Variability-Driven User-Story Generation using LLM and Triadic Concept Analysis
This work addresses the challenge of requirements engineering for Agile development in software product lines, though it appears incremental as it builds on existing methods like TCA and LLMs.
The paper tackles the problem of generating user-story sets for new systems in Software Product Lines by combining Triadic Concept Analysis and LLM prompting to leverage variability from existing families, resulting in a process evaluated on 67 similar-purpose websites.
A widely used Agile practice for requirements is to produce a set of user stories (also called ``agile product backlog''), which roughly includes a list of pairs (role, feature), where the role handles the feature for a certain purpose. In the context of Software Product Lines, the requirements for a family of similar systems is thus a family of user-story sets, one per system, leading to a 3-dimensional dataset composed of sets of triples (system, role, feature). In this paper, we combine Triadic Concept Analysis (TCA) and Large Language Model (LLM) prompting to suggest the user-story set required to develop a new system relying on the variability logic of an existing system family. This process consists in 1) computing 3-dimensional variability expressed as a set of TCA implications, 2) providing the designer with intelligible design options, 3) capturing the designer's selection of options, 4) proposing a first user-story set corresponding to this selection, 5) consolidating its validity according to the implications identified in step 1, while completing it if necessary, and 6) leveraging LLM to have a more comprehensive website. This process is evaluated with a dataset comprising the user-story sets of 67 similar-purpose websites.