The Experts below are selected from a list of 9018 Experts worldwide ranked by ideXlab platform
Ali, Ali Mohd - One of the best experts on this subject based on the ideXlab platform.
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Identifying the Optimum Network Architecture and WLAN Technology for Video Conferencing Application
2020Co-Authors: Ali, Ali Mohd, Dhimish Mahmoud, Glover IanAbstract:Handling Video Conferencing (VC) services is currently a vast challenge in the communication industry. Wireless networks have been designed to provide provision for real-time applications such as VC. VC QoS metrics should be evaluated for different IEEE 802.11 technologies in order to identify the optimum technology standard across different infrastructure and network architectures.In this paper, an algorithm scheme is proposed to evaluate VCservices of different IEEE 802.11 technologies in order to identify the optimum network architecture among Basic service set (BSS), extended service set (ESS), and the Independent Basic service set (IBSS).Hence, the algorithm considers and evaluates multi-criteria access network selection such as spatial distribution and number of nodesto facilitate the provision ofthe best overall network performance and high-quality services
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Optimum WLAN Protocol and Network Architecture Identification for VOIP Application
2020Co-Authors: Ali, Ali Mohd, Dhimish Mahmoud, Alsmadi M. MalekAbstract:This research developed a novel algorithm to evaluate Voice over Internet Protocol (VoIP) metrics of different IEEE 802.11 technologies in order to identify the optimum network architecture among Basic service set (BSS), extended service set (ESS), and the Independent Basic service set (IBSS). The proposed algorithm will yield the rank order of different IEEE 802.11 technologies. By selecting the optimum network architecture and technology, the best overall network performance that provides a good voice quality is guaranteed. Furthermore, it meets the acceptance threshold values for the VoIP quality metrics. This algorithm was applied to various room sizes ranging from 2x3m to 10x14m and the number of nodes ranged from one to forty. The spatial distributions considered were circular, uniform, and random. The Quality of service (QoS) metrics used were delay, jitter, throughput and packet loss
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WLAN Protocol and Network Architecture Identification for service Mix Applications
2020Co-Authors: Ali, Ali Mohd, Dhimish Mahmoud, Glover IanAbstract:This paper proposes an algorithm approach to examine the impact of using different application services with various IEEE technologies in order to identify the optimum technology among different network architectures;Basic service set (BSS), extended service set (ESS), and the Independent Basic service set (IBSS).Specifically, we utilize an algorithmic and mathematical scheme to allow user/client to analyse the optimum WLAN technology and network architecture‟s performance to be used for a given mix of internet applications configured across three spatial distributions (circular, uniform, random).Moreover, the proposed algorithm considers multi-criteria access network selection such as spatial distribution and number of nodes, hence to facilitate the provision of the best overall network performance and high-quality services. For further throughput enhancement, we adopt the Quality of service (QoS) metrics for each application to develop a computational algorithm model to provide precise numerical results used to rank and identify the optimum overall performance‟s technologies. Our numerical results corroborate the analytical framework results and demonstrate the strength of the proposed algorithm
Peter Mather - One of the best experts on this subject based on the ideXlab platform.
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An Algorithmic Approach to Identify the Optimum Network Architecture and WLAN Protocol for VoIP Application
Wireless Personal Communications, 2021Co-Authors: Ali Mohd Ali, Mahmoud Dhimish, Malek M. Alsmadi, Peter MatherAbstract:To determine the optimal network architecture between the Basic service set, the extended service set and the Independent Basic service set, this study established a new algorithm to assess Voice over Internet Protocol (VoIP) metrics of different IEEE 802.11 technologies. An important coefficient for each VoIP metric parameter has been invented to rank the different IEEE 802.11 standards and to identify the most efficient one for the VoIP application. The best overall network performance that offers good voice quality is ensured by determining the optimum network architecture and technology. Moreover, for the VoIP efficiency parameters, it meets the acceptance threshold values. This algorithm was implemented in different sizes of rooms ranging from 1 × 1 m to 10 × 10 m, and the number of nodes varied from 1 to 65. End to end delay, jitter, throughput and packet loss were the quality of service parameters used.
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Algorithmic Identification of the Best WLAN Protocol and Network Architecture for Internet-Based Applications
Journal of Information & Knowledge Management, 2020Co-Authors: Ali Mohd Ali, Mahmoud Dhimish, Malek M. Alsmadi, Peter MatherAbstract:This research developed a novel algorithm to evaluate internet-based services such as VoIP, Video Conferencing, HTTP and FTP, of different IEEE 802.11 technologies in order to identify the optimum network architecture among Basic service set (BSS), extended service set (ESS) and the Independent Basic service set (IBSS). The proposed algorithm will yield the rank order of different IEEE 802.11 technologies. By selecting the optimum network architecture and technology, the best overall network performance that provides good voice, video and data quality is guaranteed. Furthermore, it meets the acceptance threshold values for the VoIP, Video Conferencing, HTTP and FTP quality metrics. This algorithm was applied to various room sizes ranging from 2×3m to 10×14m and the number of nodes ranged from 1 to 65. The spatial distributions considered were circular, uniform and random. The Quality of service (QoS) metrics used were delay, jitter, throughput and packet loss.
Glover Ian - One of the best experts on this subject based on the ideXlab platform.
