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CS 426 CS 791z Topics on Software Engineering

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1 CS 426 CS 791z Topics on Software Engineering
Chapter 3: The Requirements Workflow [Arlow & Neustadt, 2005] March 26, 2015

2 Outline The requirements workflow Metamodel for software requirements
Requirements workflow details The importance of requirements Defining requirements

3 The Requirements Workflow.
Fig. 3.2 [Arlow & Neustadt 2005] shows that most of the work in requirements workflow occurs in Inception and Elaboration phases

4 .The Requirements Workflow
The purpose of the requirements workflow is to reach an agreement on what the system should do, expressed in a way accessible to the users of the system Requirements engineering involves: elicitation, negotiation, conflict resolution, prioritization, documentation, and maintenance of requirements Various stakeholders are involved in establishing the set of requirements for the system UML uses cases describe functional requirements, but non-functional requirements need different description

5 Metamodel for Software Requirements
Arlow & Neustadt’s approach for requirements engineering is shown in Fig. 3.3 [Arlow 2002]. Details can be found in Section 3.3

6 Requirements Workflow Detail.
Specific tasks for UP (Unified Process) requirements workflow Fig. 3.4 [Arlow & Neustadt 2005]

7 .Requirements Workflow Detail
Arlow and Neustadt extend slightly the UP requirements workflow with the addition of new tasks: find functional requirements, find non- functional requirements, prioritize requirements, & trace requirements to use cases. As such, non-functional requirements can be addressed as well, along with the traditional UP/UML treatment of functional requirements via use cases. Fig. 3.5 [Arlow & Neustadt 2005]

8 The Importance of Requirements
Requirements engineering is about establishing what the stakeholders need from the system Requirements engineering encompasses elicitation, negotiation, conflict resolution, prioritization, documentation, and maintenance of requirements Poor requirements engineering is the major cause of software project failure The second major cause of software project failure is lack of user participation

9 Defining Requirements.…
Requirement: “a specification of what should be implemented” There are two types of requirements: Functional requirements: describe the desired behaviour of the system Non-functional requirements: specify particular properties of or constraints on the system In theory, the set of requirements should be only about “what” the system should do, but in practice it is not possible to avoid “how” aspects of the system

10 .Defining Requirements...
The SRS (Systems Requirements Specification) is the document that contains the set of requirements expected to be satisfied by the system, both functional and non-functional There are many ways to write an SRS (“company dependent” ways) The SRS provides the input for the analysis and design phases of the development process The bottom line regarding the SRS is: “does it help me to understand what the system should do or not?”

11 ..Defining Requirements..
Simple format recommended for well-formed requirements: <id> The <system> shall <function> Examples of functional requirements (what the system should do): 1 The ATM shall check the validity of the ATM card inserted. 2 The ATM shall validate the PIN number entered by the client. 3 The ATM shall dispense no more than $500 against any ATM card in any 24-hour period Examples of non-functional requirements (constraints on or properties of the system): 1 The ATM shall be written in C++. 2 The ATM shall validate the PIN in three seconds or less.

12 …Defining Requirements.
Organizing requirements: a more complex taxonomy can be used when there are many requirements, e.g. Functional requirements Customers Products Orders Sales channels Payments Non-functional requirements: Performance Capacity Availability Compliance with standards Security

13 ….Defining Requirements
Requirements may have attributes, e.g. Must have Should have Could have Want to have [the MoSCoW system] Requirement attributes in RUP: Status (proposed, approved, rejected, incorporated) Benefit (critical, important, useful) Effort (measured in person*day or function points) Risk (high, medium, low) Stability (high, medium, low) TargetRelease (product version when implemented)

14 Finding Requirements.. Requirements come from the context of the system: Direct users Other stakeholders (e.g., managers, maintainers, installers) Other systems that interact with the system Hardware devices attached to the system Legal and regulatory constraints Technical constraints Business goals

15 .Finding Requirements “The map is not the territory” (that is, a model is not the real thing). When modeling, we apply three cognitive filters that simplify our effort [Chomsky, 1975]: Deletion (information is filtered out) Distortion (information is modified) Generalization (information is abstracted into rules, principles, etc) In requirements specification we need to identify the application of the above filters and find “challenges” for them to recover information In particular, universal quantifiers such as all, everyone, always, never, nobody, none should be inspected closely for accuracy

16 ..Finding Requirements Interviews:
Don’t imagine a solution Don’t mind read Ask context-free questions Listen Have patience! Questionnaire: they can supplement interviews. Good at getting answers to closed questions Requirements workshop Participants: facilitator, requirements engineer, stakeholders, domain experts Procedure: 1 Brainstorm (accept all ideas) 2 Identify key requirements 3 Iterate over, refine, and prioritize requirements


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