Keyword search (4,163 papers available)

"Sensors (Basel)" Category Publications:

Title Authors PubMed ID
1 On the Impact of Biceps Muscle Fatigue in Human Activity Recognition. Elshafei M, Costa DE, Shihab E 33557239
ENCS
2 Towards Detecting Biceps Muscle Fatigue in Gym Activity Using Wearables. Elshafei M, Shihab E 33498702
ENCS
3 Finite Element Modelling of Bandgap Engineered Graphene FET with the Application in Sensing Methanethiol Biomarker. Singh P, Abedini Sohi P, Kahrizi M 33467459
ENCS
4 A Benchmark of Data Stream Classification for Human Activity Recognition on Connected Objects. Khannouz M; Glatard T; 33202905
ENCS
5 Contactless Capacitive Electrocardiography Using Hybrid Flexible Printed Electrodes. Lessard-Tremblay M, Weeks J, Morelli L, Cowan G, Gagnon G, Zednik RJ 32927651
ENCS
6 Determining the Optimal Restricted Driving Zone Using Genetic Algorithm in a Smart City. Azami P, Jan T, Iranmanesh S, Ameri Sianaki O, Hajiebrahimi S 32316356
ENCS
7 A Quantitative Comparison of Overlapping and Non-Overlapping Sliding Windows for Human Activity Recognition Using Inertial Sensors. Dehghani A, Sarbishei O, Glatard T, Shihab E 31752158
ENCS
8 Characterization and Efficient Management of Big Data in IoT-Driven Smart City Development. Alsaig A, Alagar V, Chammaa Z, Shiri N 31141899
CONCORDIA
9 A Crowdsensing Based Analytical Framework for Perceptional Degradation of OTT Web Browsing. Li K, Wang H, Xu X, Du Y, Liu Y, Ahmad MO 29762493
ENCS
10 Fast Feature-Preserving Approach to Carpal Bone Surface Denoising. Salim I, Hamza AB 30037109
ENCS
11 Big Data-Driven Cellular Information Detection and Coverage Identification. Wang H, Xie S, Li K, Ahmad MO 30813353
ENCS
12 Surface Profiling and Core Evaluation of Aluminum Honeycomb Sandwich Aircraft Panels Using Multi-Frequency Eddy Current Testing. Reyno T, Underhill PR, Krause TW, Marsden C, Wowk D 28906434
PHYSICS

 

Title:Fast Feature-Preserving Approach to Carpal Bone Surface Denoising.
Authors:Salim IHamza AB
Link:https://www.ncbi.nlm.nih.gov/pubmed/30037109?dopt=Abstract
Publication:
Keywords:
PMID:30037109 Category:Sensors (Basel) Date Added:2019-06-04
Dept Affiliation: ENCS
1 Concordia Institute for Information Systems Engineering, Concordia University, Montreal, QC H3G 1M8, Canada. ibrahim_salim1976@yahoo.com.
2 Concordia Institute for Information Systems Engineering, Concordia University, Montreal, QC H3G 1M8, Canada. hamza@ciise.concordia.ca.

Description:

Fast Feature-Preserving Approach to Carpal Bone Surface Denoising.

Sensors (Basel). 2018 Jul 21;18(7):

Authors: Salim I, Hamza AB

Abstract

We present a geometric framework for surface denoising using graph signal processing, which is an emerging field that aims to develop new tools for processing and analyzing graph-structured data. The proposed approach is formulated as a constrained optimization problem whose objective function consists of a fidelity term specified by a noise model and a regularization term associated with prior data. Both terms are weighted by a normalized mesh Laplacian, which is defined in terms of a data-adaptive kernel similarity matrix in conjunction with matrix balancing. Minimizing the objective function reduces it to iteratively solve a sparse system of linear equations via the conjugate gradient method. Extensive experiments on noisy carpal bone surfaces demonstrate the effectiveness of our approach in comparison with existing methods. We perform both qualitative and quantitative comparisons using various evaluation metrics.

PMID: 30037109 [PubMed]




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