Xinyu Du scite author profile

In this paper, we propose a novel model for the computational color constancy, inspired by the amazing ability of the human vision system (HVS) to perceive the color of objects largely constant as the light source color changes. The proposed model imitates the color processing mechanisms in the specific level of the retina, the first stage of the HVS, from the adaptation emerging in the layers of cone photoreceptors and horizontal cells (HCs) to the color-opponent mechanism and disinhibition effect of the non-classical receptive field in the layer of retinal ganglion cells (RGCs). In particular, HC modulation provides a global color correction with cone-specific lateral gain control, and the following RGCs refine the processing with iterative adaptation until all the three opponent channels reach their stable states (i.e., obtain stable outputs). Instead of explicitly estimating the scene illuminant(s), such as most existing algorithms, our model directly removes the effect of scene illuminant. Evaluations on four commonly used color constancy data sets show that the proposed model produces competitive results in comparison with the state-of-the-art methods for the scenes under either single or multiple illuminants. The results indicate that single opponency, especially the disinhibitory effect emerging in the receptive field's subunit-structured surround of RGCs, plays an important role in removing scene illuminant(s) by inherently distinguishing the spatial structures of surfaces from extensive illuminant(s).

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Remaining useful life prediction based on noisy condition monitoring signals using constrained Kalman filter

Son

Zhou

Sankavaram

et al. 2016

Reliability Engineering & System Safety

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In this paper, a statistical prognostic method to predict the remaining useful life (RUL) of individual units based on noisy condition monitoring signals is proposed. The prediction accuracy of existing data-driven prognostic methods depends on the capability of accurately modeling the evolution of condition monitoring (CM) signals. Therefore, it is inevitable that the RUL prediction accuracy depends on the amount of random noise in CM signals. When signals are contaminated by a large amount of random noise, RUL prediction even becomes infeasible in some cases. To mitigate this issue, a robust RUL prediction method based on constrained Kalman filter is proposed. The proposed method models the CM signals subject to a set of inequality constraints so that satisfactory prediction accuracy can be achieved regardless of the noise level of signal evolution. The advantageous features of the proposed RUL prediction method is demonstrated by both numerical study and case study with real world data from automotive lead-acid batteries.

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Automatic laser profile recognition and fast tracking for structured light measurement using deep learning and template matching

et al. 2021

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Nonparametric-Condition-Based Remaining Useful Life Prediction Incorporating External Factors

et al. 2018

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Remaining useful life prediction based on the mixed effects model with mixture prior distribution

et al. 2017

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Xinyu Du

A Retinal Mechanism Inspired Color Constancy Model

Remaining useful life prediction based on noisy condition monitoring signals using constrained Kalman filter

Automatic laser profile recognition and fast tracking for structured light measurement using deep learning and template matching

Nonparametric-Condition-Based Remaining Useful Life Prediction Incorporating External Factors

Remaining useful life prediction based on the mixed effects model with mixture prior distribution

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