V-model explained

The V-model is a graphical representation of a systems development lifecycle. It is used to produce rigorous development lifecycle models and project management models. The V-model falls into three broad categories, the German V-Modell, a general testing model, and the US government standard.[1]

The V-model summarizes the main steps to be taken in conjunction with the corresponding deliverables within computerized system validation framework, or project life cycle development. It describes the activities to be performed and the results that have to be produced during product development.

The left side of the "V" represents the decomposition of requirements, and the creation of system specifications. The right side of the "V" represents an integration of parts and their validation.[2] [3] [4] However, requirements need to be validated first against the higher level requirements or user needs. Furthermore, there is also something as validation of system models. This can partially be done on the left side also. To claim that validation only occurs on the right side may not be correct. The easiest way is to say that verification is always against the requirements (technical terms) and validation is always against the real world or the user's needs. The aerospace standard RTCA DO-178B states that requirements are validated—confirmed to be true—and the end product is verified to ensure it satisfies those requirements.

Validation can be expressed with the query "Are you building the right thing?" and verification with "Are you building it right?"

Types

There are three general types of V-model.

V-Modell

"V-Modell" is the official project management method of the German government. It is roughly equivalent to PRINCE2, but more directly relevant to software development.[5] The key attribute of using a "V" representation was to require proof that the products from the left-side of the V were acceptable by the appropriate test and integration organization implementing the right-side of the V.[6] [7] [8]

General testing

Throughout the testing community worldwide, the V-model is widely seen as a vaguer illustrative depiction of the software development process as described in the International Software Testing Qualifications Board Foundation Syllabus for software testers.[9] There is no single definition of this model, which is more directly covered in the alternative article on the V-Model (software development).

US government standard

The US also has a government standard V-model which dates back about 20 years like its German counterpart. Its scope is a narrower systems development lifecycle model, but far more detailed and more rigorous than most UK practitioners and testers would understand by the V-model.[10] [11] [12] [13] [14] [15]

Validation vs. verification

See main article: Verification and validation and Validation (drug manufacture).

It is sometimes said that validation can be expressed by the query "Are you building the right thing?" and verification by "Are you building it right?" In practice, the usage of these terms varies.

The PMBOK guide, also adopted by the IEEE as a standard (jointly maintained by INCOSE, the Systems engineering Research Council SERC, and IEEE Computer Society) defines them as follows in its 4th edition:[16]

Objectives

The V-model provides guidance for the planning and realization of projects. The following objectives are intended to be achieved by a project execution:

V-model topics

Systems engineering and verification

The systems engineering process (SEP) provides a path for improving the cost-effectiveness of complex systems as experienced by the system owner over the entire life of the system, from conception to retirement.

It involves early and comprehensive identification of goals, a concept of operations that describes user needs and the operating environment, thorough and testable system requirements, detailed design, implementation, rigorous acceptance testing of the implemented system to ensure it meets the stated requirements (system verification), measuring its effectiveness in addressing goals (system validation), on-going operation and maintenance, system upgrades over time, and eventual retirement.[12] [13] [4]

The process emphasizes requirements-driven design and testing. All design elements and acceptance tests must be traceable to one or more system requirements and every requirement must be addressed by at least one design element and acceptance test. Such rigor ensures nothing is done unnecessarily and everything that is necessary is accomplished.[12]

The two streams

Specification stream

The specification stream mainly consists of:

Testing stream

The testing stream generally consists of:

The development stream can consist (depending on the system type and the development scope) of customization, configuration or coding.

Applications

The V-model is used to regulate the software development process within the German federal administration. Nowadays it is still the standard for German federal administration and defense projects, as well as software developers within the region.

The concept of the V-model was developed simultaneously, but independently, in Germany and in the United States in the late 1980s:

It has now found widespread application in commercial as well as defense programs. Its primary use is in project management[12] [13] and throughout the project lifecycle.

One fundamental characteristic of the US V-model is that time and maturity move from left to right and one cannot move back in time. All iteration is along a vertical line to higher or lower levels in the system hierarchy, as shown in the figure.[12] [13] [4] This has proven to be an important aspect of the model. The expansion of the model to a dual-Vee concept is treated in reference.[12]

As the V-model is publicly available many companies also use it. In project management it is a method comparable to PRINCE2 and describes methods for project management as well as methods for system development. The V-model, while rigid in process, can be very flexible in application, especially as it pertains to the scope outside of the realm of the System Development Lifecycle normal parameters.

