Arbab Zavar, B.[Banafshe]
* 2007: On Model-Based Analysis of Ear Biometrics
* 2007: On Shape-Mediated Enrolment in Ear Biometrics
* 2008: Robust log-Gabor filter for ear biometrics
* 2010: On Supervised Human Activity Analysis for Structured Environments
* 2010: Tools for semi-automatic monitoring of industrial workflows
* 2011: On guided model-based analysis for ear biometrics
* 2014: On hierarchical modelling of motion for workflow analysis from overhead view
* 2015: Multi-modal Computer Vision for the Detection of Multi-scale Crowd Physical Motions and Behavior in Confined Spaces
* 2020: Multi-scale crowd feature detection using vision sensing and statistical mechanics principles
* 2022: High-Level Feature Extraction for Crowd Behaviour Analysis: A Computer Vision Approach
Includes: Arbab Zavar, B.[Banafshe] Arbab-Zavar, B.[Banafshe]
10 for Arbab Zavar, B.
Arbab, B.
* 1987: Mask: An Object Identification Algorithm
Arbabi, E.
* 2015: Weighted Vote Fusion in prototype random subspace for thermal to visible face recognition
Arbabi, M.[Mohsen]
* 2020: Urban Heat Island Monitoring and Impacts on Citizen's General Health Status in Isfahan Metropolis: A Remote Sensing and Field Survey Approach
Arbabian, A.[Amin]
* 2022: Data-Driven Waveform Adaptation Method for Mm-Wave Gait Classification at the Edge, A
Arbabmir, M.[Mohammadvali]
* 2020: Simultaneous filter tuning and calibration of the camera and inertial measurement unit camera for a vision inertial navigation system
Arbabmir, M.V.[Mohammad Vali]
* 2014: Improving night sky star image processing algorithm for star sensors
Arbabzadah, F.[Farhad]
* 2016: Identifying Individual Facial Expressions by Deconstructing a Neural Network
Arbabzadeh, N.
* 2018: Data-Driven Approach for Driving Safety Risk Prediction Using Driver Behavior and Roadway Information Data, A
Arbain, A.A.[Ardhi Adhary]
* 2020: Mapping Brick Kilns to Support Environmental Impact Studies around Delhi Using Sentinel-2
Arbanas, S.M.[Snjezana Mihalic]
* 2019: Identification and Mapping of Soil Erosion Processes Using the Visual Interpretation of LiDAR Imagery
Includes: Arbanas, S.M.[Snjezana Mihalic] Arbanas, S.M.[Snježana Mihalic]
Arbanas, Z.[Zeljko]
* 2019: Identification and Mapping of Soil Erosion Processes Using the Visual Interpretation of LiDAR Imagery
Includes: Arbanas, Z.[Zeljko] Arbanas, Ž.[Željko]