SOFTNESS OF LIGHT PASSING THROUGH WINDOWS AND ITS RELATIONSHIP WITH LUMINANCE GRADIENT

Architects and users frequently use window coverings, such as frosted glasses, shoji screens, and lace curtains to create high quality of light. This kind of light is sometimes called “soft light”, and most people feel that it is required in residential spaces. However, the term “soft light” is somewhat vague, and we do not accurately understand what is the “soft light” and how we can create it. The aim of this research is to derive a physical indicator of "ambiguity of brightness-darkness boundary”, which is one of factors for judging the softness of light. We conducted a subjective experiment with 53 evaluation items including the “ambiguity of brightness-darkness boundary” in various actual daylighting spaces. It was found that "ambiguity of brightness-darkness boundary", was not highly evaluated when the average value of the luminance change rate on the wall is high.

Delayed visual feedback of an agent keystroke causes illusory heaviness and stiffness

Imposing a delay between an action (e.g., a limb movement) and its related visual feedback (e.g., a cursor movement on the display) induces a peculiar sensation of heaviness or stiffness. Earlier studies have examined this delay-induced heaviness or stiffness sensation in relation to the non-arbitrary causal relationship between an action and its effect. Here, "non-arbitrary causal relationship" means that an agent's action produces a specific and deterministic pattern of visual feedback; for example, a leftward limb movement consistently and deterministically causes a leftward visual motion. In modern graphical user interfaces, on the other hand, users often control visual information by pressing keys, wherein the relationship between the keystroke and the change in visual information is arbitrary. The present study examined whether the sensation of heaviness/stiffness could be caused when an agent's keystroke produced a delayed arbitrary visual feedback. Participants were asked to press and hold down an assigned key to cause temporal luminance changes in a square centered on the display, which were arbitrary visual feedback of their keystroke. Not only the onset delay of the temporal luminance change from the participant's keystroke but also the speed of the temporal luminance change were examined as a visual cue to heaviness/stiffness. In Experiment 1, the participants' task was to give a rating for the strength of the heaviness and stiffness perceived when they pressed the key. Our results showed that the heaviness and stiffness ratings increased as the delay increased and decreased as the speed increased. To check whether the manipulation of the delay and speed of the visual feedback caused changes in the subjective evaluation of sensorimotor incongruence, in Experiment 2, we asked the participants to give a rating for the sense of agency. The rating scores decreased as the delay increased and increased as the speed increased. The rating scores for the illusory heaviness/stiffness were negatively correlated with the rating scores for the sense of agency. We discuss that the brain determines the heaviness and stiffness during an agent's keystroke based on internalized statistics relating to the delay and speed of the action feedback.

Mindfulness Meditation Influences Implicit but Not Explicit Coding of Temporal Simultaneity

In the meditative state time appears to slow down and in the present moment it expands. However, to date, there is no investigation of the effect of meditative state on the structure of the “psychological moment”; this is the measurable, minimal duration of the moment “now.” In this study, we examined the effect on the psychological moment of a mindfulness intervention against an intervention in which participants listened to classical music. The psychological moment was measured using a simultaneity-detection paradigm from which the threshold between reports that two targets changed luminance simultaneously or with an asynchrony is normally taken as the duration of the moment. In line with previous research, this paradigm allowed for examination of the effects of the subthreshold synchronized, or asynchronized target onsets, which occurred prior to the luminance change of the targets. While there was no overall difference in the psychological moment pre- and post-, and as a function of the type of intervention, a bias against reporting simultaneity following presentation of a subthreshold asynchrony, which lowered thresholds and so shortened the psychological moment, was reduced after the mindfulness intervention. From this we conclude that even brief mindfulness meditation can encourage a more focalized attentional response, which can in turn be used to normalize psychological time.

