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A Middleware for Distributing XML Data between Mobile Application Servers

A Middleware for Distributing XML Data between Mobile Application Servers

Yousef E. Rabadi, Joan Lu
Copyright: © 2012 |Pages: 21
ISBN13: 9781466609365|ISBN10: 1466609362|EISBN13: 9781466609372
DOI: 10.4018/978-1-4666-0936-5.ch005
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MLA

Rabadi, Yousef E., and Joan Lu. "A Middleware for Distributing XML Data between Mobile Application Servers." Learning with Mobile Technologies, Handheld Devices, and Smart Phones: Innovative Methods, edited by Zhongyu Lu, IGI Global, 2012, pp. 69-89. https://doi.org/10.4018/978-1-4666-0936-5.ch005

APA

Rabadi, Y. E. & Lu, J. (2012). A Middleware for Distributing XML Data between Mobile Application Servers. In Z. Lu (Ed.), Learning with Mobile Technologies, Handheld Devices, and Smart Phones: Innovative Methods (pp. 69-89). IGI Global. https://doi.org/10.4018/978-1-4666-0936-5.ch005

Chicago

Rabadi, Yousef E., and Joan Lu. "A Middleware for Distributing XML Data between Mobile Application Servers." In Learning with Mobile Technologies, Handheld Devices, and Smart Phones: Innovative Methods, edited by Zhongyu Lu, 69-89. Hershey, PA: IGI Global, 2012. https://doi.org/10.4018/978-1-4666-0936-5.ch005

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Abstract

This research introduces architecture of new approach of distributing XML data files between different mobile application servers. The main objective and goal of this study is to transmit XML data files between different Mobile Application Server (MAS) using internet cloud infrastructure in a secured manner coupled with reliability and quality of communication. Taking into consideration that the system architecture attribute is to be independent, scalable, and flexible of using cloud computing. Furthermore, this architecture is designed to minimize the risk of any alteration, data loss, data abuse, and data misuse of XML critical business data information. As cloud computing, using existing cloud network infrastructure to get advantage of the scalability, operational efficiency, and control of data flow are a big consideration in this architecture. A test has been made to measure the performance of the Real-time Interactive Data Exchange system (RIDX), one by using standard TCP protocol, and one by using RIDX UDP protocol. As a result, RIDX architecture performance showed good results; conversely the study showed that using RIDX UDP protocol as a transport protocol gives better performance than standard TCP. Moreover, using RIDX UDP transport protocol assures the reliability and lossless of data transmission to all nodes.

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