Dynamic Thread Management for Scalable RFID Middleware

2010 International Conference on Information Science and Applications Pub Date : 2010-04-21 DOI:10.1109/ICISA.2010.5480319

Sungwoo Ahn, W. Ryu, B. Hong, H. Chae, Junho Lee

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引用次数: 3

Abstract

An RFID middleware should filter and collect huge amount of tag's information gathered continuously by many RFID readers as the complexity of RFID environments increase. To do this, the middleware needs to control multiple adaptor threads which connect readers to the middleware and process the requests from readers. However, the use of multiple threads can deteriorate the performance of the middleware due to the overhead for excessive threads management. To build scalable RFID middleware regardless of the number of readers, the adaptor manager should decrease adaptor threads' overhead which can adversely affect middleware's performance. In this paper, we propose three dynamic thread management schemes to solve this problem: Group Merging, Group Splitting, and Adaptor Reallocation. To reduce the overhead of thread management, group merging and group splitting try to maintain the number of threads at an appropriate level. Adaptor reallocation reduces the overhead by exchanging adaptor threads between groups. Our experiments show that the proposed management scheme can improve the scalability of RFID middleware, compared with the single and the multiple thread managements.

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可扩展RFID中间件的动态线程管理

随着RFID环境的日益复杂，RFID中间件需要对众多RFID阅读器不断收集到的大量标签信息进行过滤和收集。为此，中间件需要控制多个适配器线程，这些适配器线程将读取器连接到中间件并处理来自读取器的请求。然而，由于过多的线程管理开销，使用多线程可能会降低中间件的性能。要构建可伸缩的RFID中间件，而不考虑阅读器的数量，适配器管理器应该减少适配器线程的开销，这可能会对中间件的性能产生不利影响。在本文中，我们提出了三种动态线程管理方案来解决这个问题:组合并、组分裂和适配器重新分配。为了减少线程管理的开销，组合并和组拆分尝试将线程数量保持在适当的水平。适配器重新分配通过在组之间交换适配器线程来减少开销。实验表明，与单线程管理和多线程管理相比，所提出的管理方案可以提高RFID中间件的可扩展性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2010 International Conference on Information Science and Applications

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