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Identifying the Optimum Network Architecture and WLAN Technology for Video Conferencing Application
2020Co-Authors: Ali, Ali Mohd, Dhimish Mahmoud, Glover IanAbstract:Handling Video Conferencing (VC) services is currently a vast challenge in the communication industry. Wireless networks have been designed to provide provision for real-time applications such as VC. VC QoS metrics should be evaluated for different IEEE 802.11 technologies in order to identify the optimum technology standard across different infrastructure and network architectures.In this paper, an algorithm scheme is proposed to evaluate VCservices of different IEEE 802.11 technologies in order to identify the optimum network architecture among Basic service set (BSS), extended service set (ESS), and the Independent Basic service set (IBSS).Hence, the algorithm considers and evaluates multi-criteria access network selection such as spatial distribution and number of nodesto facilitate the provision ofthe best overall network performance and high-quality services
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WLAN Protocol and Network Architecture Identification for service Mix Applications
2020Co-Authors: Ali, Ali Mohd, Dhimish Mahmoud, Glover IanAbstract:This paper proposes an algorithm approach to examine the impact of using different application services with various IEEE technologies in order to identify the optimum technology among different network architectures;Basic service set (BSS), extended service set (ESS), and the Independent Basic service set (IBSS).Specifically, we utilize an algorithmic and mathematical scheme to allow user/client to analyse the optimum WLAN technology and network architecture‟s performance to be used for a given mix of internet applications configured across three spatial distributions (circular, uniform, random).Moreover, the proposed algorithm considers multi-criteria access network selection such as spatial distribution and number of nodes, hence to facilitate the provision of the best overall network performance and high-quality services. For further throughput enhancement, we adopt the Quality of service (QoS) metrics for each application to develop a computational algorithm model to provide precise numerical results used to rank and identify the optimum overall performance‟s technologies. Our numerical results corroborate the analytical framework results and demonstrate the strength of the proposed algorithm
Dhimish Mahmoud - One of the best experts on this subject based on the ideXlab platform.
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Identifying the Optimum Network Architecture and WLAN Technology for Video Conferencing Application
2020Co-Authors: Ali, Ali Mohd, Dhimish Mahmoud, Glover IanAbstract:Handling Video Conferencing (VC) services is currently a vast challenge in the communication industry. Wireless networks have been designed to provide provision for real-time applications such as VC. VC QoS metrics should be evaluated for different IEEE 802.11 technologies in order to identify the optimum technology standard across different infrastructure and network architectures.In this paper, an algorithm scheme is proposed to evaluate VCservices of different IEEE 802.11 technologies in order to identify the optimum network architecture among Basic service set (BSS), extended service set (ESS), and the Independent Basic service set (IBSS).Hence, the algorithm considers and evaluates multi-criteria access network selection such as spatial distribution and number of nodesto facilitate the provision ofthe best overall network performance and high-quality services
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Optimum WLAN Protocol and Network Architecture Identification for VOIP Application
2020Co-Authors: Ali, Ali Mohd, Dhimish Mahmoud, Alsmadi M. MalekAbstract:This research developed a novel algorithm to evaluate Voice over Internet Protocol (VoIP) metrics of different IEEE 802.11 technologies in order to identify the optimum network architecture among Basic service set (BSS), extended service set (ESS), and the Independent Basic service set (IBSS). The proposed algorithm will yield the rank order of different IEEE 802.11 technologies. By selecting the optimum network architecture and technology, the best overall network performance that provides a good voice quality is guaranteed. Furthermore, it meets the acceptance threshold values for the VoIP quality metrics. This algorithm was applied to various room sizes ranging from 2x3m to 10x14m and the number of nodes ranged from one to forty. The spatial distributions considered were circular, uniform, and random. The Quality of service (QoS) metrics used were delay, jitter, throughput and packet loss
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WLAN Protocol and Network Architecture Identification for service Mix Applications
2020Co-Authors: Ali, Ali Mohd, Dhimish Mahmoud, Glover IanAbstract:This paper proposes an algorithm approach to examine the impact of using different application services with various IEEE technologies in order to identify the optimum technology among different network architectures;Basic service set (BSS), extended service set (ESS), and the Independent Basic service set (IBSS).Specifically, we utilize an algorithmic and mathematical scheme to allow user/client to analyse the optimum WLAN technology and network architecture‟s performance to be used for a given mix of internet applications configured across three spatial distributions (circular, uniform, random).Moreover, the proposed algorithm considers multi-criteria access network selection such as spatial distribution and number of nodes, hence to facilitate the provision of the best overall network performance and high-quality services. For further throughput enhancement, we adopt the Quality of service (QoS) metrics for each application to develop a computational algorithm model to provide precise numerical results used to rank and identify the optimum overall performance‟s technologies. Our numerical results corroborate the analytical framework results and demonstrate the strength of the proposed algorithm
Edward W Knightly - One of the best experts on this subject based on the ideXlab platform.
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The IEEE 802.11s extended service set mesh networking standard
IEEE Communications Magazine, 2008Co-Authors: Joseph D. Camp, Edward W KnightlyAbstract:Today, municipalities are planning to deploy metro-scale two-tier wireless mesh networks at a rapid pace. Fittingly, the IEEE 802.11s standard is being developed to allow interoperability between heterogeneous mesh network devices. In this article we describe and discuss how the initial standard addresses key factors for standardization of these networks: Efficient allocation of mesh resources at the routing and MAC layers. Protection and conservation of the network resources via security and energy efficiency. Assurance of fairness and elimination of spatial bias via mesh congestion control. We draw on examples from existing two-tier deployments, simulations, and analytical models to motivate these enhancements within the standard.
