Arslan Chaudhry scite author profile

Incremental learning (IL) has received a lot of attention recently, however, the literature lacks a precise problem definition, proper evaluation settings, and metrics tailored specifically for the IL problem. One of the main objectives of this work is to fill these gaps so as to provide a common ground for better understanding of IL. The main challenge for an IL algorithm is to update the classifier whilst preserving existing knowledge. We observe that, in addition to forgetting, a known issue while preserving knowledge, IL also suffers from a problem we call intransigence, inability of a model to update its knowledge. We introduce two metrics to quantify forgetting and intransigence that allow us to understand, analyse, and gain better insights into the behaviour of IL algorithms. We present RWalk, a generalization of EWC++ (our efficient version of EWC [7]) and Path Integral [26] with a theoretically grounded KL-divergence based perspective. We provide a thorough analysis of various IL algorithms on MNIST and CIFAR-100 datasets. In these experiments, RWalk obtains superior results in terms of accuracy, and also provides a better trade-off between forgetting and intransigence.

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Discovering Class-Specific Pixels for Weakly-Supervised Semantic Segmentation

Chaudhry¹,

Dokania²,

Torr³

2017

130

101

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We propose an approach to discover class-specific pixels for the weakly-supervised semantic segmentation task. We show that properly combining saliency and attention maps allows us to obtain reliable cues capable of significantly boosting the performance. First, we propose a simple yet powerful hierarchical approach to discover the classagnostic salient regions, obtained using a salient object detector, which otherwise would be ignored. Second, we use fully convolutional attention maps to reliably localize the class-specific regions in a given image. We combine these two cues to discover classspecific pixels which are then used as an approximate ground truth for training a CNN. While solving the weakly supervised semantic segmentation task, we ensure that the image-level classification task is also solved in order to enforce the CNN to assign at least one pixel to each object present in the image. Experimentally, on the PASCAL VOC12 val and test sets, we obtain the mIoU of 60.8% and 61.9%, achieving the performance gains of 5.1% and 5.2% compared to the published state-of-the-art results. The code is made publicly available.

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Using Hindsight to Anchor Past Knowledge in Continual Learning

Chaudhry

Gordo

Dokania

et al. 2021

AAAI

124

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In continual learning, the learner faces a stream of data whose distribution changes over time. Modern neural networks are known to suffer under this setting, as they quickly forget previously acquired knowledge. To address such catastrophic forgetting, many continual learning methods implement different types of experience replay, re-learning on past data stored in a small buffer known as episodic memory. In this work, we complement experience replay with a new objective that we call ``anchoring'', where the learner uses bilevel optimization to update its knowledge on the current task, while keeping intact the predictions on some anchor points of past tasks. These anchor points are learned using gradient-based optimization to maximize forgetting, which is approximated by fine-tuning the currently trained model on the episodic memory of past tasks. Experiments on several supervised learning benchmarks for continual learning demonstrate that our approach improves the standard experience replay in terms of both accuracy and forgetting metrics and for various sizes of episodic memory.

show abstract

Using Hindsight to Anchor Past Knowledge in Continual Learning

Chaudhry¹,

Gordo²,

Dokania³

et al. 2020

Preprint

View full text Add to dashboard Cite

Discovering Class-Specific Pixels for Weakly-Supervised Semantic Segmentation

Chaudhry¹,

Dokania²,

Torr³

2017

Preprint

View full text Add to dashboard Cite

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Arslan Chaudhry

Riemannian Walk for Incremental Learning: Understanding Forgetting and Intransigence

Discovering Class-Specific Pixels for Weakly-Supervised Semantic Segmentation

Using Hindsight to Anchor Past Knowledge in Continual Learning

Using Hindsight to Anchor Past Knowledge in Continual Learning

Discovering Class-Specific Pixels for Weakly-Supervised Semantic Segmentation

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