Learngene: From Open-World to Your Learning Task

Qiufeng Wang, Xin Geng, Shuxia Lin, Shiyu Xia, Lei Qi, Ning Xu

Published 2021-06-12Version 1

Although deep learning has made significant progress on fixed large-scale datasets, it typically encounters challenges regarding improperly detecting new/unseen classes in the open-world classification, over-parametrized, and overfitting small samples. In contrast, biological systems can overcome the above difficulties very well. Individuals inherit an innate gene from collective creatures that have evolved over hundreds of millions of years, and can learn new skills through a few examples. Inspired by this, we propose a practical collective-individual paradigm where open-world tasks are trained in sequence using an evolution (expandable) network. To be specific, we innovatively introduce learngene that inherits the meta-knowledge from the collective model and reconstructs a new lightweight individual model for the target task, to realize the collective-individual paradigm. Particularly, we present a novel criterion that can discover the learngene in the collective model, according to the gradient information. Finally, the individual model is trained only with a few samples in the absence of the source data. We demonstrate the effectiveness of our approach in an extensive empirical study and theoretical analysis.