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Self-supervised Learning with Local Contrastive Loss for Detection and Semantic Segmentation

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Abstract:

We present a self-supervised learning (SSL) method suitable for semi-global tasks such as object detection and semantic segmentation. We enforce local consistency between...Show More

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Abstract:

We present a self-supervised learning (SSL) method suitable for semi-global tasks such as object detection and semantic segmentation. We enforce local consistency between self-learned features that represent corresponding image locations of transformed versions of the same image, by minimizing a pixel-level local contrastive (LC) loss during training. LC-loss can be added to existing self-supervised learning methods with minimal overhead. We evaluate our SSL approach on two downstream tasks – object detection and semantic segmentation, using COCO, PASCAL VOC, and CityScapes datasets. Our method outperforms the existing state-of-the-art SSL approaches by 1.9% on COCO object detection, 1.4% on PASCAL VOC detection, and 0.6% on CityScapes segmentation.

Published in: 2023 IEEE/CVF Winter Conference on Applications of Computer Vision (WACV)

Date of Conference: 02-07 January 2023

Date Added to IEEE Xplore: 06 February 2023

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DOI: 10.1109/WACV56688.2023.00558

Conference Location: Waikoloa, HI, USA

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Contents

1. Introduction

Self-supervised learning (SSL) approaches learn generic feature representations from data in the absence of any external supervision. These approaches often solve an in-stance discrimination pretext task in which multiple trans-formations of the same image are required to generate similar learned features. Recent SSL methods have shown remarkable promise in global tasks such as classifying images by training simple classifiers on the features learned via instance discrimination [1], [2], [4], [17], [18]. However, global feature-learning SSL approaches do not explicitly retain spatial information thus rendering them ill-suited for semi-global tasks such as object detection, and instance and semantic segmentation [37], [43].

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Gabriele Inzerillo, Diego Valsesia, Enrico Magli, "Efficient Onboard Multitask AI Architecture Based on Self-Supervised Learning", IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, vol.18, pp.828-838, 2025.

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Yu Zheng, Fugen Zhou, Shangying Liang, Wentao Song, Xiangzhi Bai, "Semantic Segmentation in Thermal Videos: A New Benchmark and Multi-Granularity Contrastive Learning-Based Framework", IEEE Transactions on Intelligent Transportation Systems, vol.24, no.12, pp.14783-14799, 2023.

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Self-supervised Learning with Local Contrastive Loss for Detection and Semantic Segmentation

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Self-supervised Learning with Local Contrastive Loss for Detection and Semantic Segmentation

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