Two classes of cognitive mechanisms have been proposed to explain segmentation of continuous sensory input into discrete recurrent constituents: clustering and boundary-finding mechanisms. Clustering mechanisms are based on identifying frequently co-occurring elements and merging them together as parts that form a single constituent. Bracketing (or boundary-finding) mechanisms work by identifying rarely co-occurring elements that correspond to the boundaries between discrete constituents. In a series of behavioral experiments, I tested which mechanisms are at play in the visual modality both during segmentation of a continuous syllabic sequence into discrete word-like constituents and during recognition of segmented constituents. Additional...
Sensory learning – the ability of our perceptual systems to exhibit change and improvement in respon...
The brain performs various cognitive functions by learning the spatiotemporal salient features of th...
Peña, Bonatti, Nespor and Mehler(2002) investigated an artificial language where the structure of wo...
Two classes of cognitive mechanisms have been proposed to explain segmentation of continuous sensory...
First published: 24 December 2019A continuous stream of syllables is segmented into discrete constit...
The extraction of patterns in the environment plays a critical role in many types of human learning,...
Language learning requires mastering multiple tasks, including segmenting speech to identify words, ...
First published: 09 January 2020Statistical learning is a set of cognitive mechanisms allowing for e...
AbstractLanguage learning requires mastering multiple tasks, including segmenting speech to identify...
The human mind decodes, processes, and makes sense of a continual flow of dynamic information, take...
The identification of words in continuous speech, known as speech segmentation, is a critical early ...
Learning often requires splitting continuous signals into recurring units, such as the discrete word...
<p>The term <em>statistical learning</em> was originally used to describe sensitivity to conditional...
Learners often need to extract recurring items from continuous sequences, in both vision and auditio...
A large body of research has demonstrated that humans attend to adjacent co-occurrence statistics wh...
Sensory learning – the ability of our perceptual systems to exhibit change and improvement in respon...
The brain performs various cognitive functions by learning the spatiotemporal salient features of th...
Peña, Bonatti, Nespor and Mehler(2002) investigated an artificial language where the structure of wo...
Two classes of cognitive mechanisms have been proposed to explain segmentation of continuous sensory...
First published: 24 December 2019A continuous stream of syllables is segmented into discrete constit...
The extraction of patterns in the environment plays a critical role in many types of human learning,...
Language learning requires mastering multiple tasks, including segmenting speech to identify words, ...
First published: 09 January 2020Statistical learning is a set of cognitive mechanisms allowing for e...
AbstractLanguage learning requires mastering multiple tasks, including segmenting speech to identify...
The human mind decodes, processes, and makes sense of a continual flow of dynamic information, take...
The identification of words in continuous speech, known as speech segmentation, is a critical early ...
Learning often requires splitting continuous signals into recurring units, such as the discrete word...
<p>The term <em>statistical learning</em> was originally used to describe sensitivity to conditional...
Learners often need to extract recurring items from continuous sequences, in both vision and auditio...
A large body of research has demonstrated that humans attend to adjacent co-occurrence statistics wh...
Sensory learning – the ability of our perceptual systems to exhibit change and improvement in respon...
The brain performs various cognitive functions by learning the spatiotemporal salient features of th...
Peña, Bonatti, Nespor and Mehler(2002) investigated an artificial language where the structure of wo...