Javascript must be enabled to continue!

Unsupervised Monocular Depth Estimation Method Based on Uncertainty Analysis and Retinex Algorithm

Depth estimation of a single image presents a classic problem for computer vision, and is important for the 3D reconstruction of scenes, augmented reality, and object detection. At present, most researchers are beginning to focus on unsupervised monocular depth estimation. This paper proposes solutions to the current depth estimation problem. These solutions include a monocular depth estimation method based on uncertainty analysis, which solves the problem in which a neural network has strong expressive ability but cannot evaluate the reliability of an output result. In addition, this paper proposes a photometric loss function based on the Retinex algorithm, which solves the problem of pulling around pixels due to the presence of moving objects. We objectively compare our method to current mainstream monocular depth estimation methods and obtain satisfactory results.

MDPI AG

Chuanxue Song Chunyang Qi Shixin Song Feng Xiao

Sensors

2020

Title: Unsupervised Monocular Depth Estimation Method Based on Uncertainty Analysis and Retinex Algorithm

Description:

Depth estimation of a single image presents a classic problem for computer vision, and is important for the 3D reconstruction of scenes, augmented reality, and object detection.

At present, most researchers are beginning to focus on unsupervised monocular depth estimation.

This paper proposes solutions to the current depth estimation problem.

These solutions include a monocular depth estimation method based on uncertainty analysis, which solves the problem in which a neural network has strong expressive ability but cannot evaluate the reliability of an output result.

In addition, this paper proposes a photometric loss function based on the Retinex algorithm, which solves the problem of pulling around pixels due to the presence of moving objects.

We objectively compare our method to current mainstream monocular depth estimation methods and obtain satisfactory results.

Back

Background. The physiological basis of spatial perception is traditionally attributed to the binocular system, which integrates the signals coming to the brain from each eye into a...

New Perspectives for 3D Visualization of Dynamic Reservoir Uncertainty

This reference is for an abstract only. A full paper was not submitted for this conference. Abstract 1 Int...

Reserves Uncertainty Calculation Accounting for Parameter Uncertainty

Abstract An important goal of geostatistical modeling is to assess output uncertainty after processing realizations through a transfer function, in particular, to...

The uncertainty–investment relationship: scrutinizing the role of firm size

PurposeThe objective of this paper is threefold. First, it aims to empirically study whether firm-specific/idiosyncratic uncertainty, macroeconomic/aggregate uncertainty and politi...

Heavy Fog Image Enhancement Algorithm Based on Tophat Weighted Bilateral Filtering

A Retinex algorithm based on Tophat weighted bilateral filtering is proposed to enhance the distortion of images in highly heavy foggy weather, which makes it difficult to recogniz...

Monocular Vision-Based Obstacle Height Estimation for Mobile Robot

To ensure that robots can operate reliably in diverse environments, obstacle detection is essential, which requires the acquisition of depth information of the surrounding environm...

A Multi-Exposure Variational Method for Retinex

AbstractRetinex theory explains how the human visual system perceives colors. The goal of retinex is to decompose the reflectance and the illumination from the given images and the...

A novel unsupervised deep learning network for intelligent fault diagnosis of rotating machinery

Generally, the health conditions of rotating machinery are complicated and changeable. Meanwhile, its fault labeled information is mostly unknown. Therefore, it is man-sized to aut...

Email:
Password:

Email:

Unsupervised Monocular Depth Estimation Method Based on Uncertainty Analysis and Retinex Algorithm

Related Results