Dmitry Kazhdan scite author profile

Recurrent Neural Networks (RNNs) have achieved remarkable performance on a range of tasks. A key step to further empowering RNN-based approaches is improving their explainability and interpretability. In this work we present MEME: a model extraction approach capable of approximating RNNs with interpretable models represented by human-understandable concepts and their interactions. We demonstrate how MEME can be applied to two multivariate, continuous data case studies: Room Occupation Prediction, and In-Hospital Mortality Prediction. Using these case-studies, we show how our extracted models can be used to interpret RNNs both locally and globally, by approximating RNN decision-making via interpretable concept interactions.Preprint. Under review.

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MARLeME: A Multi-Agent Reinforcement Learning Model Extraction Library

Kazhdan¹,

Shams²,

Lió³

2020

Preprint

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Failing Conceptually: Concept-Based Explanations of Dataset Shift

Wijaya¹,

Kazhdan²,

Dimanov³

et al. 2021

Preprint

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Despite their remarkable performance on a wide range of visual tasks, machine learning technologies often succumb to data distribution shifts. Consequently, a range of recent work explores techniques for detecting these shifts. Unfortunately, current techniques offer no explanations about what triggers the detection of shifts, thus limiting their utility to provide actionable insights. In this work, we present Concept Bottleneck Shift Detection (CBSD): a novel explainable shift detection method. CBSD provides explanations by identifying and ranking the degree to which high-level human-understandable concepts are affected by shifts. Using two case studies (dSprites and 3dshapes), we demonstrate how CBSD can accurately detect underlying concepts that are affected by shifts and achieve higher detection accuracy compared to state-of-the-art shift detection methods.

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Dmitry Kazhdan

MARLeME: A Multi-Agent Reinforcement Learning Model Extraction Library

Manipulating SGD with Data Ordering Attacks

MEME: Generating RNN Model Explanations via Model Extraction

MARLeME: A Multi-Agent Reinforcement Learning Model Extraction Library

Failing Conceptually: Concept-Based Explanations of Dataset Shift

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