Abstract
Semantic segmentation models classify pixels into a set of known
(``in-distribution'') visual classes. When deployed in an open world, the
reliability of these models depends on their ability not only to classify
in-distribution pixels but also to detect out-of-distribution (OoD) pixels.
Historically, the poor OoD detection performance of these models has motivated
the design of methods based on model re-training using synthetic training
images that include OoD visual objects. Although successful, these re-trained
methods have two issues: 1) their in-distribution segmentation accuracy may
drop during re-training, and 2) their OoD detection accuracy does not
generalise well to new contexts (e.g., country surroundings) outside the
training set (e.g., city surroundings). In this paper, we mitigate these issues
with: (i) a new residual pattern learning (RPL) module that assists the
segmentation model to detect OoD pixels without affecting the inlier
segmentation performance; and (ii) a novel context-robust contrastive learning
(CoroCL) that enforces RPL to robustly detect OoD pixels among various
contexts. Our approach improves by around 10\% FPR and 7\% AuPRC the previous
state-of-the-art in Fishyscapes, Segment-Me-If-You-Can, and RoadAnomaly
datasets. Our code is available at: https://github.com/yyliu01/RPL.