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Quantitative WinWin - A new method for decision support in requirements negotiation

 
: Ruhe, G.; Eberlein, A.; Pfahl, D.

:

Association for Computing Machinery -ACM-:
SEKE 2002, 14th International Conference on Software Engineering and Knowledge Engineering
New York, 2002
pp.159-166 : Ill., Lit.
International Conference on Software Engineering and Knowledge Engineering (SEKE) <14, 2002, Ischia>
English
Conference Paper
Fraunhofer IESE ()
requirements negotiation; decision support; quantitative method; analytical hierarchy process; effort estimation; simulation; easy WinWin

Abstract
Defining, prioritizing, and selecting requirements are problems of tremendous importance. In this paper, a new approach called Quantitative WinWin for decision support in requirements negotiation is studied. The difference to Boehm's WinWin groupware-based negotiation support is the inclusion of quantitative methods as a backbone for better and more objective decisions. Like Boehm's original WinWin, Quantitative WinWin uses an iterative approach, with the aim to increase knowledge about the requirements during each iteration. The novelty of the presented idea is three-fold. Firstly, it uses the Analytical Hierarchy Process for a stepwise determination of the stake-holders' preferences in quantitative terms. Secondly, these results are combined with methods for early effort estimation, in our case using the simulation prototype GENSIM, to evaluate the feasibility of alternative requirements subsets in terms of their related implementation efforts. Thirdly, it reflects the increasing knowledge gained about the requirements during each iteration, in a similar way as it is done in Boehm's spiral model for software development. As main result, quantitative WinWin offers decision support for selecting the most appropriate requirements based on the preferences of the stakeholders, the business value of requirements and a given maximum development effort.

: http://publica.fraunhofer.de/documents/N-10470.html