Requirements management using SysML

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== Affecting project management==
 
== Affecting project management==
What makes SysML a powerfull model-based approach for requirements management comes down to that it is an Integrated model and not just a stand-alone requirements management tool. The way project manager benefit from having design specification, analysis, verification and system requirements integrated into one cohesive model, instead having these functions spread across multiple documents made with different approaches, can be distilled to:  reducing risk, harnessing complexity and increasing effectiveness in communication with stakeholders. Let us dive deeper into these point, and see how they practically are beneficial.
+
What makes SysML a powerfull model-based approach for requirements management comes down to that it is an Integrated model and not just a stand-alone requirements management tool. The way project manager benefit from having design specification, analysis, verification and system requirements integrated into one cohesive model, instead having these functions spread across multiple documents with different approaches, can be distilled to:  reducing risk, harnessing complexity and increasing effectiveness in communication with stakeholders. Let us dive deeper into these point, and see how they practically are beneficial.
  
'''Traceability'''
 
  
The integrated approach allows full traceability, meaning if an error occurs related to any given aspect, it is possible to literally pick up the entire network of relations. Picture pulling out a long thread of diagrams depicting exactly what that particular instance is influence by, and what caused the problem at hand.  In many organisations the act of tracing issues in the design is a very comprehensive analysis, as relationships are not captured in such a integrated manner, instead a manual search for errors would be initiated, which could delay other activities of the project and use unnecessary ressources.
+
'''Harnesing complexity'''
  
'''Effective impact analysis and trade-off analysis'''
+
Traceability
  
As all relations are captured in the model, it is more efficient to perform trade-off analysis and impact analysis of the system, as one can easily follow how changes affects the system.<ref name="A Practical Guide to SysML 2nd">A Practical Guide to SysML 2nd''. Page 20</ref> For the project manager this means, that when unexpected opportunities or threads changes the course of the project, the project manager has a rigores foundation to base decesion. This makes for a very effective understanding and exploration of the trade-off space, without the project manager needing to have particular domain specific knowledge as for example technical knowledge around building engines.
+
The integrated approach allows full traceability, meaning if an error occurs related to any given aspect, it is possible to literally pick up the entire network of relations. Picture pulling out a long thread of diagrams depicting exactly what that particular instance is influence by, and what caused the problem at hand. In many organisations the act of tracing issues in the design is a very comprehensive analysis, as relationships are not captured in such a integrated manner, instead a manual search for errors would be initiated, which could delay other activities of the project and use unnecessary ressources.
  
'''Communication:'''
+
Effiency
 
+
On the premise that stakeholders are familiar with the common language of SysML diagrams, the communication between stakeholders becomes more effective as stakeholder will have a shared understanding of the system, and regardless of domain specefic knowledge(kilde). The ability to integrate multiple and varous types diagrams, enables comprehensive relations to be easily communicated.
+
 
+
'''Effiency'''
+
  
 
The object-orieneted nature of SysML, enables reuse of existing documentation from similar instances in the same system, or from programs or prior projects. This is very powerfull feature, especially for managing programs of related projects. One could imagine a a program of car models with respective requirements structure, witch components more or less related to each other, where these component inherent structural relationsship from a higher generalised object describing the requirements related to that object type. If the entire organization choose to streamline into SysML, one could imagine the impact of lessons learned registered in prior project models affects how requirements in new projects are constructed.
 
The object-orieneted nature of SysML, enables reuse of existing documentation from similar instances in the same system, or from programs or prior projects. This is very powerfull feature, especially for managing programs of related projects. One could imagine a a program of car models with respective requirements structure, witch components more or less related to each other, where these component inherent structural relationsship from a higher generalised object describing the requirements related to that object type. If the entire organization choose to streamline into SysML, one could imagine the impact of lessons learned registered in prior project models affects how requirements in new projects are constructed.
  
 
The inheritance property makes for less paperwork and more lean work....
 
The inheritance property makes for less paperwork and more lean work....
 +
 +
'''Risk'''
 +
 +
Effective impact analysis and trade-off analysis
 +
 +
As all relations are captured in the model, it is more efficient to perform trade-off analysis and impact analysis of the system, as one can easily follow how changes affects the system.<ref name="A Practical Guide to SysML 2nd">A Practical Guide to SysML 2nd''. Page 20</ref> For the project manager this means, that when unexpected opportunities or threads changes the course of the project, the project manager has a rigores foundation to base decesion. This makes for a very effective understanding and exploration of the trade-off space, without the project manager needing to have particular domain specific knowledge as for example technical knowledge around building engines.
  
 
Increased quality:
 
Increased quality:
 
It promotes rigor and unambiguous design of the system which in turn drives more unambiguous requirements.
 
