Publishing and composition of atomicity-equivalent services for B2B collaboration

Proceedings of the 28th international conference on Software engineering Pub Date : 2006-05-28 DOI:10.1145/1134285.1134335

Chunyang Ye, S. Cheung, W. Chan

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引用次数: 37

Abstract

Exception handling resolves inconsistency by backward or forward error recovery methods or both in Business-to-Business (B2B) process collaboration. To avoid committing irrevocable tasks followed by exceptions, B2B processes, which guarantee the atomicity sphere property, are attractive. While atomicity sphere ensures its outcomes to be either all or nothing, conflicting local recoveries may lead to global B2B inconsistencies. Existing (global) analysis techniques however mandate every process unveiling all individual tasks. Such an analysis is infeasible when some business parties refuse to disclose their process details for privacy or business reasons. To address this problem, we propose a process algebraic technique to prove, construct, and check atomicity-equivalent public views from B2B processes. By checking atomicity spheres in the composition of these public views, business parties can identify suitable services that respect their individual and overall atomicity requirements. An example based on a real-life multilateral supply chain process is included.

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发布和组合用于B2B协作的原子等效服务

在企业对企业(B2B)流程协作中，异常处理通过向后或向前错误恢复方法解决不一致问题。为了避免提交带有异常的不可撤销任务，保证原子性领域属性的B2B流程非常有吸引力。虽然原子性范围确保其结果要么全部，要么没有，但冲突的本地恢复可能导致全局B2B不一致。然而，现有的(全局的)分析技术要求每个流程揭示所有单独的任务。当某些业务方出于隐私或业务原因拒绝披露其流程细节时，这种分析是不可行的。为了解决这个问题，我们提出了一种过程代数技术来证明、构造和检查B2B过程中的原子等效公共视图。通过检查这些公共视图组合中的原子性领域，业务各方可以识别符合其单独和总体原子性需求的合适服务。包括一个基于现实生活中的多边供应链流程的例子。

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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Proceedings of the 28th international conference on Software engineering

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