Chien Erh Lin scite author profile

This work reports a novel Bundle Adjustment (BA) formulation using a Reproducing Kernel Hilbert Space (RKHS) representation called RKHS-BA. The proposed formulation is correspondence-free, enables the BA to use RGB-D/LiDAR and semantic labels in the optimization directly, and provides a generalization for the photometric loss function commonly used in direct methods. RKHS-BA can incorporate appearance and semantic labels within a continuous spatial-semantic functional representation that does not require optimization via image pyramids. We demonstrate its applications in sliding-window odometry and global LiDAR mapping, which show highly robust performance in extremely challenging scenes and the best tradeoff of generalization and accuracy.

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Progress in symmetry preserving robot perception and control through geometry and learning

Ghaffari

Zhang

Zhu

et al. 2022

Front. Robot. AI

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This article reports on recent progress in robot perception and control methods developed by taking the symmetry of the problem into account. Inspired by existing mathematical tools for studying the symmetry structures of geometric spaces, geometric sensor registration, state estimator, and control methods provide indispensable insights into the problem formulations and generalization of robotics algorithms to challenging unknown environments. When combined with computational methods for learning hard-to-measure quantities, symmetry-preserving methods unleash tremendous performance. The article supports this claim by showcasing experimental results of robot perception, state estimation, and control in real-world scenarios.

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A New Framework for Registration of Semantic Point Clouds from Stereo and RGB-D Cameras

Zhang¹,

Lin²,

Lin³

et al. 2020

Preprint

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This paper reports on a novel nonparametric rigid point cloud registration framework that jointly integrates geometric and semantic measurements such as color or semantic labels into the alignment process and does not require explicit data association. The point clouds are represented as nonparametric functions in a reproducible kernel Hilbert space. The alignment problem is formulated as maximizing the inner product between two functions, essentially a sum of weighted kernels, each of which exploits the local geometric and semantic features. As a result of the continuous models, analytical gradients can be computed, and a local solution can be obtained by optimization over the rigid body transformation group. Besides, we present a new point cloud alignment metric that is intrinsic to the proposed framework and takes into account geometric and semantic information. The evaluations using publicly available stereo and RGB-D datasets show that the proposed method outperforms state-of-the-art outdoor and indoor frame-to-frame registration methods. An open-source GPU implementation is also provided.

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Integration of artificial vision with non-visual peripheral cues to guide mobility

Jeganathan

Lin

Son

et al. 2022

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Chien Erh Lin

Application of an image and environmental sensor network for automated greenhouse insect pest monitoring

A New Framework for Registration of Semantic Point Clouds from Stereo and RGB-D Cameras

Progress in symmetry preserving robot perception and control through geometry and learning

A New Framework for Registration of Semantic Point Clouds from Stereo and RGB-D Cameras

Integration of artificial vision with non-visual peripheral cues to guide mobility

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