Ibrahim N. Alquaydheb Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
faculty
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Ibrahim N. Alquaydheb's research focuses on the development and application of machine learning algorithms and advanced technologies for various systems. He has investigated the modeling, characterization, and optimization of choke horn antennas, exploring their radiation patterns and aperture designs. His work also extends to temperature-controlled systems, including microwave heating and disinfection systems that utilize microwave and plasma technologies. Alquaydheb has examined the impact of factors like sodium chloride on microbial inactivation within these disinfection systems. He has published 16 papers, accumulating 58 citations, and holds an h-index of 5. He has collaborated with Amirreza Ghadimi Avval, Samir El‐Ghazaly, and Sara Ghayouraneh, with whom he shares 7 publications.
Metrics
- h-index: 5
- Publications: 16
- Citations: 60
Selected Publications
-
Enhancing Microwave Disinfection: Impact of Sodium Chloride on Microbial Inactivation (2024)
-
Modeling, Characterization, and Machine Learning Algorithm for Rectangular Choke Horn Antennas (2024)
-
Temperature-Controlled Disinfection System Using Microwave and Plasma (2023)
-
Double-Choke Antenna Radiation Optimization (2023)
-
Optimization of Choke Antenna Aperture Radiation Pattern (2023)
-
Temperature-Controlled Microwave Heating System (2023)
-
Choke Ring Circular Waveguide Antenna Analysis and Design Using Geometrical Theory of Diffraction (2022)
Collaboration Network
Top Collaborators
- Modeling, Characterization, and Machine Learning Algorithm for Rectangular Choke Horn Antennas
- Choke Ring Circular Waveguide Antenna Analysis and Design Using Geometrical Theory of Diffraction
- Temperature-Controlled Microwave Heating System
- Optimization of Choke Antenna Aperture Radiation Pattern
- Temperature-Controlled Disinfection System Using Microwave and Plasma
Showing 5 of 7 shared publications
- Modeling, Characterization, and Machine Learning Algorithm for Rectangular Choke Horn Antennas
- Choke Ring Circular Waveguide Antenna Analysis and Design Using Geometrical Theory of Diffraction
- Temperature-Controlled Microwave Heating System
- Optimization of Choke Antenna Aperture Radiation Pattern
- Temperature-Controlled Disinfection System Using Microwave and Plasma
Showing 5 of 7 shared publications
- Modeling, Characterization, and Machine Learning Algorithm for Rectangular Choke Horn Antennas
- Choke Ring Circular Waveguide Antenna Analysis and Design Using Geometrical Theory of Diffraction
- Temperature-Controlled Microwave Heating System
- Optimization of Choke Antenna Aperture Radiation Pattern
- Temperature-Controlled Disinfection System Using Microwave and Plasma
Showing 5 of 7 shared publications
- Modeling, Characterization, and Machine Learning Algorithm for Rectangular Choke Horn Antennas
- Choke Ring Circular Waveguide Antenna Analysis and Design Using Geometrical Theory of Diffraction
- Temperature-Controlled Microwave Heating System
- Optimization of Choke Antenna Aperture Radiation Pattern
- Temperature-Controlled Disinfection System Using Microwave and Plasma
Showing 5 of 7 shared publications
- Temperature-Controlled Disinfection System Using Microwave and Plasma
- Enhancing Microwave Disinfection: Impact of Sodium Chloride on Microbial Inactivation
- Temperature-Controlled Disinfection System Using Microwave and Plasma
- Enhancing Microwave Disinfection: Impact of Sodium Chloride on Microbial Inactivation
Similar Researchers
Based on overlapping research topics