TY - GEN
T1 - Requirements degradation for the creation of a first prototype
AU - Green, Jeremy
AU - Marnewick, A.
AU - Pretorius, J. H.C.
N1 - Publisher Copyright:
© 2014 Portland International Conference on Management of Engineering and Technology.
PY - 2015/9/21
Y1 - 2015/9/21
N2 - The requirements engineering process is typically executed, irrespective of the process model chosen, for the final commercially viable system. The system requirements generated are for a system deployed and used in its final form and function. However, the first prototype that is generated is typically representative of a minimum viable technology, and represents a degraded set of the initial system requirements specification. Typically, a first prototype is used as a technology demonstrator, and its failure or success will determine the continuation of the project, with success triggering the allocation of additional financial and personal resources. This paper explores techniques for requirements degradation that can be used to form the system requirements specification for the first prototype. A requirements Engineering methodology is proposed based upon a survey of literature. It takes into consideration the characteristics of the project, i.e. a market driven, technology implementation research project with limited budget and a flexible timeline executed in an academic environment. The techniques must take into cognizance the main risk items, and core requirements, that need to be demonstrated in the minimum viable technology to secure the future of the project. The degradation cannot undermine or jeopardize the future success of the commercially viable system in determining the subset of requirements for the minimum viable technology.
AB - The requirements engineering process is typically executed, irrespective of the process model chosen, for the final commercially viable system. The system requirements generated are for a system deployed and used in its final form and function. However, the first prototype that is generated is typically representative of a minimum viable technology, and represents a degraded set of the initial system requirements specification. Typically, a first prototype is used as a technology demonstrator, and its failure or success will determine the continuation of the project, with success triggering the allocation of additional financial and personal resources. This paper explores techniques for requirements degradation that can be used to form the system requirements specification for the first prototype. A requirements Engineering methodology is proposed based upon a survey of literature. It takes into consideration the characteristics of the project, i.e. a market driven, technology implementation research project with limited budget and a flexible timeline executed in an academic environment. The techniques must take into cognizance the main risk items, and core requirements, that need to be demonstrated in the minimum viable technology to secure the future of the project. The degradation cannot undermine or jeopardize the future success of the commercially viable system in determining the subset of requirements for the minimum viable technology.
UR - http://www.scopus.com/inward/record.url?scp=84955565033&partnerID=8YFLogxK
U2 - 10.1109/PICMET.2015.7273238
DO - 10.1109/PICMET.2015.7273238
M3 - Conference contribution
AN - SCOPUS:84955565033
T3 - Portland International Conference on Management of Engineering and Technology
SP - 1777
EP - 1786
BT - PICMET 2015 - Portland International Center for Management of Engineering and Technology
A2 - Daim, Tugrul U.
A2 - Kozanoglu, Dilek Cetindamar
A2 - Kocaoglu, Dundar F.
A2 - Anderson, Timothy R.
A2 - Perman, Gary
A2 - Niwa, Kiyoshi
PB - Portland State University
T2 - Portland International Center for Management of Engineering and Technology, PICMET 2015
Y2 - 2 August 2015 through 6 August 2015
ER -