How do humans conceptualize time? One clear pattern is that temporal concepts are based on spatial ones, however how this is done is not universally determined in the human brain and varies significantly across cultures.
What information can young children use to aid them in understanding spoken language? Recent work in the Creel lab shows that preschoolers are able to use who is talking to limit the set of things that person might talk about.
Though prediction has been proposed across a variety of neural domains, language has not traditionally been one of them - until recently. Using event-related brain potentials, we show that prediction is part and parcel of sentence comprehension.
Artificial agents such as humanoid robots and interactive animated characters are rapidly becoming participants in many aspects of social and cultural life. With applications in domains such as education and health care, we need to understand human factors guiding our perceptions of and interactions with these agents.
Inhibitory control is the ability to withhold or modify prepotent or planned actions that are no longer appropriate in a behavioral context. We are studying the computational and neurophysiological basis of inhibitory control in healthy individuals and those affected by conditions such as ADHD and stimulant abuse.
The ability to recall our experiences as they evolved over time is truly an impressive feat accomplished in large part through the working of a thumb-sized portion of the brain called the hippocampus. How the brain encodes memories is a difficult, but exciting and burgeoning area of neuroscientific research.
The introduction of computer workstations into the medical interview process makes it important to consider the impact of such technology on older patients as well as new types of interfaces that may better suit the needs of older adults.
ChronoViz is a system to aid annotation, visualization, navigation, and analysis of multimodal time-coded data. Exploiting interactive paper technology, ChronoViz also integrates researcher's paper notes into the composite data set. The goal is to decrease the time and effort required to analyze multimodal data by providing direct indexing and flexible mechanisms to control data exploration.
recent technologies have made it cost-effective to collect diverse types of genome-wide data. computational methods are needed
to combine these data to create a comprehensive view of a given disease or a biological process. similarity network fusion (snF)
solves this problem by constructing networks of samples (e.g., patients) for each available data type and then efficiently fusing
these into one network that represents the full spectrum of underlying data. For example, to create a comprehensive view of a
disease given a cohort of patients, snF computes and fuses patient similarity networks obtained from each of their data types
separately, taking advantage of the complementarity in the data. We used snF to combine mrnA expression, dnA methylation
and micrornA (mirnA) expression data for five cancer data sets. snF substantially outperforms single data type analysis and
established integrative approaches when identifying cancer subtypes and is effective for predicting survival.
Children seem able to efficiently interpret a variety of linguistic cues during speech comprehension, yet have difficulty interpreting sources of nonlinguistic and paralinguistic information that accompany speech. The current study asked whether (paralinguistic) voice-activated role knowledge is rapidly interpreted in coordination with a linguistic cue (a sentential action) during speech comprehension in an eye-tracked sentence comprehension task with children (ages 3–10 years) and college-aged adults. Participants were initially familiarized with 2 talkers who identified their respective roles (e.g., PRINCESS and PIRATE) before hearing a previously introduced talker name an action and object (“I want to hold the sword,” in the pirate’s voice). As the sentence was spoken, eye movements were recorded to 4 objects that varied in relationship to the sentential talker and action (target: SWORD, talker-related: SHIP, action-related: WAND, and unrelated: CARRIAGE). The task was to select the named image. Even young child listeners rapidly combined inferences about talker identity with the action, allowing them to fixate on the target before it was mentioned, although there were developmental and vocabulary differences on this task. Results suggest that children, like adults, store real-world knowledge of a talker’s role and actively use this information to interpret speech.
How does auditory processing change over development? This study assessed preschoolers’ and adults’ sensitivity to pitch contour, pitch height, and timbre in an association-memory paradigm, with both explicit (overt recognition) and implicit measures (visual fixations to melody-linked objects). In the first 2 experiments, child and adult participants associated each of 2 melodies with a cartoon picture, and recognition was tested. Experiment 1 pitted pitch contour cues against pitch height cues, and Experiment 2 pitted contour cues against timbre cues. Although adults were sensitive to multiple cues, children responded predominantly based on pitch height and timbre, with little sensitivity to pitch contour. In Experiment 3, however, children detected changes to all 3 cues well above chance levels. Results overall suggest that contour differences, although readily perceptible, are less memorable to children than to adults. Gradual perceptual learning over development may increase the memorability of pitch contour.
We are evaluating two interventions for dyslexia that involve training the temporal dynamics of the visual system (magnocellular pathway) and the auditory system, and whether the two interventions together have super-additive effects. As a Research Assistant, you would be traveling to one or two of five participating local elementary schools ...
“Raednig thees wrods semes to be esaeir tahn you mgiht hvae tohuhgt; waht colud epxlian tihs?” Could you read the sentence above? Having any trouble understanding or recognizing these words? How possible it could be to understand such a sentence, with/without recognize words? What could you explain your effortless ability ...
The perception and comprehension of others’ actions and body movements is ubiquitous and important. Our lab carries out a range of behavioral, neuroimaging, and neuropsychological experiments on how people perceive others' body movements. In many experiments, we use body movements depicted by point-lights (like this: http://sayginlab.org/bio-highkick.gif). We are also exploring ...
The Center for Human Development (CHD) at UCSD conducts research projects focusing on factors that influence developing minds and personalities. For example, researchers at the CHD ask questions like how and why do we become individuals? What role is played by our experiences? By our genes? How does developing behavior ...
In everyday life there is a boundary between our bodies and the external environment. Is this perceived boundary fixed or can it be altered? What happens to your body perception when you use a tool? What about when you immersed in virtual reality? The Cognitive Neuroscience and Neuropsychology Lab (http://www.sayginlab.org) ...
Movement through the environment demands constant change in how we take in information (our attentional set) and how we use that information to make decisions. The Nitz laboratory studies this dynamic process at its core, by directly examining the neural substrates of attention and spatial cognition through multiple single neuron ...
While it is clear that people around the world talk and think about time in terms of spatial concepts, many questions remain regarding the link between spatial and temporal concepts. The Embodied Cognition lab is interested in understanding cognition from the perspective of the embodied mind, investigating how the peculiarities ...
KPBS article: There's no escaping zombies. They've infected every corner of pop culture and more recently have been shambling into academia. Professor Bradley Voytek combines the living dead and neuroscience in the new book, "Do Zombies Dream of Undead Sheep?"
Don Norman, an engineer and psychologist famous for pushing companies to develop products that are easy to use, is setting up a design lab at UC San Diego, a campus he left decades ago to help shape the future of Apple Computer.
Learners in massive open online courses offered by Coursera can now enroll in 18 new Specializations – a targeted sequence of courses designed to build high-demand skills and subject matter expertise. One of the specializations – “Interaction Design” – is being led by University of California, San Diego Professor Scott Klemmer.