Occurrence | Teaching period |
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A | Semester 2 2023-24 |
We regularly make quick and accurate judgments of the actions and behaviour of other individuals, this process is critical for our successful interactions within our complex social environment. We are able to immediately recognise hand, body and face actions, but we can also use this information to interpret the action goal as well as infer the agent's internal thought processes. A considerable proportion of our brain is dedicated to the perception of actions and human behaviour, and it is vital for our evolutionary success. For example, it is very important that we distinguish foes from friends, or find and interact successfully with potential mates.
During this module we will explore how perception of actions and human behaviour reflects the function of the underlying neurophysiological mechanisms. We will examine the coding of actions by neurons, interactions between neurons to form brain circuits and systems, and how the perception of actions and behaviour relies on the function of these brain systems.
Students enrolling on this module should demonstrate a good understanding of core knowledge in cognitive psychology, as well as intermediate skills in quantitative statistical analyses.
Task | % of module mark |
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Essay/coursework | 100 |
None
Task | % of module mark |
---|---|
Essay/coursework | 100 |
The marks on all assessed work will be provided on e-vision.
Sample Reading:
Decety, J., & Grezes, J. (1999). Neural mechanisms subserving the perception of human actions. Trends in cognitive sciences, 3 (5), 172-178.
Rizzolatti, G., Sinigaglia, C. (2010) The functional role of the the parieto-frontal mirror circuit: interpretations and misinterpretations. Nature Reviews Neuroscience. Vol. 11 pp 264-274
Giese, M.A., Poggio, T. (2003) Neural mechanisms for the recognition of biological movements. Nature Reviews Neuroscience. Vol. 4 . pp. 179-192
Ansuini, C., Cavallo, A., Bertone, C., Becchio, C. (2015) Intentions in the brain: The unveiling of Mister Hyde. The Neuroscientist. Vol. 21(2) pp. 126-135