Nested multi-instance classification
This addresses classification problems where inputs are groups rather than single instances, offering incremental improvements for domains like image analysis.
The paper tackles classification tasks with groups of images or data instances by introducing a nested multi-instance deep network, which outperforms baseline methods on real-world and public datasets through techniques like handling missing instances and manual dropout.
There are classification tasks that take as inputs groups of images rather than single images. In order to address such situations, we introduce a nested multi-instance deep network. The approach is generic in that it is applicable to general data instances, not just images. The network has several convolutional neural networks grouped together at different stages. This primarily differs from other previous works in that we organize instances into relevant groups that are treated differently. We also introduce a method to replace instances that are missing which successfully creates neutral input instances and consistently outperforms standard fill-in methods in real world use cases. In addition, we propose a method for manual dropout when a whole group of instances is missing that allows us to use richer training data and obtain higher accuracy at the end of training. With specific pretraining, we find that the model works to great effect on our real world and pub-lic datasets in comparison to baseline methods, justifying the different treatment among groups of instances.