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<span style="font-size:large">[[SSKE Knowledge/isPartOfProgram::FEUP MESG - Services Engineering and Management]]</span>
 
<span style="font-size:large">[[SSKE Knowledge/isPartOfProgram::FEUP MESG - Services Engineering and Management]]</span>
  
== Requirements Engineering for Services Course ==
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<span style="font-size:large">Requirements Engineering for Services Course</span>
  
 
=== Objectives, Skills and Learning Outcomes ===
 
=== Objectives, Skills and Learning Outcomes ===
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1. Introduction: scope and importance of requirements engineering; notion of requirement; types of requirements; classification of requirements based on ISO/IEC 9126 standard; process of requirements engineering; systems life-cycle context.<br/>2. Requirements discovery: source of requirements; traditional techniques (surveys, interviews, document analysis); group techniques (brainstorming, focus groups, RAD/JAD workshops); prototyping techniques; techniques directed by models (aims and scenario); cognitive techniques (laddering); contextual techniques (observation and social analysis).<br/>3. Analysis and negotiation of requirements: checklists, interaction or dependence matrices, requirements risks and priorities; consistence verification, requirements modeling (use case modelling and domain models)<br/>4. Requirements specification: structuring requirements documents; requirements table; wikis<br/>5. Requirements validation: checklists, prototyping, model validation, acceptance tests.<br/>6. Requirements management: &nbsp;alteration management, requirements attributes, requirements traceability; requirements management tools.
 
1. Introduction: scope and importance of requirements engineering; notion of requirement; types of requirements; classification of requirements based on ISO/IEC 9126 standard; process of requirements engineering; systems life-cycle context.<br/>2. Requirements discovery: source of requirements; traditional techniques (surveys, interviews, document analysis); group techniques (brainstorming, focus groups, RAD/JAD workshops); prototyping techniques; techniques directed by models (aims and scenario); cognitive techniques (laddering); contextual techniques (observation and social analysis).<br/>3. Analysis and negotiation of requirements: checklists, interaction or dependence matrices, requirements risks and priorities; consistence verification, requirements modeling (use case modelling and domain models)<br/>4. Requirements specification: structuring requirements documents; requirements table; wikis<br/>5. Requirements validation: checklists, prototyping, model validation, acceptance tests.<br/>6. Requirements management: &nbsp;alteration management, requirements attributes, requirements traceability; requirements management tools.
  
[[Category:SSKE Knowledge/University Course]]
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[[SSKE Knowledge/isTaughtBy::Paiva, Ana Cristina Ramada | ]]
  
[[SSKE Knowledge/isPartOfProgram::FEUP MESG - Services Engineering and Management| ]][[SSKE Knowledge/isTaughtBy::Paiva, Ana Cristina Ramada | ]]
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[[Category:SSKE Knowledge/University Course|SSKE_Knowledge/University_Course]]

Latest revision as of 00:08, 19 May 2012

FEUP MESG - Services Engineering and Management

Requirements Engineering for Services Course

Objectives, Skills and Learning Outcomes

To endow students with skills to plan, manage and carry out a process of analysis and specification of requirements of a service system based in technologies.

Program

1. Introduction: scope and importance of requirements engineering; notion of requirement; types of requirements; classification of requirements based on ISO/IEC 9126 standard; process of requirements engineering; systems life-cycle context.
2. Requirements discovery: source of requirements; traditional techniques (surveys, interviews, document analysis); group techniques (brainstorming, focus groups, RAD/JAD workshops); prototyping techniques; techniques directed by models (aims and scenario); cognitive techniques (laddering); contextual techniques (observation and social analysis).
3. Analysis and negotiation of requirements: checklists, interaction or dependence matrices, requirements risks and priorities; consistence verification, requirements modeling (use case modelling and domain models)
4. Requirements specification: structuring requirements documents; requirements table; wikis
5. Requirements validation: checklists, prototyping, model validation, acceptance tests.
6. Requirements management:  alteration management, requirements attributes, requirements traceability; requirements management tools.

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