It promotes rigor and unambiguous design of the system which in turn drives more unambiguous requirements.
 +
 +
'''Effective Communication:'''
 +
 +
On the premise that stakeholders are familiar with the common language of SysML diagrams, the communication between stakeholders becomes more effective as stakeholder will have a shared understanding of the system, and regardless of domain specefic knowledge(kilde). The ability to integrate multiple and varous types diagrams, enables comprehensive relations to be easily communicated.
 +
  
 
A main driver for maturity level
 
A main driver for maturity level
  
Comparison  
+
'''Comparison with alternatives'''
 
There is may appraoches to requiremetents managment, one way poposed by the PMBOK, is through a ''requirements traceability matrix'' (RTM). This matrix relates entities on one axis with multiple requirements on the other axis in a typical spreadsheet manner. kilde: 5.2.3 CoLLeCT reQuIreMenTS: ouTPuTS The ctrique of this tool..Skriv her noget kritik og husk at få kilder på.
 
There is may appraoches to requiremetents managment, one way poposed by the PMBOK, is through a ''requirements traceability matrix'' (RTM). This matrix relates entities on one axis with multiple requirements on the other axis in a typical spreadsheet manner. kilde: 5.2.3 CoLLeCT reQuIreMenTS: ouTPuTS The ctrique of this tool..Skriv her noget kritik og husk at få kilder på.
  
 
Alot of the benefits of the SysML comes down to that it is model based and integrated. However there exist other languages that have these properties too, one them being UML. UML is also developed by Object Management Group and came out before SysML, SysML was created as a "dialect" on UML to also being able to describe physical systems constrained to physical relations. They main difference is the addition of the requirements diagram and....
 
Alot of the benefits of the SysML comes down to that it is model based and integrated. However there exist other languages that have these properties too, one them being UML. UML is also developed by Object Management Group and came out before SysML, SysML was created as a "dialect" on UML to also being able to describe physical systems constrained to physical relations. They main difference is the addition of the requirements diagram and....
 
Skriv om risk, og de tre ting nævnt i abstract.
 
  
 
==Limitations==
 
==Limitations==

Revision as of 13:44, 4 March 2019

Contents

Abstract

Every project involves producing deliveries constrained to highly interdependent requirements describing the relationships of the elements that make up the project. Managing the complexity of these requirements is crucial for projects success. Object-oriented modeling languages such as SysML provides a generic framework to construct so called models of engineering projects. These models make for a tool to comprehend specification complexity, thereby supporting the project manager to comply with quality, reduce risk, and be responsive to change in requirements. These strong abilities arises from the nature of object oriented modeling. Instead of archiving requirements in large amounts of text-documents (document approach), a model is build in a computer program that captures the multi-dimensional relationships between requirements across components, use cases, system level functioning, and performance. This enables full traceability, ie. a way to track down the impact of individual elements on the system, from micro to macro level. This ability is particularly supportive for projects managers, as they naturally cannot comprehend all details in a project, instead they must understand the overall system dynamics, that focuses on the relationships of the elements. One property of SysML, that drives strong representations of requirements, is the fact that it is a integrated model that specifies the entire system design and in a subset of this endeavour is relating multiple requirements to system components. In this article, a brief introduction to requirements management and SysML will be introduced laying the basis for further discussion about how modeling requirements with SysML affects the project manager particular in regards to; harnessing complexity, reducing risk, and communicating effectively with stakeholders and the project team.

Introduction to requirements management

The ISO 21500 project management standard defines a project as: “...a unique set of processes consisting of coordinated and controlled activities with start and end dates, performed to achieve project objectives. Achievement of the project objectives requires the provision of deliverables conforming to specific requirements. A project may be subject to multiple constraints." [1] The degree to which a project conforms to these specific requirements and constraints, is what determines the quality of the delivered project. If the outcome of the project does not comply with quality, the project may not meet the business objectives and harvest the benefits it was initiated for, or it may even negatively affect the entire organization, fx. if an accident occurs due to unmet safety requirements. Therefore the project organization prepare a requirement management plan, that answers to how requirements activities will be planned, tracked, reported, and how one can analyse change and achieve traceabilty. [2]

Maintaining and organizing the requirements is a non-trivial endeavor, as requirement is a broad term that can involve everything from functional (steering)/non function(reliability) requirements related to a products physical capabilities, to busienss objectives, use cases or even transitistiong requiremetns (Fx. A new software release has to be applicable with prior file versions). The complexity can be overwhelming in large scale projects as in automotive or medical industries, and it is hard to imagine how to order thousands of requirement in practice. It is essential that the project organization chose an effective requirements management approach ie. a way to organize the structures of requirements in an intelligent way that deem them useful through the life cycle of the project. This requirements structure helps to communicate and specify what should be delivered, how it will perform and how the performance are verified, and will therefore function as a baseline for evaluation during all stages of the project, and at closing to verify that the delivery is as the relevant stakeholder requested and agreed to. Before digging deeper into SysML in requirements management one must understand the different between the document-based and models-based approaches.



