Publications Scientifiques
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Item Outdoor mobile broadband performance analysis in Malaysia, Singapore, and Thailand(Elsevier B.V., 2024) Shayea, Ibraheem; Benlakehal, Mohamed Elamine; Azmi, Marwan Hadri; Han, Chua Tien; Arsad, Arsany; Abd Rahman, TharekThis paper presents the measurement of mobile broadband (MBB) performance and specifies insightful knowledge about 3G and 4G technologies of dense urban and urban morphologies in Malaysia, Thailand, and Singapore. This study will also contribute to planning efficiently for the deployment of 5G network in these three countries. The data to characterize and analyze the MBB performances are gathered through a driving test (DT) conducted in areas of the three countries for two months starting from January to February by utilizing an unbranded smartphone named Samsung Galaxy S6. The performance data in our MBB analysis was collected based on diverse national mobile network operators (MNOs) in outdoor areas of the selected states in the mentioned countries. Four different performance metrics (coverage, speed, latency, and satisfaction) were investigated to assess the network performance for one of MBB's services that contain video streaming services. Within video services, two distinct resolutions including 720p (low) and 1080p (high) for an identical YouTube video were loaded alternately by the same smartphone. The research is meant to mimic real scenarios in the case of the unlocked smartphone to any technology during the time of loading a video, which contributes to knowing the network coverage of 2G, 3G, and 4G technologies in the chosen areas. The analysis of the 2G technology is excluded in the current paper because of the limited data amount of 2G. The MBB performance measurement results in the tested areas revealed that, on average, the 4G network outperformed the 3G network according to the investigated four performance indicators. Therefore, across the tested territories, the 4G technology offered better network coverage compared to the 3G technology. The vMOS scores for 4G technology across video services were more than 3, whereas the 3G technology has achieved scores smaller than 3. Also, the 4G network has achieved E2E RTT-Ping server latency improvements of 89.90%, 59.30%, 67.48%, and 58.04% compared to the 3G network in the urban and dense urban of Klang Valley, Malaysia, urban of Singapore, and urban of Thailand, respectively. Moreover, it is found that 4G technology can provide improvements up to the factors of 1.29, 1.61, 1.98, and 1.35 in the download speed for video streaming compared to the 3G technology for urban and dense urban of Klang Valley, Malaysia, urban of Singapore, and urban of Thailand, respectively.Item Design and simulation of 1 × 2, 1 × 4 and 2 × 8 microstrip patch antenna arrays based on photonic crystals for improved gain performance in THz(Springer, 2024) Benlakehal, Mohamed Elamine; Hocini, Abdesselam; Khedrouche, Djamel; Temmar, Mohamed Nasr eddine; Denidni, Tayeb Ahmed; Shayea, IbraheemIn a wireless communication system, a microstrip patch antenna is gaining importance as a most powerful technology trend and it is applicable for the development of low-cost, minimal-weight, low-profile and high-performance antenna. This paper presents the design and the analysis of 1 × 2, 1 × 4 and 2 × 8 rectangular microstrip patch antenna (RMPA) arrays based on the photonic crystals for improved gain performance and high radiation characteristics compared to ones that are designed based on the homogeneous substrate in the frequency range of 0.25 - 0.55 THz. The design of the proposed antenna arrays based on the photonic band gap (PBG) and the homogeneous substrate structures is made by using the designed single-element RMPA as the basic building element, and then, they were fed by the parallel feeding structure. The designed antenna arrays were simulated using CST Microwave Studio software and validated with the aid of Ansoft HFSS simulator. For high radiation characteristics, the proposed antenna arrays resonated around 0.35 THz which is a low loss frequency window in the terahertz band. The main results showed that the designed antenna arrays based on the PBG substrate structure outperform the antenna arrays based on the homogeneous substrate in terms of return loss, bandwidth, gain and directivity. The best directivity was achieved by the 2 × 8 RMPA array of 17.40 dBi, whereas the 1 × 4, 1 × 2 RMPA arrays and single-element RMPA achieved the directivity of 13.54 dBi, 9.87dBi and 7.76 dBi, respectively. Hence, the designed antenna arrays can be used for medical imaging, threat detection and wireless surveillance communication.Item Design and analysis of a 2 × 2 microstrip ratch antenna array based on periodic and non-periodic photonic crystals substrate in THz(Springer, 2022) Benlakehal, Mohamed Elamine; Hocini, Abdesselam; Khedrouche, Djamel; Temmar, Mohamed Nasr Eddine; Denidni, Tayeb AhmedIn recent years, large demand for an antenna with high gain and larger bandwidth is required. In this paper, a 2 × 2 microstrip patch antenna array is designed and analyzed based on different substrates including periodic, non-periodic photonic crystals and homogeneous substrates. The proposed antenna array is designed to operate around 0.65 THz, which has applications in sensing and communication technologies. The simulated results showed that the designed antenna array based on periodic photonic crystals performed better than the conventional antenna array in terms of return loss, bandwidth, VSWR, gain, and radiation efficiency around 0.65 THz. Moreover, the performance of the proposed antenna array based on periodic photonic crystals is investigated by designing three other antenna arrays by using non-periodic photonic crystals substrate, which is divided into several sets of air holes, where each set of air holes had a different radius. The simulated results showed that the return loss, bandwidth, gain and radiation efficiency were improved by using non-periodic photonic crystals substrate compared to periodic photonic crystals substrate. The highest radiation characteristics were achieved by the fourth antenna array, which obtained a wide bandwidth greater than 291 GHz, whereas the return loss, gain and radiation efficiency were - 6 3.62 dB, 13.70 dB and 92.45% , respectively at a resonance frequency of 0.628 THz. The simulation has been performed using two different simulation techniques, CST Microwave Studio based on the finite integration technique and Ansys HFSS based on finite element technique which showed the convergence