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Preface; Contents; Prediction of the Performance of Web Based Systems; 1 Introduction; 2 Web Based Systems; 2.1 Simple Web Server Architecture; 2.2 Distributed Web Services Architecture; 3 System Performance Characteristics; 3.1 Average Service Response Time; 3.2 Service Availability; 3.3 Maximum System Throughput; 4 Performance Prediction Using Network Simulation Techniques; 4.1 Virtual Testbed Environment; 4.2 Server Response Prediction; 4.3 Interaction with Other Services; 4.4 Services Deployed on the Same Host; 4.5 Models Based on Service Choreography; 5 Conclusions; References
Modelling Uncertain Aspects of SystemDependability with Survival Signatures1 Introduction; 2 The Structure Function as (Imprecise) Probability; 3 Survival Signature with Generalized Structure Function; 4 Multiple Types of Tasks; 5 Example; 6 Discussion; References; Improving the Dependability of Distributed Surveillance Systems Using Diverse Redundant Detectors; 1 Introduction; 2 Background; 2.1 Related Works; 2.2 Event Description Language; 3 Heuristic Distance Metrics for Event Trees; 3.1 Definition of Distance Metrics; 3.2 Implementation in DETECT; 3.3 Distance Metrics Examples
4 Measuring Detection Trustworthiness in Real-Time5 Conclusions and Future Work; References; Testing-as-a-Service for Mobile Applications: State-of-the-Art Survey; 1 Introduction; 2 Cloud-Based Testing; 3 Mobile Application Testing; 4 Mobile Testing Services; 4.1 Device Clouds; 4.2 Application Lifecycle Management Services; 4.3 Device Cloud-Based Testing Techniques; 5 Standalone Tools for Mobile Application Testing; 6 Research Studies in Mobile Testing; 7 Combinatorial Testing; 8 Conclusions; References; Agent Approach to Network Systems Dependability Analysis in Case of Critical Situations
1 Introduction2 Network Model; 3 Service Description; 3.1 Tasks; 3.2 Events; 3.3 System Maintenance; 3.4 Dependability Discussion; 4 Monitoring Architecture; 5 Description Language; 6 Critical Situations; 7 Conclusions; References; Model Transformation for Multi-objective Architecture Optimisation of Dependable Systems; 1 Introduction; 1.1 Model-Based Engineering and System Optimisation; 1.2 An Approach to System Optimisation for AADL Models; 2 Background; 3 Model Transformation Overview; 3.1 Translation of AADL Component Error Model to HiP-HOPS Failure Expressions
3.1.1 Mapping Error Sta ates and Error Events to Component Ports3.2 Transformation of AADL connections to HiP-HOPS Lines; 3.3 Model Transformation Implementation; 4 Case Study; 4.1 System Description; 4.2 Failure Data; 4.3 Analysis of the Wheel Brake System Model; 4.4 Design Optimization; 4.5 Optimization Results; 5 Conclusion and Future Work; References; Optimization in CIS Systems; 1 Introduction; 2 Optimization Technologies; 3 Optimization Troubles; 4 Space Landscape; 5 Solution Approaches; 6 The Newest Trends; 7 Multicriteria Approaches; 8 Parallel Methods; 9 Optimization Strategies
Modelling Uncertain Aspects of SystemDependability with Survival Signatures1 Introduction; 2 The Structure Function as (Imprecise) Probability; 3 Survival Signature with Generalized Structure Function; 4 Multiple Types of Tasks; 5 Example; 6 Discussion; References; Improving the Dependability of Distributed Surveillance Systems Using Diverse Redundant Detectors; 1 Introduction; 2 Background; 2.1 Related Works; 2.2 Event Description Language; 3 Heuristic Distance Metrics for Event Trees; 3.1 Definition of Distance Metrics; 3.2 Implementation in DETECT; 3.3 Distance Metrics Examples
4 Measuring Detection Trustworthiness in Real-Time5 Conclusions and Future Work; References; Testing-as-a-Service for Mobile Applications: State-of-the-Art Survey; 1 Introduction; 2 Cloud-Based Testing; 3 Mobile Application Testing; 4 Mobile Testing Services; 4.1 Device Clouds; 4.2 Application Lifecycle Management Services; 4.3 Device Cloud-Based Testing Techniques; 5 Standalone Tools for Mobile Application Testing; 6 Research Studies in Mobile Testing; 7 Combinatorial Testing; 8 Conclusions; References; Agent Approach to Network Systems Dependability Analysis in Case of Critical Situations
1 Introduction2 Network Model; 3 Service Description; 3.1 Tasks; 3.2 Events; 3.3 System Maintenance; 3.4 Dependability Discussion; 4 Monitoring Architecture; 5 Description Language; 6 Critical Situations; 7 Conclusions; References; Model Transformation for Multi-objective Architecture Optimisation of Dependable Systems; 1 Introduction; 1.1 Model-Based Engineering and System Optimisation; 1.2 An Approach to System Optimisation for AADL Models; 2 Background; 3 Model Transformation Overview; 3.1 Translation of AADL Component Error Model to HiP-HOPS Failure Expressions
3.1.1 Mapping Error Sta ates and Error Events to Component Ports3.2 Transformation of AADL connections to HiP-HOPS Lines; 3.3 Model Transformation Implementation; 4 Case Study; 4.1 System Description; 4.2 Failure Data; 4.3 Analysis of the Wheel Brake System Model; 4.4 Design Optimization; 4.5 Optimization Results; 5 Conclusion and Future Work; References; Optimization in CIS Systems; 1 Introduction; 2 Optimization Technologies; 3 Optimization Troubles; 4 Space Landscape; 5 Solution Approaches; 6 The Newest Trends; 7 Multicriteria Approaches; 8 Parallel Methods; 9 Optimization Strategies