BSc Computer Science (Human Computer Interaction) / Course details
Year of entry: 2021
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Course unit details:
Learning, Memory & Cognition (E)
|Unit level||Level 3|
|Teaching period(s)||Semester 2|
|Offered by||School of Biological Sciences|
|Available as a free choice unit?||No|
Learning, Memory and Cognition will introduce you to the discipline of cognitive neuroscience and examine how central nervous system regions in invertebrates and mammals interact to produce behaviour. You will study the neural bases for learning and memory and explore how different types of memory are supported by different brain systems. Insight will be gained into how neurological cases and experimental approaches extend our understanding of normal brain function and how these functions are localised across animal species. Examples of the lecture topics covered are ’Learning, memory and amnesia’, ’Cerebral localization of cognitive function’, and ’Introduction to Cognition.’
|Unit title||Unit code||Requirement type||Description|
Introduce students to the discipline of cognitive neuroscience and examine how CNS regions in invertebrates, simple mammals, monkeys and humans interact to produce behaviour.
Students should be able to understand the neural bases for learning and memory in neural systems and explain how different types of memory are supported by different brain systems. Students will also gain insight into how neurological cases and experimental approaches extend our understanding of normal brain function and how those functions are localised across animal species. The course will also focus on how synaptic changes provide the cellular bases for learning and memory.
Introduction to Cognition – Discussion of early models for animal memory, such as behaviourism and cognitive mapping, and how these evolved into the more recent field of cognitive neuroscience. Introduction to the concepts of learning, memory formation and memory retrieval.
Learning, memory and amnesia - Discussion of song learning, navigation and migration in birds. Evidence from mammals that different forms of learning are supported by discrete neural systems. Consideration of the neural bases for memory loss across species. How memory is used to direct and control behaviour with particular focus on the role of prefrontal cortex in goal-oriented activity.
Cerebral localization of cognitive function - Discussion of language/communication as an example of lateralization of cognitive function in humans and other species. Importance of split-brain patients in understanding hemispheric lateralization.
Neuronal circuitry and the cellular mechanisms for memory acquisition and storage - How synaptic plasticity provides a model for memory processes within cell assemblies. This will help students link these cellular processes to learning and behaviour topics covered in earlier lectures. A particular focus will be on how different EEG rhythms can support the representation of information in rodent and human brain.
How we can study memory processes in human brain. Specific coverage here will be on how functional imaging in the human brain can reveal the neural circuits responsible familiarity or recall.
We are developing a number of eLearning resources, including topics such as synaptic plasticity and episodic memory
- Analytical skills
- MCQ eLearning exam
- Problem solving
- MCQ eLearning exam
- Written communication
- Written examination in which students must choose two essay titles to answer
2 hour written examination - students choose 2 essay titles (95%);
Other - 3 MCQ eLearning exams (5%).
MCQ exam will provide feedback on students’ progress and key areas for improvement.
|Scheduled activity hours|
|Independent study hours|
|John Gigg||Unit coordinator|