Continual Learning via Neural Pruning
This addresses the challenge of lifelong learning for AI systems with limited resources, though it is incremental as it builds on existing pruning techniques.
The paper tackles the problem of continual learning in fixed capacity models by introducing Continual Learning via Neural Pruning (CLNP), which uses neural pruning to train subsequent tasks without deteriorating previous task performance, achieving significantly improved results over current weight elasticity methods.
We introduce Continual Learning via Neural Pruning (CLNP), a new method aimed at lifelong learning in fixed capacity models based on neuronal model sparsification. In this method, subsequent tasks are trained using the inactive neurons and filters of the sparsified network and cause zero deterioration to the performance of previous tasks. In order to deal with the possible compromise between model sparsity and performance, we formalize and incorporate the concept of graceful forgetting: the idea that it is preferable to suffer a small amount of forgetting in a controlled manner if it helps regain network capacity and prevents uncontrolled loss of performance during the training of future tasks. CLNP also provides simple continual learning diagnostic tools in terms of the number of free neurons left for the training of future tasks as well as the number of neurons that are being reused. In particular, we see in experiments that CLNP verifies and automatically takes advantage of the fact that the features of earlier layers are more transferable. We show empirically that CLNP leads to significantly improved results over current weight elasticity based methods.