The process of perceptual retouch: Nonspecific afferent activation dynamics in explaining visual masking

Bachmann, Talis

doi:10.3758/bf03205926

Cited by 138 publications

(89 citation statements)

References 73 publications

(108 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Such an error pattern rules out interpretations in terms of fastguessing triggered by the mere detection of the prime (Yellott, 1971). The error pattern conflicts also with the hypothesis that primes facilitate or inhibit only the processing of the mask (Bachmann, 1984;Neumann & Klotz, 1994). Further evidence against the latter hypothesis comes from the finding that priming effects increased with increases in SOA, whereas prime recognition decreased with increases in SOA, which renders it unlikely that the priming effect is mediated by perceptual effects of the prime.…”

Section: Discussionmentioning

confidence: 75%

Priming of mental operations by masked stimuli

Mattler

2003

Perception & Psychophysics

115

162

View full text Add to dashboard Cite

Motor responses can be affected by visual stimuli that have been made invisible by masking. Can masked visual stimuli also affect nonmotor operations that are necessary to perform the task? Here, I report priming effects of masked stimuli on operations that were cued by masking stimuli. Cues informed participants about operations that had to be executed with a forthcoming target stimulus. In five experiments, cues indicated (1) the required response, (2) part of the motor response, (3) the stimulus modality of the target stimulus, or (4) the task to be performed on a multidimensional stimulus. Motor and nonmotor priming effects followed comparable time courses, which differed from those of prime recognition. Experiment 5 demonstrated nonmotor priming without prime awareness. Results suggest that motor and nonmotor operations are similarly affected by masked stimuli.

show abstract

Section: Discussionmentioning

confidence: 75%

Priming of mental operations by masked stimuli

Mattler

2003

Perception & Psychophysics

115

162

View full text Add to dashboard Cite

show abstract

“…Selective attention has facilitative, as well as inhibitory, effects in almost all perceptual tasks and regardless of criterion contents (Posner, 1980;Smith, Ratcliff, & Wolfgang, 2004). However, many early theoretical models of masking do not include a term or a mechanism for the effects of attention, implying that these models assume that attention and masking are independent processes (e.g., Bachmann, 1984;Breitmeyer & Ganz, 1976;Bridgeman, 1971;Francis, 2000;Ogmen, 1993;Weisstein, Ozog, & Szoc, 1975). This does not necessarily mean that these models dismiss the role of attention.…”

Section: Introductionmentioning

confidence: 95%

Metacontrast masking and attention do not interact

Agaoglu

Breitmeyer

Öğmen

2016

Atten Percept Psychophys

View full text Add to dashboard Cite

Visual masking and attention have been known to control the transfer of information from sensory memory to visual short-term memory. A natural question is whether these processes operate independently or interact. Recent evidence suggests that studies that reported interactions between masking and attention suffered from ceiling and/or floor effects. The objective of the present study was to investigate whether metacontrast masking and attention interact by using an experimental design in which saturation effects are avoided. We asked observers to report the orientation of a target bar randomly selected from a display containing either two or six bars. The mask was a ring that surrounded the target bar. Attentional load was controlled by set-size and masking strength by the stimulus onset asynchrony between the target bar and the mask ring. We investigated interactions between masking and attention by analyzing two different aspects of performance: (i) the mean absolute response errors and (ii) the distribution of signed response errors. Our results show that attention affects observers' performance without interacting with masking. Statistical modeling of response errors suggests that attention and metacontrast masking exert their effects by independently modulating the probability of Bguessing^b ehavior. Implications of our findings for models of attention are discussed.

show abstract

“…The Perceptual Retouch Theory of Visual Masking A model of visual masking based on PR was introduced by Bachmann ( 1984) and elaborated more recently in his monograph on the psychophysiology of visual masking (Bachmann, 1994). Since interactions between activities of two anatomically distinct pathways assume a key role, one can consider it a two-process model (Bachmann,(997).…”

Section: A Neural Network Model Of Retino-cortical Dynamicsmentioning

confidence: 99%

“…Since the dual-channel, sustained-transient approach to visual masking was introduced about two decades ago, several new models of backward masking and metacontrast have been proposed as alternative approaches to visual masking. In this article, we outline, review, and evaluate three such approaches: an extension of the dual-channel approach as realized in the neural network model of retino-cortical dynamics (Ogmen, 1993), the perceptual retouch theory (Bachmann, 1984(Bachmann, , 1994, and the boundary contour system (Francis, 1997;Grossberg & Mingolla, 1985b). Recent psychophysical and electrophysiological findings relevant to backward masking are reviewed and, whenever possible, are related to the aforementioned models.…”

mentioning

confidence: 99%

“…Third, backward masking can be used as a tool to investigate the temporal sequencing and various levels of information processing in the visual system (for psychophysical approaches, see Bachmann, 1984;Bowen & Wilson, 1994;Michaels & Turvey, 1979;Muise, LeBlanc, Lavoie, & Arsenault, 1991;Turvey, 1973; for neurophysiological approaches, see Bridgeman, 1975Bridgeman, , 1980Kovacs, Vogels, & Orban, 1995;Macknik & Livingstone, 1998;Rolls, Tovee, & Panzeri, 1999;Thompson & Schall, 1999). Psychophysical applications of these masking paradigms often simply assume that the after-coming mask acts to erase visual information or to interrupt its further processing.…”

mentioning

confidence: 99%

See 1 more Smart Citation

Recent models and findings in visual backward masking: A comparison, review, and update

Breitmeyer

Öğmen

2000

Perception & Psychophysics

468

359

View full text Add to dashboard Cite

Visual backward masking not only is an empirically rich and theoretically interesting phenomenon but also has found increasing application as a powerful methodological tool in studies of visual information processing and as a useful instrument for investigating visual function in a variety of specific subject populations. Since the dual-channel, sustained-transient approach to visual masking was introduced about two decades ago, several new models of backward masking and metacontrast have been proposed as alternative approaches to visual masking. In this article, we outline, review, and evaluate three such approaches: an extension of the dual-channel approach as realized in the neural network model of retino-cortical dynamics (Ogmen, 1993), the perceptual retouch theory (Bachmann, 1984(Bachmann, , 1994, and the boundary contour system (Francis, 1997;Grossberg & Mingolla, 1985b). Recent psychophysical and electrophysiological findings relevant to backward masking are reviewed and, whenever possible, are related to the aforementioned models. Besides noting the positive aspects of these models, we also list their problems and suggest changes that may improve them and experiments that can empirically test them.Visual masking occurs whenever the visibility of one stimulus, called the target, is reduced by the presence of another stimulus, designated as the mask. Visual masking has been, and continues to be, a powerful psychophysical tool for investigating the steady-state properties of spatial-processing mechanisms

show abstract

The process of perceptual retouch: Nonspecific afferent activation dynamics in explaining visual masking

Cited by 138 publications

References 73 publications

Priming of mental operations by masked stimuli

Priming of mental operations by masked stimuli

Metacontrast masking and attention do not interact

Recent models and findings in visual backward masking: A comparison, review, and update

Contact Info

Product

Resources

About