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NON-FUNCTIONAL PROPERTIES IN SOFTWARE PRODUCT LINES:
A FRAMEWORK FOR DEVELOPING QUALITY-CENTRIC SOFTWARE PRODUCTS
May 2014
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Mahdi Noorian
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Content
Background Motivation Research Objectives Approach Overviews Conclusion
Mercedes-Benz Product Line
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Background
Software Product Line Systematic reuse based development
approach. Commonalities and variabilities. Developing families of software systems.
Consists of two main lifecycles: Domain engineering Application engineering
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Background
Software product line based on FORM method.
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Background
Feature Models The main artefact of domain analysis. Variability model. Features are organized through a set of constraints.
Structural constraints (Mandatory, Optional, Alternative, OR) Integrity constraints (Include, Exclude)
Feature Model Configuration In application engineering, the process of selecting the
desirable set of features from the feature model is called configuration process.
Configuration process depend on: feature model constraints, and users’ requirements.
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Background
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Background
Goal Models Provide a framework for capturing and
managing early stage system requirements. Intentional variability. It generally built over three important
concepts: Goals (a desired result for system under
development that stakeholders plan to achieve), Softgoals (refer to non-functional properties of
system), Tasks (tasks are the methods that can
operationalize goals).
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Background
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Content
Background Motivation Research Objectives Approach Overviews Conclusion
Mercedes-Benz Product Line
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Motivation
Feature models are widely accepted as one of the important tools for domain modeling. Mostly capture functional and operational
variability of a system. Non-functional properties of the system
alongside with functional properties need to be captured and managed from the early stage of development process.
There is a lack of systematic approaches to deal with non-functional properties within feature models.
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Motivation
Software product line configuration is an important step in application engineering. selection of desirable set of features is very difficult task
for the users and product designers. Complexity of the variabilities represented by feature models. Size of feature model configuration space.
The feature selection depends on the restrictions placed by users’ requirements (functional and non-functional), preferences and feature model constraints.
There is a lack of methods or processes that can help to identify the set of desirable features to fulfill the users’ needs.
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Content
Background Motivation Research Objectives Approach Overviews Conclusion
Mercedes-Benz Product Line
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Research Objectives
Quality-centric Feature Modeling Addressing non-functional properties from the
early stage of software product lines. Connecting intentional variability models such
as goal models with feature variability models in a target domain.
Quality-centric Feature Model Configuration Developing optimized software products with
respect to users’ objectives (functional and non-functional) and preferences.
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Content
Background Motivation Research Objectives Approach Overviews Conclusion
Mercedes-Benz Product Line
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Approach Overview
Optimized Product
User’sObjectives and
Preferences
Feature SelectionUser Requirement Analysis
Domain Requirement Engineering
(Goal Modeling)
Ap
plic
atio
n E
ng
inee
rin
g
û ü
Domain Analysis(Feature Modeling)
ü
Integration Process
Configuration
Mapping
Do
mai
n E
ng
inee
rin
g
Quality-centric Feature Modeling
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Quality-centric Feature Modeling
Model Element
Enrichment
FM & GM
Semantic Annotatio
n
Mapping Recommenda
tion
Building Quality-centric Feature Model
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2Domain Textual Assets
Extended FM & GM with
Textual Snippets
Annotated FM & GM with
Ontological Concepts
External Ontologies
Mapping Links
QcFM
Control flowInput
Output
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Quality-centric Feature Modeling
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Quality-centric Feature Modeling
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Quality-centric Feature Modeling
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Quality-centric Feature Modeling
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Quality-centric Feature Modeling
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Quality-centric Feature Modeling
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Quality-centric Feature Modeling
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Content
Background Motivation Research Objectives Approach Overviews Conclusion
Mercedes-Benz Product Line
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Conclusion
A semi-automatic approach to systematically integrate feature models, which represent functional aspects of a domain, and goal models, which represent non-functional properties. Through this integration, the quality aspects of the
domain can be captured from the early stage of SPL development.
An automated configuration process for developing optimized software product with respect to users’ functional properties, non-functional properties, and preferences.
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Thank you
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