1 code implementation • 4 Aug 2023 • Ravikiran Parameshwara, Ibrahim Radwan, Akshay Asthana, Iman Abbasnejad, Ramanathan Subramanian, Roland Goecke
Whilst deep learning techniques have achieved excellent emotion prediction, they still require large amounts of labelled training data, which are (a) onerous and tedious to compile, and (b) prone to errors and biases.
no code implementations • 12 Jun 2023 • Soujanya Narayana, Ibrahim Radwan, Ravikiran Parameshwara, Iman Abbasnejad, Akshay Asthana, Ramanathan Subramanian, Roland Goecke
Whilst a majority of affective computing research focuses on inferring emotions, examining mood or understanding the \textit{mood-emotion interplay} has received significantly less attention.
no code implementations • 16 Apr 2022 • Mohammed Hassanin, Saeed Anwar, Ibrahim Radwan, Fahad S Khan, Ajmal Mian
However, the literature lacks a comprehensive survey on attention techniques to guide researchers in employing attention in their deep models.
1 code implementation • 24 Mar 2022 • Mohammed Hassanin, Abdelwahed Khamiss, Mohammed Bennamoun, Farid Boussaid, Ibrahim Radwan
3D human pose estimation can be handled by encoding the geometric dependencies between the body parts and enforcing the kinematic constraints.
Ranked #24 on 3D Human Pose Estimation on Human3.6M
1 code implementation • 21 Feb 2022 • Ravikiran Parameshwara, Soujanya Narayana, Murugappan Murugappan, Ramanathan Subramanian, Ibrahim Radwan, Roland Goecke
Employing traditional machine learning and deep learning methods, we explore (a) dimensional and categorical emotion recognition, and (b) PD vs HC classification from emotional EEG signals.
no code implementations • 23 Jul 2021 • Mohammed Hassanin, Ibrahim Radwan, Salman Khan, Murat Tahtali
Multi-label recognition is a fundamental, and yet is a challenging task in computer vision.
no code implementations • 8 Dec 2020 • Mohammed Hassanin, Ibrahim Radwan, Nour Moustafa, Murat Tahtali, Neeraj Kumar
In it, a Defensive Feature Layer (DFL) is integrated with a well-known DNN architecture which assists in neutralizing the effects of illegitimate perturbation samples in the feature space.
no code implementations • 3 Dec 2015 • Ibrahim Radwan, Abhinav Dhall, Roland Goecke
The proposed method handles occlusions during the inference process by identifying overlapping regions between different sub-trees and introducing a penalty term for overlapping parts.