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Automated Navigation Model Extraction For Web Load TestingKara, Ismihan Refika 01 December 2011 (has links) (PDF)
Web pages serve a huge number of internet users in nearly every area. An
adequate testing is needed to address the problems of web domains for more efficient
and accurate services. We present an automated tool to test web applications against
execution errors and the errors occured when many users connect the same server
concurrently. Our tool, called NaMoX, attains the clickables of the web pages, creates a
model exerting depth first search algorithm. NaMoX simulates a number of users, parses
the developed model, and tests the model by branch coverage analysis. We have
performed experiments on five web sites. We have reported the response times when a
click operation is eventuated. We have found 188 errors in total. Quality metrics are
extracted and this is applied to the case studies.
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An Ingetrated Method for Model-Based TestingHsu, Ling-hsin 17 July 2008 (has links)
The main goal of testing is to find errors in the System Under Test (SUT). Prior research indicated that Model-Based Testing is indeed good at finding SUT errors, can lead to less time and effort spent on testing if the time needed to write and maintain the model plus the time spent on directing the test generation is less than the cost of manually designing and maintaining a test suite. This study proposed a methodology for Model-Based Testing. In this approach, Sequence Diagrams and Class Diagram are used to determine the testing path and test case and Object Constraint Language is used to specify the business logic constraint. Three real-world cases and a CASE tool are used to test the usability (including the concepts, application, and advantages) of the proposed methodology. With this approach, SUT errors can be found at the systems analysis and design stage and thereby reduce the cost of software testing and enhance the efficiency of system development.
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Automatic Construction of Integrated Testing Model from PIM: Methodology and PrototypeChen, Ying-ju 17 July 2009 (has links)
The main goal of model testing is to find system errors at the systems analysis and design stage and thereby reduce the cost of software testing and enhance the efficiency of system development. Prior researches proposed an Integrated Method which utilizes the artifacts from the Platform Independent Model (PIM) to construct the test path and constrained class tuples (CCT). These two can then be integrated to construct an Integrated Testing Model (ITM) for determining the test data and test cases for Model-Based Testing.
This study develops a methodology which extracting the information from the Sequence Diagram and Class Diagram from the PIM to construct an ITM. The research methodology is articulated using the design science research methodology. A prototype embedded methodology has been developed. A usability evaluation is performed on the prototype to demonstrate its usability in terms of the factors, efficiency and effectiveness. With this methodology, the test paths, CCT and ITM can be generated automatically; thereby reducing the costs and increasing the efficiency of Model-Based Testing.
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Evaluation of Model-Based Testing on a Base Station ControllerTrimmel, Stefan January 2008 (has links)
<p>This master thesis investigates how well suited the model-based testing process is for testing a new feature of a Base Station Controller. In model-based testing the tester designs a behavioral model of the system under test, or some part of the system. This model is then given to a test generation tool that will analyze the model and produce interesting test cases. These test cases can either be run on the system in an automatic or manual way depending on what type of setup there is.</p><p>In this report it is suggested that the behavioral model should be produced in as early a stage as possible and that it should be a collaboration between the test team and the design team.</p><p>The advantages with the model-based testing process are a better overview of the test cases, the test cases are always up to date, it helps in finding errors or contradictions in requirements and it performs closer collaboration between the test team and the design team. The disadvantages with model-based testing process are that it introduces more sources where an error can occur. The behavioral model can have errors, the layer between the model and the generated test cases can have errors and the layer between the test cases and the system under test can have errors. This report also indicates that the time needed for testing will be longer compared with manual testing.</p><p>During the pilot, when a part of a new feature was tested, of this master thesis a test generation tool called Qtronic was used. This tool solves a very challenging task which is generating test cases from a general behavioral model and with a good result. This tool provides many good things but it also has its shortages. One of the biggest shortages is the debugging of the model for finding errors. This step is very time consuming because it requires that a test case generation is performed on the whole model. When there is a fault in the model then this test generation can take very long time, before the tool decides that it is impossible to cover the model.</p><p>Under the circumstances that the Qtronic tool is improved on varies issues suggested in the thesis, one of the most important issues is to do something about the long debugging time needed, then the next step can be to use model-based testing in a larger evaluation project at BSC Design, Ericsson.</p>
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Towards a test generation approach for compositional real-time systems.DAMASCENO, Adriana Carla. 25 January 2018 (has links)
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Previous issue date: 2015-03-06 / We can find many examples of Real-time Systems (RTS) in critical applications such
as patient monitoring, air traffic control and others. A failure in this kind of system
can be catastrophic. For example, it can harm human lives or increase project budgets.
