Image segmentation using deep learning: A survey S Minaee, Y Boykov, F Porikli, A Plaza, N Kehtarnavaz, D Terzopoulos IEEE transactions on pattern analysis and machine intelligence 44 (7), 3523-3542, 2021 | 3850 | 2021 |
UTD-MHAD: A multimodal dataset for human action recognition utilizing a depth camera and a wearable inertial sensor C Chen, R Jafari, N Kehtarnavaz 2015 IEEE International conference on image processing (ICIP), 168-172, 2015 | 880 | 2015 |
Deep learning-based human pose estimation: A survey C Zheng, W Wu, C Chen, T Yang, S Zhu, J Shen, N Kehtarnavaz, M Shah ACM Computing Surveys 56 (1), 1-37, 2023 | 524 | 2023 |
A survey of depth and inertial sensor fusion for human action recognition C Chen, R Jafari, N Kehtarnavaz Multimedia Tools and Applications 76, 4405-4425, 2017 | 405 | 2017 |
Brain functional localization: a survey of image registration techniques A Gholipour, N Kehtarnavaz, R Briggs, M Devous, K Gopinath IEEE transactions on medical imaging 26 (4), 427-451, 2007 | 387 | 2007 |
Real-time human action recognition based on depth motion maps C Chen, K Liu, N Kehtarnavaz Journal of real-time image processing 12, 155-163, 2016 | 378 | 2016 |
Improving human action recognition using fusion of depth camera and inertial sensors C Chen, R Jafari, N Kehtarnavaz IEEE Transactions on Human-Machine Systems 45 (1), 51-61, 2014 | 306 | 2014 |
Action recognition from depth sequences using depth motion maps-based local binary patterns C Chen, R Jafari, N Kehtarnavaz 2015 IEEE winter conference on applications of computer vision, 1092-1099, 2015 | 258 | 2015 |
Development and real-time implementation of a rule-based auto-focus algorithm N Kehtarnavaz, HJ Oh Real-Time Imaging 9 (3), 197-203, 2003 | 213 | 2003 |
A real-time human action recognition system using depth and inertial sensor fusion C Chen, R Jafari, N Kehtarnavaz IEEE Sensors Journal 16 (3), 773-781, 2015 | 189 | 2015 |
Digital signal processing system-level design using LabVIEW N Kehtarnavaz, N Kim Elsevier, 2011 | 184 | 2011 |
Fusion of inertial and depth sensor data for robust hand gesture recognition K Liu, C Chen, R Jafari, N Kehtarnavaz IEEE Sensors Journal 14 (6), 1898-1903, 2014 | 176 | 2014 |
A convolutional neural network smartphone app for real-time voice activity detection A Sehgal, N Kehtarnavaz IEEE access 6, 9017-9026, 2018 | 159 | 2018 |
Digital signal processing system design: LabVIEW-based hybrid programming N Kehtarnavaz Elsevier, 2011 | 144 | 2011 |
Convolutional autoencoder-based multispectral image fusion A Azarang, HE Manoochehri, N Kehtarnavaz IEEE access 7, 35673-35683, 2019 | 141 | 2019 |
A review of video object detection: Datasets, metrics and methods H Zhu, H Wei, B Li, X Yuan, N Kehtarnavaz Applied Sciences 10 (21), 7834, 2020 | 135 | 2020 |
Real-time image and video processing: from research to reality N Kehtarnavaz, MN Gamadia Morgan & Claypool Publishers, 2006 | 121 | 2006 |
A transportable neural-network approach to autonomous vehicle following N Kehtarnavaz, N Groswold, K Miller, P Lascoe IEEE Transactions on Vehicular Technology 47 (2), 694-702, 1998 | 117 | 1998 |
Skin cancer detection by spectroscopic oblique-incidence reflectometry: classification and physiological origins A Garcia-Uribe, N Kehtarnavaz, G Marquez, V Prieto, M Duvic, LV Wang Applied Optics 43 (13), 2643-2650, 2004 | 116 | 2004 |
Multitasking deep learning model for detection of five stages of diabetic retinopathy S Majumder, N Kehtarnavaz IEEE Access 9, 123220-123230, 2021 | 115 | 2021 |