(skal den fjernes, eller rykkes ned?), and how object oriented paradigm may be beneficial for engineering systems, and not just software as original developed for.

Document-based or model-based

In many organisations the requirements mangement approach remains document-based. This means requirements are archived in text-documents (hard copy or digital), and depicted in hierarchal specification trees (components are split into sub-components etc.), with no synchronisation of elements between documents. This means if an element is changed or updated, a system-responsible has to manually make sure all other descriptions of that element across the documents is updated accordingly - naturally a proces prone to error. Part from the rigor and the difficulties of maintaining these documents through the project, this approach has fundamental limitation. [3] (kig lige på denne) The first being, it creates unnecessary large amounts of data, as similar components cannot reuse/inherent properties from elements already documented. The second being it can be difficult to depict the complex reality of the relations between components, as the classic can tree structure only reveals so much. The first issues makes it difficult to analyse and trace requirements, because the system is incomplete and spread over several documents, with other relation than inherit text reference. The second problem tells us that this structure is not a wholesome abstraction of the true relationships in the project. [3]


Project management office should instead look towards a model-based approach: "Model-based systems engineering (MBSE) is the formallized application of modeling to support system requirements, design, analysis, verification, and validation activities beginning in the conceptual design phase and continuing throughout development and later life cycle phases". [4] A model-based approach, as the SysML, is an object-oriented systems engineering method. (kilde). The product of the model-based approach is a coherent computer model, that handles objects instead of multiple text documents. These objects can have properties and functions, and may be modelled in a variety of ways. So if the object is changed in on setting, say a physical component is updated, then the object is automaticcaly upadted in the entire system, as all digrams refers to this same instance of the object. This means there is exist only one of the given component in the system, but this component can be viewed in different diagrams/views across the model, instead of one place in a tree structure. A mental way of understanding the model-based system is picturing a mountain. The mountain itself is the model "object" with all its different attributes say, plants, animals, and snow. The different view that can be extracted from the model to understand to system is then photographs of the mountain from different lokations. Two photos may show partly similar elements, but they will depict different truths about the mountain itself. [5]

Model-approaches has been used for many years in software industry, the most famous the language being the Unified Modeling Language made by Object Management Group. SysML is a visual modeling language developed by the Object Mangagement Group (OMG), as a profile/flavour/extension to the UML from software development. It is an object-oriented language specifically made to specify engineering systems. (Kilde)

System Modeling Langauge

SysML is a visual modeling language but not set of specific processes or a tool itself (kilde). It is also important to note that SysML is not a dedicated requirements mangagement system, it is a language for organising large complex structure specifically designed for making abstractions of engineering systems, and while doing so, tracking of requirements is a natural part of the specification of the system. This implies that every project organisation has to build their own model that fits their particular project.

SysML defines nine diagrams to construct a systems engineering model. A diagram pictures a particular kind of view into the model. For an accesable first introduction it is recommended to start with SysML Lite (A simplified version with six diagrams instead of nine). SysML models reality by constructing basic building block called "block diagrams". One can say, these are the artefacts that will be modelled, and relations between these will be described using the rest of the diagrams. A block digram can for example be a physical instance, say a valve, or a hierarchy of blacks say an engine, but is not limited hereto. (Kilde). With one or more block digram defined, one can begin modelling relationships to these blocks. The Activity digram describes behavior or sequences in the system, this could be a use case-scenario or the flow of air though a valve. Parametrics are typically equations that describe natural laws operating around a system. An air pump could have gas laws governing the flow with certain parameters described in an equation. The internal block diagram is analogous to opening op a certain block and describing the port (input and output) of that black. (See picture).


The way in which the different diagrams defines a holistic represetation is by combining them: a flow generator (block) might be part og a flow diagram (activity) where flow is parametrized by an equation (Parametrics). At any given time the viewer can decide to query a certain view/diagram to reveal that aspect of the model. The life cycle of the model evovles around building a simple general model in the begning, and refining it through the life cycle. In practice this means, that the project manager start by roughly sketching the top level of the system with stakeholders, and as the project phases go on, and more and more information is known, the model is detail further and further, as it is posibble to create a digram wihtout specying it.


