Your search keyword '"Zawbaa, Hossam M."' showing total 4 results

1. Improved Out-of-Scope Intent Classification with Dual Encoding and Threshold-based Re-Classification

Author

Zawbaa, Hossam M., Rashwan, Wael, Dutta, Sourav, and Assem, Haytham

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Detecting out-of-scope user utterances is essential for task-oriented dialogues and intent classification. Current methodologies face difficulties with the unpredictable distribution of outliers and often rely on assumptions about data distributions. We present the Dual Encoder for Threshold-Based Re-Classification (DETER) to address these challenges. This end-to-end framework efficiently detects out-of-scope intents without requiring assumptions on data distributions or additional post-processing steps. The core of DETER utilizes dual text encoders, the Universal Sentence Encoder (USE) and the Transformer-based Denoising AutoEncoder (TSDAE), to generate user utterance embeddings, which are classified through a branched neural architecture. Further, DETER generates synthetic outliers using self-supervision and incorporates out-of-scope phrases from open-domain datasets. This approach ensures a comprehensive training set for out-of-scope detection. Additionally, a threshold-based re-classification mechanism refines the model's initial predictions. Evaluations on the CLINC-150, Stackoverflow, and Banking77 datasets demonstrate DETER's efficacy. Our model outperforms previous benchmarks, increasing up to 13% and 5% in F1 score for known and unknown intents on CLINC-150 and Stackoverflow, and 16% for known and 24% % for unknown intents on Banking77. The source code has been released at https://github.com/Hossam-Mohammed-tech/Intent_Classification_OOS.

Published

2024

2. A Modified Artificial Hummingbird Algorithm for solving optimal power flow problem in power systems

Author

Ebeed, Mohamed, Abdelmotaleb, Mohamed A., Khan, Noor Habib, Jamal, Raheela, Kamel, Salah, Hussien, Abdelazim G., Zawbaa, Hossam M., Jurado, Francisco, and Sayed, Khairy

Published

2024

3. Intelligent control of the power generation system using DSPACE

Author

Hamid, Chojaa, primary, Aziz, Derouich, additional, Zamzoum, Othmane, additional, El Idrissi, Abderrahman, additional, Zawbaa, Hossam M., additional, Zeinoddini‐Meymand, Hamed, additional, and Kamel, Salah, additional

Published

2024

4. Robust Facial Biometric Authentication System Using Pupillary Light Reflex for Liveness Detection of Facial Images.

Author

Prasad, Puja S., Lakshmi, Adepu Sree, Kautish, Sandeep, Singh, Simar Preet, Shrivastava, Rajesh Kumar, Almazyad, Abdulaziz S., Zawbaa, Hossam M., and Mohamed, Ali Wagdy

Abstract

Pupil dynamics are the important characteristics of face spoofing detection. The face recognition system is one of the most used biometrics for authenticating individual identity. The main threats to the facial recognition system are different types of presentation attacks like print attacks, 3D mask attacks, replay attacks, etc. The proposed model uses pupil characteristics for liveness detection during the authentication process. The pupillary light reflex is an involuntary reaction controlling the pupil's diameter at different light intensities. The proposed framework consistsof two-phasemethodologies. In the first phase, thepupil's diameter is calculatedby applying stimulus (light) in one eye of the subject and calculating the constriction of the pupil size on both eyes in different video frames. The above measurement is converted into feature space using Kohn and Clynes model-defined parameters. The Support Vector Machine is used to classify legitimate subjects when the diameter change is normal (or when the eye is alive) or illegitimate subjects when there is no change or abnormal oscillations of pupil behavior due to the presence of printed photograph, video, or 3D mask of the subject in front of the camera. In the second phase, we perform the facial recognition process. Scale-invariant feature transform (SIFT) is used to find the features from the facial images, with each feature having a size of a 128-dimensional vector. These features are scale, rotation, and orientation invariant and are used for recognizing facial images. The brute force matching algorithm is used for matching features of two different images. The threshold value we considered is 0.08 for good matches. To analyze the performance of the framework, we tested our model in two Face antispoofing datasets named Replay attack datasets and CASIA-SURF datasets, which were used because they contain the videos of the subjects in each sample having three modalities (RGB, IR, Depth). The CASIA-SURF datasets showed an 89.9% Equal Error Rate, while the Replay Attack datasets showed a 92.1% Equal Error Rate. [ABSTRACT FROM AUTHOR]

Published

2024