This final hands-on analysis tutorial walks users through the last visualization steps in the cellular data.
This tutorial instructs users how to use MATLAB to programmatically convert data from cells to a matrix.
In this tutorial, users will learn how to identify and remove background noise, or "blur", an important step in isolating cell bodies from image data.
This lesson teaches users how MATLAB can be used to apply image processing techniques to identify cell bodies based on contiguity.
This tutorial demonstrates how to extract the time course of calcium activity from each clusters of neuron somata, and store the data in a MATLAB matrix.
This lesson demonstrates how to use MATLAB to implement a multivariate dimension reduction method, PCA, on time series data.
This lesson explores how researchers try to understand neural networks, particularly in the case of observing neural activity.
This introductory lesson welcomes users to the virtual learning series, explaining some of the background behind open-source miniscopes, as well as outlining the rest of the lessons in this course.
This lesson provides an overview of the Miniscope project, explaining the motivation behind the how and why of Miniscope development, why Miniscopes may be useful for researchers, and the differences between previous and current versions.
This lesson will go through the theory and practical techniques for implanting a GRIN lens for imaging in mice.
This lesson provides instruction on how to build a Miniscope and stream data, including an overview of the software involved.