Editorial
In: Developmental science, Band 6, Heft 4
ISSN: 1467-7687
23 Ergebnisse
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In: Developmental science, Band 6, Heft 4
ISSN: 1467-7687
In: Developmental science, Band 1, Heft 2, S. 198-199
ISSN: 1467-7687
In: Developmental science, Band 12, Heft 4
ISSN: 1467-7687
In: Developmental science, Band 12, Heft 1
ISSN: 1467-7687
In: Developmental science, Band 11, Heft 4
ISSN: 1467-7687
In: Developmental science, Band 10, Heft 6
ISSN: 1467-7687
In: Developmental science, Band 10, Heft 1
ISSN: 1467-7687
In: Developmental science, Band 9, Heft 6
ISSN: 1467-7687
In: Developmental science, Band 7, Heft 4, S. 419-421
ISSN: 1467-7687
In: Developmental science, Band 5, Heft 2, S. 151-172
ISSN: 1467-7687
To explore questions of how human infants begin to perceive partly occluded objects, we devised two connectionist models of perceptual development. The models were endowed with an existing ability to detect several kinds of visual information that have been found important in infants' and adults' perception of object unity (motion, co‐motion, common motion, relatability, parallelism, texture and T‐junctions). They were then presented with stimuli consisting of either one or two objects and an occluding screen. The models' task was to determine whether the object or objects were joined when such a percept was ambiguous, after specified amounts of training with events in which a subset of possible visual information was provided. The model that was trained in an enriched environment achieved superior levels of performance and was able to generalize veridical percepts to a wide range of novel stimuli. Implications for perceptual development in humans, current theories of development and origins of knowledge are discussed.
In: Developmental science, Band 5, Heft 2, S. 181-185
ISSN: 1467-7687
In: Developmental science, Band 24, Heft 2
ISSN: 1467-7687
AbstractSpontaneous Motor Tempo (SMT) is influenced by individual differences in age and body size. We present the first data documenting the SMT of infants from 5 to 37 months of age using a simple drumming task. As in late childhood and adulthood, we predicted that infant SMT would slow across the first years of life. However, we find that older infants drum more quickly than younger infants. Furthermore, studies of adults suggest larger bodies prefer slower rhythms. This relationship may be the product of biomechanical resonance, or effects may be driven by rhythmic experience, such as of locomotion. We used infants, whose body size is dissociated from their predominant experience of locomotion as their parent often carries them, to test this argument. We reveal that infant SMT is predicted by parent, but not own, body size, supporting a passive experience‐based argument, and propose that early rhythm may be set by repetitive vestibular stimulation when carried by the caregiver.
In: Developmental science, Band 19, Heft 5, S. 803-816
ISSN: 1467-7687
AbstractIn adults, decisions based on multisensory information can be faster and/or more accurate than those relying on a single sense. However, this finding varies significantly across development. Here we studied speeded responding to audio‐visual targets, a key multisensory function whose development remains unclear. We found that when judging the locations of targets, children aged 4 to 12 years and adults had faster and less variable response times given auditory and visual information together compared with either alone. Comparison of response time distributions with model predictions indicated that children at all ages were integrating (pooling) sensory information to make decisions but that both the overall speed and the efficiency of sensory integration improved with age. The evidence for pooling comes from comparison with the predictions of Miller's seminal 'race model', as well as with a major recent extension of this model and a comparable 'pooling' (coactivation) model. The findings and analyses can reconcile results from previous audio‐visual studies, in which infants showed speed gains exceeding race model predictions in a spatial orienting task (Neilet al., 2006) but children below 7 years did not in speeded reaction time tasks (e.g. Barutchuet al., 2009). Our results provide new evidence for early and sustained abilities to integrate visual and auditory signals for spatial localization from a young age.
In: Developmental science, Band 15, Heft 1, S. 1-1
ISSN: 1467-7687
In: Developmental science, Band 2, Heft 3, S. 306-317
ISSN: 1467-7687
Infants under 7 months of age fail to reach behind an occluding screen to retrieve a desired toy even though they possess sufficient motor skills to do so. However, even by 3.5 months of age they show surprise if the solidity of the hidden toy is violated, suggesting that they know that the hidden toy still exists. We describe a connectionist model that learns to predict the position of objects and to initiate a response towards these objects. The model embodies the dual‐route principle of object information processing characteristic of the cortex. One route develops a spatially invariant surface feature representation of the object whereas the other route develops a feature blind spatial–temporal representation of the object. The model provides an account of the developmental lag between infants' knowledge of hidden objects and their ability to demonstrate that knowledge in an active retrieval task, in terms of the need to integrate information across multiple object representations using (associative) connectionist learning algorithms. Finally, the model predicts the presence of an early dissociation between infants' ability to use surface features (e.g. colour) and spatial–temporal features (e.g. position) when reasoning about hidden objects. Evidence supporting this prediction has now been reported.