PyTCI
A toolbox that estimates the integration window of a sensory response using the "Temporal Context Invariance" paradigm (TCI).
The TCI method
Integration windows are defined as the time window within which stimuli alter a sensory response and outside of which stimuli have little effect. Integration windows provide a simple and general way to define the analysis timescale of a response. We estimate integration windows by presenting segments of natural stimuli in two different pseudorandom orders, such that the same segment occurs in two different contexts (is surrounded by different segments). We then estimate the smallest segment duration outside of which stimuli have little effect on the response. The TCI paradigm was initially developed to estimate integration windows for biological neural systems:
The method however can be applied to any sensory response, and we have recently used the method to understand how deep speech recognition systems learn to flexibly integrate across multiple timescales:
This toolbox implements the analyses described in the above NeurIPS paper. We estimate context invariance using the "cross-context correlation" and then estimate the integration window by finding the smallest segment duration needed to achieve a given correlation threshold. Note that this approach is not robust to data noise and thus is not appropriate for biological neural systems (we will be releasing a different toolbox soon that addresses this limitation).
Usage
To demonstrate the application of the toolbox, two Jupyter notebooks have been provided in the "Examples" directory:
-
Example-Toy: Shows how to apply the TCI method to a toy model that integrates sound energy within a gamma-distributed window. Covers most of the functionality of the toolbox.
-
Example-DeepSpeech: Shows how to use the TCI method to estimate integration windows from the DeepSpeech2 model described in the paper, implemented in PyTorch. This notebook requires the pretrained model and speech audio clips in
Examples/resources.tarto be extracted and placed in a directory namedExamples/resources. It also has extra dependencies that need to be installed.
NOTE: These notebooks might not render as intended on GitHub. For correct rendering, open them locally in a Jupyter notebook or using nbviewer.
Installation
To install or update this package through pip, run the following command:
pip install git+https://github.com/naplab/PyTCI.git
103 Dec 29, 2022
1 Nov 12, 2021
2 Nov 14, 2022
210 Jan 4, 2023
84 Jan 4, 2023
214 Jan 8, 2023
9 Dec 7, 2022
892 Dec 28, 2022
105 Dec 17, 2022
33 Jan 03, 2023
20 Dec 09, 2021
2.3k Dec 30, 2022
24 Nov 18, 2022
1.2k Dec 26, 2022
1 Nov 10, 2021
72 Dec 24, 2022
55 Oct 04, 2022
9 Jul 14, 2022
349 Dec 08, 2022
72 Dec 20, 2022
31 Oct 19, 2019
183 Dec 28, 2022
101 Jan 01, 2023
8 Dec 04, 2022
77.4k Jan 05, 2023
1 Dec 13, 2021
76 Jan 03, 2023
44 Dec 31, 2022
0 Aug 09, 2022