measurement of crowding in the fovea. It is quick and accurate, works well with children and adults, and we expect it to work well with dementia patients as well. The task is to identify a numerical digit, 1-9, using a new “Pelli” font that is identifiable at tiny width (0.02 deg, about 1 minarc, in normal adult fovea). This allows quick measurement of the very small (0.05 deg) critical spacing in the normal adult fovea, as well as with other groups that have higher critical spacing. Preliminary results from healthy adults and children are presented
Oscillatory activity in the infant brain reflects object maintenance
The apparent failure of infants to understand "object permanence" by reaching for hidden objects is perhaps the most striking and debated phenomenon in cognitive development. Of particular interest is the extent to which infants perceive and remember objects in a similar way to that of adults. Here we report two findings that clarify infant object processing. The first is that 6-mo-old infants are sensitive to visual cues to occlusion, particularly gradual deletion. The second finding is that oscillatory electroencephalogram activity recorded over right temporal channels is involved in object maintenance. This effect occurs only after disappearance in a manner consistent with occlusion and the object's continued existence
Spatial-frequency channels, shape bias, and adversarial robustness
What spatial frequency information do humans and neural networks use to
recognize objects? In neuroscience, critical band masking is an established
tool that can reveal the frequency-selective filters used for object
recognition. Critical band masking measures the sensitivity of recognition
performance to noise added at each spatial frequency. Existing critical band
masking studies show that humans recognize periodic patterns (gratings) and
letters by means of a spatial-frequency filter (or "channel'') that has a
frequency bandwidth of one octave (doubling of frequency). Here, we introduce
critical band masking as a task for network-human comparison and test 14 humans
and 76 neural networks on 16-way ImageNet categorization in the presence of
narrowband noise. We find that humans recognize objects in natural images using
the same one-octave-wide channel that they use for letters and gratings, making
it a canonical feature of human object recognition. On the other hand, the
neural network channel, across various architectures and training strategies,
is 2-4 times as wide as the human channel. In other words, networks are
vulnerable to high and low frequency noise that does not affect human
performance. Adversarial and augmented-image training are commonly used to
increase network robustness and shape bias. Does this training align network
and human object recognition channels? Three network channel properties
(bandwidth, center frequency, peak noise sensitivity) correlate strongly with
shape bias (53% variance explained) and with robustness of
adversarially-trained networks (74% variance explained). Adversarial training
increases robustness but expands the channel bandwidth even further away from
the human bandwidth. Thus, critical band masking reveals that the network
channel is more than twice as wide as the human channel, and that adversarial
training only increases this difference.Comment: Accepted to Neural Information Processing Systems (NeurIPS) 2023
(Oral Presentation
Agnosic vision is like peripheral vision, which is limited by crowding
Abstract Visual agnosia is a neuropsychological impairment of visual object recognition despite near-normal acuity and visual fields. A century of research has provided only a rudimentary account of the functional damage underlying this deficit. We find that the object-recognition ability of agnosic patients viewing an object directly is like that of normally-sighted observers viewing it indirectly, with peripheral vision. Thus, agnosic vision is like peripheral vision. We obtained 14 visual-object-recognition tests that are commonly used for diagnosis of visual agnosia. Our "standard" normal observer took these tests at various eccentricities in his periphery. Analyzing the published data of 32 apperceptive agnosia patients and a group of 14 posterior cortical atrophy (PCA) patients on these tests, we find that each patient's pattern of object recognition deficits is well characterized by one number, the equivalent eccentricity at which our standard observer's peripheral vision is like the central vision of the agnosic patient. In other words, each agnosic patient's equivalent eccentricity is conserved across tests. Across patients, equivalent eccentricity ranges from 4 to 40 deg, which rates severity of the visual deficit. In normal peripheral vision, the required size to perceive a simple image (e.g., an isolated letter) is limited by acuity, and that for a complex image (e.g., a face or a word) is limited by crowding. In crowding, adjacent simple objects appear unrecognizably jumbled unless their spacing exceeds the crowding distance, which grows linearly with eccentricity. Besides conservation of equivalent eccentricity across object-recognition tests, we also find conservation, from eccentricity to agnosia, of the relative susceptibility of recognition of ten visual tests. These findings show that agnosic vision is like eccentric vision. Whence crowding? Peripheral vision, strabismic amblyopia, and possibly apperceptive agnosia are all limited by crowding, making it urgent to know what drives crowding. Acuity does not (Song et al., 2014), but neural density might: neurons per deg2 in the crowding-relevant cortical area
Error-Free 10.7 Gb/s Digital Transmission over 2 km Optical Link Using an Ultra-Low-Voltage Electro-Optic Modulator
We demonstrate the feasibility of 10.7 Gb/s error-free (BER < 10-12) optical transmission on distances up to 2 km using a recently developed ultra-low-voltage commercial Electro-Optic Modulator (EOM) that is driven by 0.6 Vpp and with an optical input power of 1 mW. Given this low voltage operation, the modulator could be driven directly from the detectors’ board signals without the need of any further amplification reducing significantly the power dissipation and the material budget
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