Requirements diagram and Requirements Management

The requirements diagram draw requirement relationships to other diagrams. SysML provides seven different relationtypes; composite, derive, define, satisfy, verify, copy, and trace. The relation type "satisfy" can be used to depict that a certain diagram satisfy a requirement, fx. an ABS breaking systems satisfy a requirement related to breaking distance. A trace relation can relate the rationale behind a requirement to a given diagram or artefact say a market analysis, and as the figure depicts a verify relation can show how a requirement supposedly satisfied is going to be verified. [6] In practice a combination of the requirement diagram and the other diagrams could be "...an engine component ... part of the automobile system [block diagram], connected to the transmission [internal block diagram], satisfies a power requirement [satisfy relation in requirements diagram], performs a function to convert fuel to mechanical energy [parametrics and activity diagrams], and has a weight property that contributes to the vehicle’s weight." side 19 practical. The important point to emphasise in relation to requirements management, is how requirements become part of the specification of the entire design, which makes for a much more rich description of the requirements. side 319 practical

Affecting project management

What makes SysML a powerfull model-based approach for requirements management comes down to that it is an Integrated model and not just a stand-alone requirements management tool. The way project manager benefit from having design specification, analysis, verification and system requirements integrated into one cohesive model, instead having these functions spread across multiple documents with different approaches, can be distilled to: reducing risk, harnessing complexity and increasing effectiveness in communication with stakeholders. Let us dive deeper into these point, and see how they practically are beneficial.


Harnesing complexity

Traceability

The integrated approach allows full traceability, meaning if an error occurs related to any given aspect, it is possible to literally pick up the entire network of relations. Picture pulling out a long thread of diagrams depicting exactly what that particular instance is influence by, and what caused the problem at hand. In many organisations the act of tracing issues in the design is a very comprehensive analysis, as relationships are not captured in such a integrated manner, instead a manual search for errors would be initiated, which could delay other activities of the project and use unnecessary ressources.

Effiency

The object-orieneted nature of SysML, enables reuse of existing documentation from similar instances in the same system, or from programs or prior projects. This is very powerfull feature, especially for managing programs of related projects. One could imagine a a program of car models with respective requirements structure, witch components more or less related to each other, where these component inherent structural relationsship from a higher generalised object describing the requirements related to that object type. If the entire organization choose to streamline into SysML, one could imagine the impact of lessons learned registered in prior project models affects how requirements in new projects are constructed.

The inheritance property makes for less paperwork and more lean work....

Risk

Effective impact analysis and trade-off analysis

As all relations are captured in the model, it is more efficient to perform trade-off analysis and impact analysis of the system, as one can easily follow how changes affects the system.[3] For the project manager this means, that when unexpected opportunities or threads changes the course of the project, the project manager has a rigores foundation to base decesion. This makes for a very effective understanding and exploration of the trade-off space, without the project manager needing to have particular domain specific knowledge as for example technical knowledge around building engines.

Increased quality: It promotes rigor and unambiguous design of the system which in turn drives more unambiguous requirements.

Effective Communication:

On the premise that stakeholders are familiar with the common language of SysML diagrams, the communication between stakeholders becomes more effective as stakeholder will have a shared understanding of the system, and regardless of domain specefic knowledge(kilde). The ability to integrate multiple and varous types diagrams, enables comprehensive relations to be easily communicated.


A main driver for maturity level

Comparison with alternatives There is may appraoches to requiremetents managment, one way poposed by the PMBOK, is through a requirements traceability matrix (RTM). This matrix relates entities on one axis with multiple requirements on the other axis in a typical spreadsheet manner. kilde: 5.2.3 CoLLeCT reQuIreMenTS: ouTPuTS The ctrique of this tool..Skriv her noget kritik og husk at få kilder på.

Alot of the benefits of the SysML comes down to that it is model based and integrated. However there exist other languages that have these properties too, one them being UML. UML is also developed by Object Management Group and came out before SysML, SysML was created as a "dialect" on UML to also being able to describe physical systems constrained to physical relations. They main difference is the addition of the requirements diagram and....

Limitations

As metioned, there are many benefits of using SysML in the project organization, however there are also significant limitions that one has to consider. These limitations are mostly centered around the implementation of SysML.

Increased complexity, for small projects. Requireme that all people are in and understand,

Da det ikke er sen reg metode i sigelv, men en specifiering skal mange ting ændres

Se også Transitioning to MBSE på side 20 i practical.


Before deciding to implement SysML in a project or program, the project mangement office has to asses whether the right ressources in terms of time/knpwledge are present for .. as well as understanding..... læs øverst i bog efter forklaring

References

Three books have been particularly helpfull in the creation of this article. Practical guide provided a..

  1. ISO 21500 Project Management. Page 3
  2. PMBOK. 5.1.3.2 Requirements Management Plan, Page 137
  3. 3.0 3.1 3.2 A Practical Guide to SysML 2nd. Page 15
  4. International Council on Systems Engineering (INCOSE), Systems Engineering Vision 2020.
  5. SysML Distilled_ A Brief Guide - Lenny Delligatti. Page 19
  6. https://re-magazine.ireb.org/articles/modeling-requirements-with-sysml.


PMBOK 5.2.3.1 reQuIreMenTS doCuMenTaTIon

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