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Ninja optimization algorithm based ultra wideband antenna electromagnetic band gap modeling via a generative adversarial network
by
Alhussan, Amel Ali
, El-kenawy, El-Sayed M.
, Ibrahim, Abdelhameed
, Eid, Marwa M.
, Singla, Manish Kumar
, Khafaga, Doaa Sami
, Abdelhamid, Abdelaziz A.
, Thakur, Ekta
, Gupta, Anupma
, Gupta, Jyoti
in
639/166
/ 639/4077
/ 639/705
/ Algorithms
/ Alternative energy
/ Antenna Design
/ Antennas
/ Bandwidths
/ Communication
/ Communications systems
/ Datasets
/ Deep learning
/ Efficiency
/ Energy efficiency
/ Energy management
/ Genetic algorithms
/ Humanities and Social Sciences
/ Localization
/ Long short-term memory
/ Machine learning
/ multidisciplinary
/ Neural networks
/ Ninja Optimization Algorithm (Ninja)
/ Optimization algorithms
/ Optimization techniques
/ Radiation
/ Renewable energy
/ Renewable resources
/ Science
/ Science (multidisciplinary)
/ Sensors
/ Sustainability
/ Ultra-Wideband
/ ultra-wideband antenna EBG
/ Wireless Communication
2026
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Ninja optimization algorithm based ultra wideband antenna electromagnetic band gap modeling via a generative adversarial network
by
Alhussan, Amel Ali
, El-kenawy, El-Sayed M.
, Ibrahim, Abdelhameed
, Eid, Marwa M.
, Singla, Manish Kumar
, Khafaga, Doaa Sami
, Abdelhamid, Abdelaziz A.
, Thakur, Ekta
, Gupta, Anupma
, Gupta, Jyoti
in
639/166
/ 639/4077
/ 639/705
/ Algorithms
/ Alternative energy
/ Antenna Design
/ Antennas
/ Bandwidths
/ Communication
/ Communications systems
/ Datasets
/ Deep learning
/ Efficiency
/ Energy efficiency
/ Energy management
/ Genetic algorithms
/ Humanities and Social Sciences
/ Localization
/ Long short-term memory
/ Machine learning
/ multidisciplinary
/ Neural networks
/ Ninja Optimization Algorithm (Ninja)
/ Optimization algorithms
/ Optimization techniques
/ Radiation
/ Renewable energy
/ Renewable resources
/ Science
/ Science (multidisciplinary)
/ Sensors
/ Sustainability
/ Ultra-Wideband
/ ultra-wideband antenna EBG
/ Wireless Communication
2026
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Ninja optimization algorithm based ultra wideband antenna electromagnetic band gap modeling via a generative adversarial network
by
Alhussan, Amel Ali
, El-kenawy, El-Sayed M.
, Ibrahim, Abdelhameed
, Eid, Marwa M.
, Singla, Manish Kumar
, Khafaga, Doaa Sami
, Abdelhamid, Abdelaziz A.
, Thakur, Ekta
, Gupta, Anupma
, Gupta, Jyoti
in
639/166
/ 639/4077
/ 639/705
/ Algorithms
/ Alternative energy
/ Antenna Design
/ Antennas
/ Bandwidths
/ Communication
/ Communications systems
/ Datasets
/ Deep learning
/ Efficiency
/ Energy efficiency
/ Energy management
/ Genetic algorithms
/ Humanities and Social Sciences
/ Localization
/ Long short-term memory
/ Machine learning
/ multidisciplinary
/ Neural networks
/ Ninja Optimization Algorithm (Ninja)
/ Optimization algorithms
/ Optimization techniques
/ Radiation
/ Renewable energy
/ Renewable resources
/ Science
/ Science (multidisciplinary)
/ Sensors
/ Sustainability
/ Ultra-Wideband
/ ultra-wideband antenna EBG
/ Wireless Communication
2026
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Ninja optimization algorithm based ultra wideband antenna electromagnetic band gap modeling via a generative adversarial network
Journal Article
Ninja optimization algorithm based ultra wideband antenna electromagnetic band gap modeling via a generative adversarial network
2026
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Overview
Ultra-wideband antennas with electromagnetic band-gap (EBG) structures play a crucial role in next-generation wireless and energy-efficient communication systems due to their ability to provide broad spectral coverage, high gain, and reduced interference. This paper presents an intelligent prediction framework that integrates a Generative Adversarial Network (GAN) with the Ninja Optimization Algorithm (NOA) to accurately model and predict the electromagnetic performance of ultra-wideband antenna–EBG configurations. The core innovation of the proposed framework lies in coupling adversarial learning with NOA-based optimization to enhance surrogate modeling accuracy and robustness for antenna–EBG systems. The proposed method is compared with multiple deep learning architectures, including Long Short-Term Memory (LSTM), Gated Recurrent Unit (GRU), Recurrent Neural Network (RNN), and Artificial Neural Network (ANN) models. Experimental results demonstrate that the GAN tuned with the NOA achieves superior predictive accuracy, yielding a mean squared error of
, a root mean squared error of
, and a coefficient of determination of
. The integration of the Ninja Optimization Algorithm significantly enhances learning stability, convergence rate, and generalization performance. The framework also demonstrates competitive robustness when benchmarked against hybrid optimization strategies such as PSO–GAN, BA–GAN, and DE–GAN. Overall, the proposed NOA-enhanced GAN establishes an efficient, scalable, and high-precision modeling pathway for the design and optimization of ultra-wideband antenna EBG structures, contributing to the advancement of intelligent communication and renewable energy systems.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
Subject
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