Theta rythm of navigation: link between path integration and landmark navigation, episodic and semantic memory.
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Rate and temporal code – hippocampal place cells Dynamical representation of odors by oscillating and evolving neural assemblies. Impaired odour discrimination on desynchronization of odour-encoding neural assemblies. Readings: Stopfer M, Bhagavan S, Smith BH, and Laurent G. Lab module: Oscillations - due Sunday, September 23rd at 6pm Homework: Oscillations - due Sunday, September 23rd at 6pm KEY The temporal correlation hypothesis of visual feature integration: still alive and well. Time as coding space? Curr Opin Neurobiol 9: 189- 194, 1999. Beyong the basics: Temporal codes, oscillations, synchrony: Class Notes Part IIīeyond firing rates – oscillations, synchrony and cell assemblies Homework Population vector and contrast enhancement - due Sunday, 9-16 at 6pm - KEYī. Lab module: Receptive fields – due Sunday, 9-16 at 6pmĪppendix: The structure of neocortical circuits
Homework: Contrast enhancement – to be written Reading: Barlow, RB (1969) Inhibitory fields in the Limulus lateral eye. Tuning tuning curves – contrast enhancement – cortical circuits J Comp Physiol 185: 373-378, 1999.Ĥ-credit student Project 1: Color Blindness - indicate when you are available for discussion section here Sensory processing and the network mechanisms for reading neuronal population codes. Homework: Tuning curves – due Sunday, 9-9 at 6pm Real-time control of a robot arm using simultaneously recorded neurons in the motor cortex. Lab module: Neural Codes – due Sunday, 9-9 at 6pm Homework: Coding – due Sunday, 9-9 at 6pm - Key Lab module: Types of model neurons – due Sunday, 9-9 at 6pm Introduction, course logistics, historical overview.Ĭomputing with Neurons: Simplified models of Neurons Please title your homework with your name and the Assignment number." A.
This will bring you to the page that allows you to upload your homework. Homework assignments can be found in the “Homework assignments” folder after clicking the “Assignments” button.When you are ready to submit your homework, click on the "Homework Dropbox" button from the menu and then click the "Send File" button on the next page. To find the course, click the “All Blackboard sites” tab after setting up an account and logging in, and search for “Computational neuroscience”. Homework will be submitted via Blackboard. Midterm posted HERE - it is a take home exam due on FRIDAY, October 26nd at 6pm to Professor Linster (not blackboard) by email ( who submitted for the original deadline can resubmit if they so wish. Hand in a draft or finished product or make an appointment.įriday 11/17 at 3pm meeting about STDP project NO MEETING ABOUT Phase precession assigment during week of October 8th.
Wednesday, September 26th 10 am (W245 Mudd) and Friday, September 28th 3 pm (W245 Mudd) - Contrast assignment Wednesday, September 19th 10 am (W245 Mudd), Friday, September 21st 3pm (W245 Mudd) - COLOR Vision assignment Be aware that this does not mean you should not study!ĪNNOUNCEMENT: Meeting times for 4-credit students: All quizes, homeworks, lab modules, projects and exams are open book, you can use your notes and any information sources you choose. There will be a mid-term and final, both are take home. There will be five in class quizzes, for each student the quiz with the worst grade will be dropped. Some homework wil be accompanied by a short blackboard multiple choice quiz. Homework will be posted here and on blackboard. Homework and lab modules are due at 6pm on Sunday. For some classes, I will use slides and also post those on the web. Notes contain some or most of what I will say in class and are meant to reduce your note taking. The appendices contain background material useful for those not experts on certain topics. Readings are mandatory and I will assume that you have read them. The syllabus includes the lecture schedule as well as readings, assignments and dates for quizes. Introduction to Computational Neuroscience
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