Software Testing: According to Plan!

2019 IEEE International Conference on Software Testing, Verification and Validation Workshops (ICSTW) Pub Date : 2019-04-01 DOI:10.1109/ICSTW.2019.00028

Josip Bozic, F. Wotawa

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引用次数: 3

Abstract

Automated planning and scheduling represents a branch of classical artificial intelligence (AI) research. Although initially used in robotics and intelligent agents, the use of planning for testing purposes has increased over the years. There sequences of actions representing interactions with the system under test guide the test execution towards reaching a test purpose. A planning problem is formally defined as a model that resembles the interaction with a real system under test (SUT). The obtained solutions are generated, i.e., the plans, directly correspond to test cases. The planning model offers the possibility to generate test cases with a great variety of interactions without the need for an extensive model definition. Until now, planning has proven to be efficient in detecting both functional and non-functional issues. The second play a major role in uncovering vulnerabilities in software. In fact, testing of any domain can be specified as a planning problem. The purpose of this paper is to summarize previous research in the domain of planning for testing including discussing examples from multiple domains.

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软件测试:按计划进行!

自动化计划与调度是经典人工智能研究的一个分支。虽然最初用于机器人和智能代理，但为了测试目的而使用计划的情况近年来有所增加。这些动作序列表示与测试下系统的交互，指导测试执行以达到测试目的。计划问题被正式定义为类似于与实际被测系统(SUT)交互的模型。生成得到的解决方案，即计划，直接对应于测试用例。计划模型提供了生成具有多种交互的测试用例的可能性，而不需要广泛的模型定义。到目前为止，计划已被证明在检测功能性和非功能性问题方面都是有效的。后者在发现软件漏洞方面起着重要作用。事实上，任何领域的测试都可以被指定为一个计划问题。本文的目的是总结以往在测试计划领域的研究，包括讨论来自多个领域的例子。

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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来源期刊

2019 IEEE International Conference on Software Testing, Verification and Validation Workshops (ICSTW)

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