Advantages

These are the advantages V-model offers in front of other systems development models:

Limitations

The following aspects are not covered by the V-model, they must be regulated in addition, or the V-model must be adapted accordingly:[23] [24]

See also

External links

Notes and References

  1. http://www.clarotesting.com/page11.htm#coherence "The Dangerous & Seductive V Model"
  2. 1998. System Engineering for Faster, Cheaper, Better. Center of Systems Management. Forsberg, K., Mooz, H.. https://web.archive.org/web/20030420130303/http://www.incose.org/sfbac/welcome/fcb-csm.pdf. April 20, 2003.
  3. Web site: The SE VEE. SEOR, George Mason University. May 26, 2007. https://web.archive.org/web/20071018220159/http://www.gmu.edu/departments/seor/insert/robot/robot2.html. October 18, 2007. dead. mdy-all.
  4. Forsberg, K. and Mooz, H., "The Relationship of Systems Engineering to the Project Cycle", First Annual Symposium of the National Council On Systems Engineering (NCOSE), October 1991
  5. https://www.cio.bund.de/Web/DE/Architekturen-und-Standards/V-Modell-XT/vmodell_xt_node.html "V-Modell site (in German)"
  6. German Directive 250, Software Development Standard for the German Federal Armed Forces, V-Model, Software Lifecycle Process Model, August 1992
  7. Web site: Fundamentals of the V-Modell. 14 Apr 2016.
  8. Web site: V-Modell XT, Part 1: Fundamentals of the V-Modell. 14 Apr 2016.
  9. http://www.istqb.org/downloads/viewdownload/16/15.html "International Software Testing Qualifications Board – Foundation Level Syllabus"
  10. Web site: Systems Engineering for Intelligent Transportation Systems. US Dept. of Transportation. 10. June 9, 2007.
  11. https://www.fhwa.dot.gov/cadiv/segb/index.cfm "US Dept of Transportation, Federal Highway Administration. Systems Engineering Guidebook for ITS"
  12. Forsberg, K., Mooz, H., Cotterman, H. Visualizing Project Management, 3rd edition, John Wiley and Sons, New York, NY, 2005. Pages 108-116, 242-248, 341-360.
  13. International Council On Systems Engineering (INCOSE), Systems Engineering Handbook Version 3.1, August 2007, pages 3.3 to 3.8
  14. Web site: BUILDING ON A LEGACY: RENEWED FOCUS ON SYSTEMS ENGINEERING IN DEFENSE ACQUISITION. 14 Apr 2016.
  15. Web site: Using V Models for Testing . 10 November 2013 . 14 Apr 2016.
  16. Book: June 2011 . IEEE Guide--Adoption of the Project Management Institute (PMI(R)) Standard a Guide to the Project Management Body of Knowledge (PMBOK(R) Guide)--Fourth Edition . May 25, 2021 . 10.1109/IEEESTD.2011.6086685 . 452 . 978-0-7381-6817-3 .
  17. Web site: V-Model Lifecycle Process Model. v-modell.iabg.de. December 24, 2015. https://web.archive.org/web/20160303204644/http://www.v-modell.iabg.de/kurzb/vm/k_vm_e.doc. March 3, 2016. dead. mdy-all.
  18. Web site: Sequential Thematic Organization of Publications (STOP) . https://web.archive.org/web/20080203133138/http://www.scribd.com/doc/2019286/Sequential-Thematic-Organization-of-Publications . February 3, 2008 . dead . December 24, 2015 . mdy-all .
  19. Book: Sustainable Development Possible with Creative System Engineering. 978-0615216300. Sobkiw. Walter. 2008-01-01. Lulu.com .
  20. Web site: A New Systems Engineering Model and an Old, Familiar Friend; Figure 2 V-9 Process Interactions. Defense AT&L. 51. Apr 2006. 7 Apr 2016.
  21. Web site: Further Development of the V-Modell (broken link). v-modell.iabg.de. https://web.archive.org/web/20110423005924/http://v-modell.iabg.de/v-modell-xt-html-english/db09fe25265517.html#toc34. April 23, 2011. dead. December 24, 2015. mdy-all.
  22. Web site: Overview of the Activity Model of the V-Modell (broken link). v-modell.iabg.de. https://web.archive.org/web/20110719043340/http://v-modell.iabg.de/v-modell-xt-html-english/dbe1fba6c7da92.html#toc797. July 19, 2011. dead. December 24, 2015. mdy-all.
  23. Web site: Limits of the VModel. v-modell.iabg.de. December 24, 2015. https://web.archive.org/web/20110521043950/http://v-modell.iabg.de/v-modell-xt-html-english/446bfd42664fda.html#toc9. May 21, 2011. dead. mdy-all.
  24. Christian Bucanac, The V-Model