Éloi Zablocki scite author profile

This survey reviews explainability methods for vision-based self-driving systems. The concept of explainability has several facets and the need for explainability is strong in driving, a safety-critical application. Gathering contributions from several research fields, namely computer vision, deep learning, autonomous driving, explainable AI (X-AI), this survey tackles several points. First, it discusses definitions, context, and motivation for gaining more interpretability and explainability from self-driving systems. Second, major recent state-of-the-art approaches to develop self-driving systems are quickly presented. Third, methods providing explanations to a black-box self-driving system in a post-hoc fashion are comprehensively organized and detailed. Fourth, approaches from the literature that aim at building more interpretable self-driving systems by design are presented and discussed in detail. Finally, remaining open-challenges and potential future research directions are identified and examined.

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Incorporating Visual Semantics into Sentence Representations within a Grounded Space

Bordes¹,

Zablocki²,

Soulier³

et al. 2019

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Language grounding is an active field aiming at enriching textual representations with visual information. Generally, textual and visual elements are embedded in the same representation space, which implicitly assumes a one-toone correspondence between modalities. This hypothesis does not hold when representing words, and becomes problematic when used to learn sentence representations -the focus of this paper -as a visual scene can be described by a wide variety of sentences. To overcome this limitation, we propose to transfer visual information to textual representations by learning an intermediate representation space: the grounded space. We further propose two new complementary objectives ensuring that (1) sentences associated with the same visual content are close in the grounded space and (2) similarities between related elements are preserved across modalities. We show that this model outperforms the previous state-of-the-art on classification and semantic relatedness tasks. * In the Computer Vision community, grounding can also refer to the task of linking phrases with image regions (Xiao et al., 2017), but this is not the focus of the present paper.

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STEEX: Steering Counterfactual Explanations with Semantics

Jacob

Zablocki

Ben-younes

et al. 2022

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Explainability of Deep Vision-Based Autonomous Driving Systems: Review and Challenges

et al. 2022

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LiDARTouch: Monocular metric depth estimation with a few-beam LiDAR

Bartoccioni

Zablocki

Pérez

et al. 2023

Computer Vision and Image Understanding

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Éloi Zablocki

Explainability of deep vision-based autonomous driving systems: Review and challenges

Incorporating Visual Semantics into Sentence Representations within a Grounded Space

STEEX: Steering Counterfactual Explanations with Semantics

Explainability of Deep Vision-Based Autonomous Driving Systems: Review and Challenges

LiDARTouch: Monocular metric depth estimation with a few-beam LiDAR

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