0000000000675988

AUTHOR

Cherifi Hocine

showing 2 related works from this author

Full Reference Mesh Visual Quality Assessment Using Pre-Trained Deep Network and Quality Indices

2019

In this paper, we propose an objective quality metric to evaluate the perceived visual quality of 3D meshes. Our method relies on pre-trained convolutional neural network i.e VGG to extract features from the distorted mesh and its reference. Quality indices from well-known mesh visual quality metrics are concatenated with the extracted features resulting a global feature vector. this latter is used to learn the support vector regression (SVR) to predict the final quality score. Experimental results from two subjective databases (LIRIS masking database and LIRIS/EPFL general-purpose database) and comparisons with seven objective metrics cited in the state-of-the-art demonstrate the effective…

business.industryComputer scienceFeature vectormedia_common.quotation_subjectFeature extractionPattern recognitionConvolutional neural networkSupport vector machineQuality ScoreMetric (mathematics)Polygon meshQuality (business)Artificial intelligencebusinessmedia_common2019 15th International Conference on Signal-Image Technology & Internet-Based Systems (SITIS)
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Community detection algorithm evaluation with ground-truth data

2017

Community structure is of paramount importance for the understanding of complex networks. Consequently, there is a tremendous effort in order to develop efficient community detection algorithms. Unfortunately, the issue of a fair assessment of these algorithms is a thriving open question. If the ground-truth community structure is available, various clustering-based metrics are used in order to compare it versus the one discovered by these algorithms. However, these metrics defined at the node level are fairly insensitive to the variation of the overall community structure. To overcome these limitations, we propose to exploit the topological features of the 'community graphs' (where the nod…

Social and Information Networks (cs.SI)FOS: Computer and information sciencesPhysics - Physics and SocietyFOS: Physical sciencesComputer Science - Social and Information NetworksPhysics and Society (physics.soc-ph)
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