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Point Cloud Quality Assessment: Dataset Construction and Learning-based No-reference Metric

Yipeng Liu, Qi Yang, Yiling Xu, Le Yang

2022ACM Transactions on Multimedia Computing Communications and Applications129 citationsDOI

Abstract

Full-reference (FR) point cloud quality assessment (PCQA) has achieved impressive progress in recent years. However, in many cases, obtaining the reference point clouds is difficult, so no-reference (NR) metrics have become a research hotspot. Few researches about NR-PCQA are carried out due to the lack of a large-scale PCQA dataset. In this article, we first build a large-scale PCQA dataset named LS-PCQA, which includes 104 reference point clouds and more than 22,000 distorted samples. In the dataset, each reference point cloud is augmented with 31 types of impairments (e.g., Gaussian noise, contrast distortion, local missing, and compression loss) at 7 distortion levels. Besides, each distorted point cloud is assigned with a pseudo-quality score as its substitute of Mean Opinion Score. Inspired by the hierarchical perception system and considering the intrinsic attributes of point clouds, we propose a NR metric ResSCNN based on sparse convolutional neural network (CNN) to accurately estimate the subjective quality of point clouds. We conduct several experiments to evaluate the performance of the proposed NR metric. The results demonstrate that ResSCNN exhibits the state-of-the-art performance among all the existing NR-PCQA metrics and even outperforms some FR metrics. The dataset presented in this work will be made publicly accessible at https://smt.sjtu.edu.cn . The source code for the proposed ResSCNN can be found at https://github.com/lyp22/ResSCNN .

Topics & Concepts

Computer sciencePoint cloudConvolutional neural networkMetric (unit)Distortion (music)Data miningCloud computingArtificial intelligencePattern recognition (psychology)EconomicsOperations managementAmplifierBandwidth (computing)Computer networkOperating systemImage and Video Quality AssessmentOptical Coherence Tomography ApplicationsOptical measurement and interference techniques
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