Ting-Hsuan Liao scite author profile

Many unsupervised domain adaptation (UDA) methods have been proposed to bridge the domain gap by utilizing domain invariant information. Most approaches have chosen depth as such information and achieved remarkable successes. Despite their effectiveness, using depth as domain invariant information in UDA tasks may lead to multiple issues, such as excessively high extraction costs and difficulties in achieving a reliable prediction quality. As a result, we introduce Edge Learning based Domain Adaptation (ELDA), a framework which incorporates edge information into its training process to serve as a type of domain invariant information. In our experiments, we quantitatively and qualitatively demonstrate that the incorporation of edge information is indeed beneficial and effective, and enables ELDA to outperform the contemporary state-of-the-art methods on two commonly adopted benchmarks for semantic segmentation based UDA tasks. In addition, we show that ELDA is able to better separate the feature distributions of different classes. We further provide ablation analysis to justify our design decisions.

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Pixel-Wise Prediction based Visual Odometry via Uncertainty Estimation

Chen

Liao

Yang

et al. 2023

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Pixel-Wise Prediction based Visual Odometry via Uncertainty Estimation

Chen¹,

Liao²,

Yang³

et al. 2022

Preprint

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This paper introduces pixel-wise prediction based visual odometry (PWVO), which is a dense prediction task that evaluates the values of translation and rotation for every pixel in its input observations. PWVO employs uncertainty estimation to identify the noisy regions in the input observations, and adopts a selection mechanism to integrate pixel-wise predictions based on the estimated uncertainty maps to derive the final translation and rotation. In order to train PWVO in a comprehensive fashion, we further develop a data generation workflow for generating synthetic training data. The experimental results show that PWVO is able to deliver favorable results. In addition, our analyses validate the effectiveness of the designs adopted in PWVO, and demonstrate that the uncertainty maps estimated by PWVO is capable of capturing the noises in its input observations.

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Ting-Hsuan Liao

Investigation of Factorized Optical Flows as Mid-Level Representations

ELDA: Using Edges to Have an Edge on Semantic Segmentation Based UDA

Pixel-Wise Prediction based Visual Odometry via Uncertainty Estimation

Pixel-Wise Prediction based Visual Odometry via Uncertainty Estimation

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