Hence, the testing of real-time systems must be accurate. Models are used to
perform this task, since they contain information about how the system behaves and
when actions may happen. Due to the complexity of the available systems, most RTS
are composed of subsystems that interact as part of a bigger system. These subsystems
are combined through operators to model their specification behavior. However, works
on the testing of compositional models for RTS are practically nonexistent. Among the
available approaches to perform testing for non-compositional RTS models, the tioco
conformance testing theory focuses on generating test cases based on implementation
and specification models. Moreover, a conformance relation defines whether success in
testing means conformance between an implementation and a specification. To express
specifications and to represent implementations under test, we use Timed Input Output
Symbolic Transitions Systems (TIOSTS). These models store symbolic data and
clock variables, avoiding the state space and region explosion problems. Regarding the
testing of compositional models, some questions may arise: If two subsystem implementations
are tioco conformant to their specifications, is it correct to assume that the
composition of the implementations is also tioco conformant to the composition of their
specifications? In this case, how can operators be defined to work with TIOSTS and
tioco? To answer these questions, this thesis proposes the sequential, interruption and
parallel operators for the TIOSTS model. For each operator, we study how the tioco
conformance relation behaves with respect to subsystems and the composed system.
We present results towards properties of compositional operators when the subsystems
are composed, as well as implementing them. Besides, we show three examples
where each operator can be used and illustrate the applicability of our approach in two
exploratory studies. The first models components of a aircraft specification and the
second presents application level interruptions in an Android system. / We can nd many examples of Real-time Systems (RTS) in critical applications such as patient monitoring, air tra c control and others. A failure in this kind of system
can be catastrophic. For example, it can harm human lives or increase project budgets.
Hence, the testing of real-time systems must be accurate. Models are used to
perform this task, since they contain information about how the system behaves and
when actions may happen. Due to the complexity of the available systems, most RTS
are composed of subsystems that interact as part of a bigger system. These subsystems
are combined through operators to model their speci cation behavior. However, works
on the testing of compositional models for RTS are practically nonexistent. Among the
available approaches to perform testing for non-compositional RTS models, the tioco
conformance testing theory focuses on generating test cases based on implementation
and speci cation models. Moreover, a conformance relation de nes whether success in
testing means conformance between an implementation and a speci cation. To express
speci cations and to represent implementations under test, we use Timed Input Output
Symbolic Transitions Systems (TIOSTS). These models store symbolic data and
clock variables, avoiding the state space and region explosion problems. Regarding the
testing of compositional models, some questions may arise: If two subsystem implementations
are tioco conformant to their speci cations, is it correct to assume that the
composition of the implementations is also tioco conformant to the composition of their
speci cations? In this case, how can operators be de ned to work with TIOSTS and
tioco? To answer these questions, this thesis proposes the sequential, interruption and
parallel operators for the TIOSTS model. For each operator, we study how the tioco
conformance relation behaves with respect to subsystems and the composed system.
We present results towards properties of compositional operators when the subsystems
are composed, as well as implementing them. Besides, we show three examples
where each operator can be used and illustrate the applicability of our approach in two
exploratory studies. The rst models components of a aircraft speci cation and the
second presents application level interruptions in an Android system.
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Model-based Testing of supporting testing of PAC based controlling systems in industrial plants - A case study in printing plantsFu, Jiangbiao, Song, Jiaqi January 2018 (has links)
Context. Testing is a very critical process to evaluate whether a related function is correctly implemented in the control system. There is an upward trend to using PAC based control system in the automation production context. However, currently, most testing of PAC based controlling system is in manual testing, which has low efficiency and high complexity. Furthermore, there has been little research on the systematic testing of PAC in an industry environment. Objectives. Due to this problem, this study is to investigate whether a model-based testing method can overcome the challenge of manual testing and improve the testing effectiveness in PAC based controlling system. Methods. We use three steps to achieve the objective, and the first one is to implement a systematic mapping study to find existing model-based testing method that is using in the industrial area, what the process and the context. The second one is to implement a case study in a printing house, to see what the real challenge of manual testing, the third one is to find if exist MBT method could be used under such context to overcome challenges. Results. Through mapping study and case study, we found there are many testing methods and implement under diverse context, but none of them focus on the PAC based controlling system. And we found there exist MBT that also can be used in PAC based controlling system to mitigate some manual testing challenges. Conclusions. In our thesis, we implement a mapping study from 38 papers to collect data for existing model-based testing methods to have a deep understanding of this area. We found there are five main contexts that MBT are usually being used and we extract implement process and advantages and disadvantages for MBT methods which value to practitioners and researchers. And we conducted a case study in a printing house in Switzerland to observe the challenges of manual testing of PAC based controlling system. We found one exist MBT method that can be used in our context that makes the test case generation step more effective. And we proposed a simulation testing model that hopefully can address all the manual testing challenges by combined with the exist MBT method.
