SRPTackle: A semi-automated requirements prioritisation technique for scalable requirements of software system projects
Journal article, 2021
Requirement prioritisation (RP) is often used to select the most important system requirements as perceived by system stakeholders. RP plays a vital role in ensuring the development of a quality system with defined constraints. However, a closer look at existing RP techniques reveals that these techniques suffer from some key challenges, such as scalability, lack of quantification, insufficient prioritisation of participating stakeholders, overreliance on the participation of professional expertise, lack of automation and excessive time consumption. These key challenges serve as the motivation for the present research.
Objective
This study aims to propose a new semiautomated scalable prioritisation technique called ‘SRPTackle’ to address the key challenges.
Method
SRPTackle provides a semiautomated process based on a combination of a constructed requirement priority value formulation function using a multi-criteria decision-making method (i.e. weighted sum model), clustering algorithms (K-means and K-means++) and a binary search tree to minimise the need for expert involvement and increase efficiency. The effectiveness of SRPTackle is assessed by conducting seven experiments using a benchmark dataset from a large actual software project.
Results
Experiment results reveal that SRPTackle can obtain 93.0% and 94.65% as minimum and maximum accuracy percentages, respectively. These values are better than those of alternative techniques. The findings also demonstrate the capability of SRPTackle to prioritise large-scale requirements with reduced time consumption and its effectiveness in addressing the key challenges in comparison with other techniques.
Conclusion
With the time effectiveness, ability to scale well with numerous requirements, automation and clear implementation guidelines of SRPTackle, project managers can perform RP for large-scale requirements in a proper manner, without necessitating an extensive amount of effort (e.g. tedious manual processes, need for the involvement of experts and time workload).
Author
Fadhl Mohammad Omar Hujainah
Chalmers, Computer Science and Engineering (Chalmers), Software Engineering (Chalmers)
Rohani Binti Abu Bakar
Malaysia University
Abdullah B. Nasser
Malaysia University
Basheer Al-haimi
Hebei University
Kamal Z. Zamli
Malaysia University
Information and Software Technology
0950-5849 (ISSN)
Vol. 131 106501Subject Categories
Software Engineering
Information Science
Computer Science
DOI
10.1016/j.infsof.2020.106501