학술논문
NLP4ReF: Requirements Classification and Forecasting: From Model-Based Design to Large Language Models
Document Type
Conference
Author
Source
2024 IEEE Aerospace Conference Aerospace Conference, 2024 IEEE. :1-16 Mar, 2024
Subject
Language
Abstract
We introduce Natural Language Processing for Requirement Forecasting (NLP4ReF), a model-based machine learning and natural language processing solution for enhancing the Requirements Engineering (RE) process. RE continues to face significant challenges and demands innovative approaches for process efficiency. Traditional RE methods relying on natural language struggle with incomplete, hidden, forgotten, and evolving requirements during and after the critical design review, risking project failures and setbacks. NLP4ReF tackles several key challenges: a) distinguishing between functional and non-functional requirements, b) classification of requirements by their respective system classes, and c) generation of unanticipated requirements to enhance project success. NLP4ReF employs a common natural language toolkit (NLTK) package and the recently-trending Chat-GPT. We tested NLP4ReF on PROMISE_exp, a pre-existing dataset with 1000 software requirements, and PROMISE_IoT, an enhanced dataset with 2000 software and IoT requirements. We validated NLP4ReF on a genuine IoT project. NLP4ReF swiftly generated dozens of new requirements, verified by a team of systems engineers, of which over 70% were crucial for project success. We found that GPT is superior in authentic requirement generation, while NLTK excels at requirement classification. NLP4ReF offers significant time saving, effort reduction, and improved future-proofing. Our model-based design approach provides a foundation for enhanced RE practices and future research in this domain.