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Petriu, Dorina - Department of Systems and Computer Engineering, Carleton University
Capabilities of the UML Profile for Schedulability Performance and Time (SPT) Murray Woodside and Dorina Petriu
{huascar.espinoza, hubert.dubois, sebastien.gerard}@cea.fr -$ # 2)334
Integrating Performance Analysis in the Model Driven Development of Software Product Lines
ArchitectureBased Performance Analysis Applied to a Telecommunication System
A Pattern Language For Improving the Capacity of Layered Client/Server Systems with Multi-Threaded Servers
Performance Analysis of UML Models Using Aspect-Oriented Modeling Techniques
Performance by Unified Model Analysis (PUMA) Murray Woodside, Dorina C. Petriu,
Deriving Software Performance Models from Architectural Patterns
Extending the UML Profile for Schedulability Performance and Time (SPT) for component-based systems
Abstraction-raising Transformation for Generating Analysis Models
Approximate Mean Value Analysis based on Markov Chain Aggregation by Composition
Applying the UML Performance Profile: Graph Grammar-based Derivation
HIERARCHICAL END-TO-END SERVICE Mohamed El-Darieby1
Software Model-based Performance Dorina C. Petriu
Journal of Software and Systems Modeling manuscript No. (will be inserted by the editor)
Performance Analysis of Security Aspects by Weaving Scenarios Extracted from UML Models
Adding Dependability Analysis Capabilities to the MARTE Profile
Towards Automatic Derivation of a Product Performance Model from a UML Software Product Line Model
Performance Analysis based on the UML SPT Profile1
From UML to LQN by XML algebra-based model transformations
A Hierarchical Distributed Protocol for MPLS Path Creation Mohamed El-Darieby1
From UML descriptions of high-level software architecture to LQN performance models
VIRTUAL THEATER for Industrial Training: A Collaborative Virtual Environment
The paper discusses features of a new generation of intelligent sensing agents and sensor-based appliances
to offer is the ability to explore a range of configurations and workload mixes, and to detect the causes of perfor
Deriving Software Performance Models from Architectural Patterns by Graph Transformations
Dependability modeling and analysis of software systems specified SIMONA BERNARDI, Centro Universitario de la Defensa
