# Representation of High-Dimensional Cancer Cell Morphodynamics in 2-D Latent Space [Paper - TBD](https://void) ## Overview ### Figure 1 ![Latent Representation Pipeline](figures/Figure1.png "Latent Representation Pipeline") ### Examples #### Spheroid ![Spheroid Invasions](figures/Figure2.png "Spheroid Invasions") #### Drug Treatments ![Drug Treatments](figures/DrugTreatments.png "CN03 & Y27632 Drug Treatment") ### Latent Dimensions ![Model Training per Dimension](figures/SI_model_training.png "Model Training") ## Usage Example notebooks can be found in [notebooks/](notebooks/). Source code can be found in [code/](code/). Briefly, the [Tensorflow](https://www.tensorflow.org/) implementation is found in [code/sunlab/sunflow/](code/sunlab/sunflow) and the [PyTorch](https://pytorch.org/) implementation can be found in [code/sunlab/sunflow/](code/sunlab/suntorch). Environments used can be found in the source Yaml files ready to be used with [Anaconda](https://www.anaconda.com/) or related technology. ## Training An example of training a standard autoencoder can be found in [notebooks/Autoencoder.ipynb](notebooks/Autoencoder.ipynb). TODO: More implementations ## Pretrained Model Information The MaxAbsScaler contains the scaling factors to transform the morphological features to the normalized features. The morphological features were derived from 1024x1024 pixel images on a confocal microscope (0.4NA, 10x objective) with a pixel to micron ratio of 1.075268.