A Computational Dual-Process Model of Fixation-Duration Control in Natural Scene Viewing

Research on eye-movement control during natural scene viewing has investigated the degree to which the duration of individual fixations can be immediately adjusted to ongoing visual-cognitive processing demands. Results from several studies using the fixation-contingent scene quality paradigm suggest that the timing of fixations adapts to stimulus changes that occur on a fixation-to-fixation basis. Analysis of fixation-duration distributions has revealed that saccade-contingent degradations and enhancements of the scene stimulus have two qualitatively distinct types of influence. The surprise effect begins early in a fixation and is tied to surprising visual events such as unexpected stimulus changes. The encoding effect is tied to difficulties in visual-cognitive processing and occurs relatively late within a fixation. Here, we formalize an existing descriptive account of these two effects (referred to as the dual-process account) by using stochastic simulations. In the computational model, surprise and encoding related influences are implemented as time-dependent changes in the rate at which saccade timing and programming are completed during critical fixations. The model was tested on data from two experiments in which the luminance of the scene image was either decreased or increased during selected critical fixations (Walshe & Nuthmann, Vision Research, 100, 38–46 2014). A counterfactual method was used to remove model components and to identify their specific influence on the fixation_duration distributions. The results suggest that the computational dual-process model provides a good account for the data from the luminance-change studies. We describe how the simulations can be generalized to explain a diverse set of experimental results.

Bottom-up but not Top-down Attention Dominates the Value Representation in the Orbitofrontal Cortex

The orbitofrontal cortex (OFC) is essential for value-based learning and decision making. Understanding the attentional modulation of the representation of value in the OFC provides us key information on its functional roles and links the OFC to other cognitive processes. We examined how top-down and bottom-up attention modulates the value encoding in the OFC. Two macaque monkeys were trained to detect a luminance change at a cued location between a pair of visual stimuli, which were over-trained pictures associated with different amount of juice rewards and, thus, different salience. While the monkeys' behavior and the DLPFC neuronal activities indicated that the monkeys actively directed their attention toward the cued location during the task, the OFC neurons' value encoding, however, was dominated by the bottom-up attention based on stimulus salience and only reflected the top-down attention weakly. The disassociation between the top-down and bottom-up attention signals in the OFC indicates that the OFC occupies an early stage of value information processing in the brain.

Separate contributions of autistic traits and anxious apprehension, but not alexithymia, to emotion processing in faces

Reduced eye fixation has been commonly reported in autistic samples but may be at least partially explained by alexithymia (i.e., difficulty understanding and describing one’s emotional state). Because anxiety is often elevated in autism, and emotion-processing differences have also been observed in anxious samples, anxiety traits may also influence emotion processing within autism. This study tested the contribution of dimensional traits of autism, anxious apprehension, and alexithymia in mediating eye fixation during face processing. Participants included 105 adults from three samples: autistic adults (AS; n = 30), adults with clinically elevated anxiety and no autism (HI-ANX; n = 29), and neurotypical adults without elevated anxiety (NT; n = 46). Experiment 1 used an emotion identification task with dynamic stimuli, while Experiment 2 used a static luminance change detection task with emotional- and neutral-expression static photos. The emotions of interest were joy, anger, and fear. Dimensional mixed-effects models showed that autism traits, but not alexithymia, predicted reduced eye fixation across both tasks. Anxious apprehension was negatively related to response time in Experiment 1 and positively related to eye fixation in Experiment 2. Attentional avoidance of negative stimuli occurred at lower levels of autism traits and higher levels of worry traits. The results highlight the contribution of autism traits to emotional processing and suggest additional effects of worry-related traits.

Cancelling Flash Illusory Line Motion by Cancelling the Attentional Gradient and a Consideration of Consciousness

Illusory line motion (ILM) refers to the perception of motion in a line that is, in fact, presented in full at one time. One form of this illusion (flashILM) occurs when the line is presented between two objects following a brief luminance change in one of them and flashILM is thought to result from exogenous attention being captured by the flash. Exogenous attention fades with increasing delays, which predicts that flashILM should show a similar temporal pattern. Exogenous attention appears to follow flashILM to become more or less equally distributed along the line.The current study examines flashILM in order to test these predictions derived from the attentional explanation for flashILM and the results were consistent with them. The discussion then concludes with an exploratory analysis approach concerning states of consciousness and decision making and suggests a possible role for attention.