In human adults two functionally and neuro‐anatomically separate systems exist for the use of visual information in perception and the use of visual information to control movements (Milner & Goodale, 1995 , 2008 ). We investigated whether this separation is already functioning in the early stages of the development of reaching. To this end, 6‐ and 7‐month‐old infants were presented with two identical objects at identical distances in front of an illusory Ponzo‐like background that made them appear to be located at different distances. In two further conditions without the illusory background, the two objects were presented at physically different distances. Preferential reaching outcomes indicated that the allocentric distance information contained in the illusory background affected the perception of object distance. Yet, infants' reaching kinematics were only affected by the objects' physical distance and not by the perceptual distance manipulation. These findings were taken as evidence for the two‐visual systems, as proposed by Milner and Goodale ( 2008 ), being functional in early infancy. We discuss the wider implications of this early dissociation. 相似文献
Recent findings have suggested that adults’ and children’s approximate number system (ANS) acuity may be malleable through training, but research on ANS acuity has largely been conducted with adults and children who are from middle- to high-income homes. We conducted 2 experiments to test the malleability of ANS acuity in preschool-aged children from low-income homes and to test how non-numerical stimulus features affected performance. In Experiment 1, mixed-effects models indicated that children significantly improved their ratio achieved across training. Children’s change in probability of responding correctly across sessions was qualified by an interaction with surface area features of the arrays such that children improved their probability of answering correctly across sessions on trials in which numerosity conflicted with the total surface area of object sets significantly more than on trials in which total surface area positively correlated with numerosity. In Experiment 2, we found that children who completed ANS acuity training performed better on an ANS acuity task compared with children in a control group, but they only did so on ANS acuity trials in which numerosity conflicted with the total surface area of object sets. These findings suggest that training affects ANS acuity in children from low-income homes by fostering an ability to focus on numerosity in the face of conflicting non-numerical stimulus features. 相似文献
Accurate interpretations of psychological assessments rely heavily on forthright reporting. However, researchers and practitioners recognize that examinees can easily invalidate their test results by underreporting symptoms or overstating positive attributes. Rogers (2008) delineated two distinct but related forms of positive impression management (PIM): defensiveness (denying symptoms and psychological impairment) and social desirability (putting forth an exaggeratedly positive image). Although these two have often been combined in past research, this study sought to investigate each separately via a mixed within- and between-subjects simulation design. Simulation scenarios included a special rehabilitation program for the defensiveness (DF) condition and a competitive job for social desirability (SD). The study used the Personality Inventory for DSM–5 (PID–5; Krueger, Derringer, Markon, Watson, & Skodol, 2012) and recruited 106 inpatients from a psychiatric hospital. As expected, inpatients with prominent personality traits substantially suppressed them under both PIM conditions. Having shown the susceptibility of the PID–5 to intentional distortion, two empirically derived and conceptually based validity scales were next developed to address this important concern. Pending further validation, they might contribute to screening PIM presentations, thus promoting the PID–5's clinical utility. Continued research is needed across multiscale inventories for differentiating PIM presentations. 相似文献
The epistemology of modality has focused on metaphysical modality and, more recently, counterfactual conditionals. Knowledge of kinds of modality that are not metaphysical has so far gone largely unexplored. Yet other theoretically interesting kinds of modality, such as nomic, practical, and ‘easy’ possibility, are no less puzzling epistemologically. Could Clinton easily have won the 2016 presidential election—was it an easy possibility? Given that she didn’t in fact win the election, how, if at all, can we know whether she easily could have? This paper investigates the epistemology of the broad category of ‘objective’ modality, of which metaphysical modality is a special, limiting case. It argues that the same cognitive mechanisms that are capable of producing knowledge of metaphysical modality are also capable of producing knowledge of all other objective modalities. This conclusion can be used to explain the roles of counterfactual reasoning and the imagination in the epistemology of objective modality.
Through this article, we aim to introduce Holos—a new collaborative environment that allows researchers to carry out experiments based on similarity assessments between stimuli, such as in projective-mapping and sorting tasks. An important feature of Holos is its capacity to assess real-time individual processes during the task. Within the Holos environment, researchers can design experiments on its platform, which can handle four kinds of stimuli: concepts, images, sounds, and videos. In addition, researchers can share their study resources within the scientific community, including stimuli, experimental protocols, and/or the data collected. With a dedicated Android application combined with a tactile human–machine interface, subjects can perform experiments using a tablet to obtain similarity measures between stimuli. On the tablet, the stimuli are displayed as icons that can be dragged with one finger to position them, depending on the ways they are perceived. By recording the x,y coordinates of the stimuli while subjects move the icons, the obtained data can reveal the cognitive processes of the subjects during the experiment. Such data, named digit-tracking data, can be analyzed with the SensoMineR package. In this article, we describe how researchers can design an experiment, how subjects can perform the experiment, and how digit-tracking data can be statistically analyzed within the Holos environment. At the end of the article, a short exemplary experiment is presented. 相似文献
A cornerstone of forensic assessments involves the assessment of response styles, including feigning and malingering. As a forensic relevant instrument (FRI), the Minnesota Multiphasic Personality Inventory-2-Restructured Form (MMPI-2-RF) contains embedded overreporting scales that cover the three major domains: feigned mental disorders (i.e., F-r and Fp-r), feigned cognitive impairment (RBS and FBS-r), and feigned medical complaints (Fs). This meta-analytic review of 30 studies examined the effectiveness of various detection strategies and cut scores for the MMPI-2-RF. As an important clinical concern, several feigning scales (F-r, FBS-r, and RBS) exhibited marked elevations (Ms > 80 T) for genuine responders diagnosed with major depressive or somatoform disorders. However, the Fp-r—a true rare-symptoms detection strategy—proved highly effective for discriminating feigned from genuine psychopathology (ds > .90). For feigned cognitive impairment, the FBS-r produced very large effect sizes with feigned TBI (M d = 1.41); however, its cut scores were more indicative of general feigning than feigned cognitive impairment. Finally, Fs yielded a large effect size (d = 1.23) for feigned medical complaints, but its cut scores were more likely to identify examinees feigning mental disorders (M sensitivity = .74) than medical complaints (M sensitivity = .43). These findings are discussed within the context of clinical forensic evaluations. 相似文献