Your search keyword '"Mathkour, Hassan"' showing total 4 results

1. A novel framework for G/M/1 queuing system based on scheduling-cum-polling mechanism to analyze multiple classes of self-similar and LRD traffic

Author

Iftikhar, Mohsin, Mathkour, Hassan, Imran, Muhammad, Bedaiwi, Abdullah, and Vasilakos, Athanasios V.

Published

2016

2. Web service composition: Models and approaches.

Author

Mathkour, Hassan, Gannouni, Sofien, and Beraka, Mutaz

Abstract

The use of Web services as a standard technology facilitates seamless business-to-business (B2B) interaction and the process of integrating various systems and applications. It enables mass knowledge distribution by providing a standard way of exposing data sources and applications/systems as Web services. These services can be created/generated, updated, and composed at runtime because they are loosely coupled. Web service composition provides the ability to compose services by manually or automatically generating a service composition plan in order to achieve the business goal, resolve a scientific issue/problem or provide new service functionality. They are reusable services that can be used to implement a business process. Web service composition can be achieved via two models: dynamic and static. This paper introduces taxonomy of Web service composition models and approaches, and provides a survey of Web service composition models and their approaches. Additionally, we present comparisons of different models and approaches for each model. [ABSTRACT FROM PUBLISHER]

Published

2012

3. The Exact Analysis of Limited Service Polling Systems Combined with Non-preemptive Priority Scheduling under Self-similar Traffic Input.

Author

Beraka, Mutaz, Iftikhar, Mohsin, Mathkour, Hassan, and Bedaiwi, Abdullah

Subjects

SCHEDULING software, QUEUEING networks, QUALITY of service, POISSON distribution, END users (Information technology), INTERNET traffic, WIRELESS sensor networks

Abstract

Abstract: The cyclic execution of several multi-typed queues through a unified server requires superlative tactics of polling strategies. Further, a number of traditional scheduling schemes have been put forward to provide assured Quality of Service (QoS) to the end-user. In the prior work, no effort has been put to combine the traditional scheduling schemes with polling mechanisms. Moreover, in the prior work, the researchers have utilized traditional Poisson distribution to analyze a variety of polling mechanisms to offer the standardized QoS to the end user. However, it has been proven through numerous studies that traffic carried by internet is self-similar and unfortunately, the traditional Poisson models are unable to capture the bursty nature of internet traffic. To overcome the limitations of prior work, in the present study, we combine the limited service polling model with traditional non-preemptive scheduling scheme in two different ways. We build an analytical framework considering multiple classes of self-similar traffic and analyze their behavior on the basis of G/M/1 queuing system. We construct the Markov chain for G/M/1 queuing system and present the closed form expressions of packet latencies for related traffic classes. Simulated experiments in C++ were performed to test our proposed analytical framework for evaluating the QoS parameters and Markov chain transformation. This study clearly indicates that the combination of traditional polling mechanism with common scheduling scheme such as priority can offer a differential treatment to facilitate the required QoS for latest 4G wireless network applications according to their requirement. [Copyright &y& Elsevier]

Published

2013

4. The Exact Analysis of Limited Service Polling Systems Combined with Non-preemptive Priority Scheduling under Self-similar Traffic Input

Author

Hassan Mathkour, Mohsin Iftikhar, Abdullah Bedaiwi, Mutaz Beraka, Beraka, Mutaz, Iftikhar, Mohsin, Mathkour, Hassan, Bedaiwi, Abdullah, and 4th International Conference on Ambient Systems, Networks and Technologies, ANT 2013 and the 3rd International Conference on Sustainable Energy Information Technology, SEIT 2013 NS, Canada 25-28 June 2013

Subjects

Computer science, Distributed computing, exhaustive, self-similar, Scheduling (computing), Nonpreemptive multitasking, G/M/1, gated, limited service, Queue, General Environmental Science, Markov chain, Queue management system, Network packet, business.industry, Wireless network, Priority scheduling, Quality of service, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Internet traffic, polling model, Polling system, General Earth and Planetary Sciences, Polling, business, Computer network

Abstract

The cyclic execution of several multi-typed queues through a unified server requires superlative tactics of polling strategies. Further, a number of traditional scheduling schemes have been put forward to provide assured Quality of Service (QoS) to the end-user. In the prior work, no effort has been put to combine the traditional scheduling schemes with polling mechanisms. Moreover, in the prior work, the researchers have utilized traditional Poisson distribution to analyze a variety of polling mechanisms to offer the standardized QoS to the end user. However, it has been proven through numerous studies that traffic carried by internet is self-similar and unfortunately, the traditional Poisson models are unable to capture the busty nature of internet traffic. To overcome the limitations of prior work, in the present study, we combine the limited service polling model with traditional non-preemptive scheduling scheme in two different ways. We build an analytical framework considering multiple classes of self-similar traffic and analyze their behavior on the basis of G/M/1 queuing system. We construct the Markov chain for G/M/1 queuing system and present the closed form expressions of packet latencies for related traffic classes. Simulated experiments in C++ were performed to test our proposed analytical framework for evaluating the QoS parameters and Markov chain transformation. This study clearly indicates that the combination of traditional polling mechanism with common scheduling scheme such as priority can offer a differentia treatment to facilitate the required QoS for latest 4G wireless network applications according to their requirement. Refereed/Peer-reviewed

Published

2013