ITEQS 2018

2nd International Workshop on Testing Extra-Functional Properties and Quality Characteristics of Software Systems (ITEQS)

Co-located with ICST 2018

As the presence and role of computer systems in our daily life increases, we rely more and more on the services that are provided by software. On one hand, more tasks and functions are delegated to software systems (e.g., in the automotive domain), and on the other hand, the expectations and demands on the variety of services provided by these systems are dramatically growing (e.g., in mobile phones). In this context, the success of a software product may not only be dependent on logical correctness of its functions, but also on their quality characteristics and how they perform. Such system characteristics, which are referred to and captured as Extra-Functional Properties (EFPs), or Non-Functional Properties, have determinant importance particularly in resource constrained systems. For instance, in real-time embedded domain there can be limitations on available memory, CPU and processing capability, power consumption, and so on, that need to be considered along with timing requirements of an application. Considering the rapid development towards increased integration of software with the social and physical world that we see today, quality aspects become more important in an increasing number of the systems and devices we use and depend on. These systems therefore, need to be tested with a special attention to EFPs such as safety, security, performance and robustness.

Testing a system with respect to its EFPs, however, poses specific challenges and traditional functional testing methods and approaches may not simply be applicable. Examples of such challenges are: fault localization, the need to have appropriate techniques for different types of EFPs, the role and impact of the environment in testing EFPs, observability and testability issues, coverage and test-stop criteria, modeling EFPs and generating meaningful test cases, mutation operators for EFPs, etc.

Towards the goal of ITEQS, the topics of interest for the workshop include, but are not limited to, the following:

• Model-based testing of EFPs; e.g., choice of modeling languages to capture EFPs and their role on testability, model-based test case generation, etc.
• Mutation-based testing for EFPs; e.g., application of mutation techniques for testing of EFPs particularly introduction of EFP-specific mutation operators
• Search-based testing techniques for EFPs
• Testability, observability, and the role of the platform; e.g., how choosing an operating system can impact testability of EFPs, for instance, a real-time operating system, introducing testability mechanisms into a platform, designing middlewares for testing of EFPs
• Empirical studies and experience reports; e.g., on the importance of testing EFPs, evaluation of testing methods, case-study and reports on project failures due to EFPs, comparison of methods and techniques
• Quality assurance, standards, and their impact on testing EFPs
• Requirements and testing EFPs; e.g., identification and generation of test oracles for EFPs from requirements, requirements for testability, traceability
• Coverage criteria in testing EFPs
• Processes and their role in testing EFPs; e.g., agile and TDD
• Fault localization for EFPs and debugging
• Formal methods, model-checking, and reasoning about EFPs
• Parallelism, Concurrency, and Testing of multicore applications
• Performance, Robustness, and Security Testing
• Testing real-time, embedded, and cyber-physical systems, and their challenges
• Testing quality characteristics of distributed, mobile, and cloud applications

ITEQS provides a well-focused forum with the goal of bringing together researchers and practitioners to share ideas, identify challenges, propose solutions and techniques, and in general expand the state of the art in testing EFPs and quality characteristics of software systems and services.