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Evaluation of Model-Based Testing on a Base Station ControllerTrimmel, Stefan January 2008 (has links)
This master thesis investigates how well suited the model-based testing process is for testing a new feature of a Base Station Controller. In model-based testing the tester designs a behavioral model of the system under test, or some part of the system. This model is then given to a test generation tool that will analyze the model and produce interesting test cases. These test cases can either be run on the system in an automatic or manual way depending on what type of setup there is. In this report it is suggested that the behavioral model should be produced in as early a stage as possible and that it should be a collaboration between the test team and the design team. The advantages with the model-based testing process are a better overview of the test cases, the test cases are always up to date, it helps in finding errors or contradictions in requirements and it performs closer collaboration between the test team and the design team. The disadvantages with model-based testing process are that it introduces more sources where an error can occur. The behavioral model can have errors, the layer between the model and the generated test cases can have errors and the layer between the test cases and the system under test can have errors. This report also indicates that the time needed for testing will be longer compared with manual testing. During the pilot, when a part of a new feature was tested, of this master thesis a test generation tool called Qtronic was used. This tool solves a very challenging task which is generating test cases from a general behavioral model and with a good result. This tool provides many good things but it also has its shortages. One of the biggest shortages is the debugging of the model for finding errors. This step is very time consuming because it requires that a test case generation is performed on the whole model. When there is a fault in the model then this test generation can take very long time, before the tool decides that it is impossible to cover the model. Under the circumstances that the Qtronic tool is improved on varies issues suggested in the thesis, one of the most important issues is to do something about the long debugging time needed, then the next step can be to use model-based testing in a larger evaluation project at BSC Design, Ericsson.
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Model-Based Testing: An EvaluationNordholm, Johan January 2010 (has links)
Testing is a critical activity in the software development process in order to obtain systems of high quality. Tieto typically develops complex systems, which are currently tested through a large number of manually designed test cases. Recent development within software testing has resulted in methods and tools that can automate the test case design, the generation of test code and the test result evaluation based on a model of the system under test. This testing approach is called model-based testing (MBT). This thesis is a feasibility study of the model-based testing concept and has been performed at the Tieto office in Karlstad. The feasibility study included the use and evaluation of the model-based testing tool Qtronic, developed by Conformiq, which automatically designs test cases given a model of the system under test as input. The experiments for the feasibility study were based on the incremental development of a test object, which was the client protocol module of a simplified model for an ATM (Automated Teller Machine) client-server system. The experiments were evaluated both individually and by comparison with the previous experiment since they were based on incremental development. For each experiment the different tasks in the process of testing using Qtronic were analyzed to document the experience gained as well as to identify strengths and weaknesses. The project has shown the promise inherent in using a model-based testing approach. The application of model-based testing and the project results indicate that the approach should be further evaluated since experience will be crucial if the approach is to be adopted within Tieto’s organization.
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Automatic Test Generation and Mutation Analysis using UPPAAL SMCLarsson, Jonatan January 2017 (has links)
Software testing is an important process for ensuring the quality of the software. As the complexity of the software increases, traditional means of manual testing becomes increasingly more complex and time consuming. In most embedded systems, designing software with as few errors as possible is often critical. Resource usage is also of concern for proper behavior because of the very nature of embedded systems. To design reliable and energy-efficient systems, methods are needed to detect hot points of consumption and correct them prior to deployment. To reduce testing effort, Model-based testing can be used which is one testing method that allows for automatic testing of model based systems. Model-based testing has not been investigated extensively for revealing resource usage anomalies in embedded systems. UPPAAL SMC is a statistical model checking tool which can be used to model the system’s resource usage. Currently UPPAAL SMC lacks the support for performing automatic test generation and test selection. In this thesis we provide this support with a framework for automatic test generation and test selection using mutation analysis, a method for minimizing the generated test suite while maximizing the fault coverage and a tool implementing the framework on top of the UPPAAL SMC tool. The thesis also evaluates the framework on a Brake by Wire industrial system. Our results show that we could for a Brake-by-wire system, simulated on a consumer processor with five mutants, in best case find a test case that achieved 100% mutation score within one minute and confidently identify at least one test case that achieved full mutation score within five minutes. The evaluation shows that this framework is applicable and relatively efficient on an industrial system for reducing continues resource usage target testing effort.
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Generating Test Adapters for ModelJunitHashemi Aghdam, Ardalan January 2017 (has links)
Concretization is one of the most labor-intensive phases of the model-based testing process. This study concentrates on concretization of the abstract tests generated from the test models. The purpose of the study is to design and implement a structure to automate this phase which can reduce the required effort specially in every system update. The structure is completed and discussed as an extension on a model-based testing tool named ModelJUnit using adaptation approach. In this structure, the focus is mainly on bridging the gap in data-level between the SUT and the model.
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