Highly Accurate FMRI ADHD Classification using time distributed multi modal 3D CNNs
This is an incremental improvement for medical imaging researchers, focusing on ADHD diagnosis using fMRI.
The paper tackles ADHD classification from fMRI data by proposing a multi-modal 3D CNN with data augmentation from a 3D GAN, aiming to enhance accuracy, but no concrete results or numbers are provided.
This work proposes an algorithm for fMRI data analysis for the classification of ADHD disorders. There have been several breakthroughs in the analysis of fMRI via 3D convolutional neural networks (CNNs). With these new techniques it is possible to preserve the 3D spatial data of fMRI data. Additionally there have been recent advances in the use of 3D generative adversarial neural networks (GANs) for the generation of normal MRI data. This work utilizes multi modal 3D CNNs with data augmentation from 3D GAN for ADHD prediction from fMRI. By leveraging a 3D-GAN it would be possible to use deepfake data to enhance the accuracy of 3D CNN classification of brain disorders. A comparison will be made between a time distributed single modal 3D CNN model for classification and the modified multi modal model with MRI data as well.