用于测试网络接口成对覆盖的实用策略

Proceedings of ISSRE '96: 7th International Symposium on Software Reliability Engineering Pub Date : 1996-10-30 DOI:10.1109/ISSRE.1996.558835

A. Williams, R. Probert

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引用次数: 181

摘要

分布式系统由许多相互作用的网络元素组成。随着网络元素和每个网络元素的可交换组件数量的增加，系统测试人员面临的权衡是测试配置覆盖的全面性与可用的有限时间和费用资源。解决这种权衡的一种方法是确定一组测试配置，用于测试网络组件的每个成对组合。这个目标给出了一个定义良好的测试覆盖级别，减少了系统配置的数量。为了选择这样一组测试配置，我们展示了如何应用正交拉丁方方法，从平衡统计实验的设计。由于理论处理假设了在实践中可能不满足的约束，因此我们将展示如何使这种方法适应实际应用约束。

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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A practical strategy for testing pair-wise coverage of network interfaces

Distributed systems consist of a number of network elements that interact with each other. As the number of network elements and interchangeable components for each network element increases, the trade-off that the system tester faces is the thoroughness of test configuration coverage vs. limited resources of time and expense that are available. An approach to resolving this trade-off is to determine a set of test configurations that test each pair-wise combination of network components. This goal gives a well-defined level of test coverage, with a reduced number of system configurations. To select such a set of test configurations, we show how to apply the method of orthogonal Latin squares, from the design of balanced statistical experiments. Since the theoretical treatment assumes constraints that may not be satisfied in practice, we then show how to adapt this approach to realistic application constraints.

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来源期刊

Proceedings of ISSRE '96: 7th International Symposium on Software Reliability Engineering

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