Litcius/Paper detail

NATURAL LANGUAGE PROCESSING IN REQUIREMENTS ENGINEERING AND ITS CHALLENGES FOR REQUIREMENTS MODELLING IN THE ENGINEERING DESIGN DOMAIN

Judith Sophie van Remmen, Dennis Horber, Adriana Lungu, Fan Chang, Sebastiaan van Putten, Stefan Goetz, Sandro Wartzack

2023Proceedings of the Design Society13 citationsDOIOpen Access PDF

Abstract

Abstract Requirements represent a central element in product development. The large number of requirements inevitably results in an increased susceptibility to errors, an expenditure of time and development costs. The associated problems motivate the application of Artificial Intelligence in the form of Natural Language Processing (NLP). In Requirements Engineering one main task is the classification of requirements which serves as the input in architectural models e.g. in SysML. In mechanical engineering there is still little overview regarding the interface between requirements classification and modelling. This paper provides an overview of the requirement classes and entities used in the literature and analyses their utilisation in modelling. Existing requirements classes usually do not offer the flexibility to be transferred to other domains. However, basic structures can be adopted from those classifications. This enables a clear assignment of existing classes to object classes in modelling. Resulting from the conducted literature study the observed predominant focus of research on the software industry requires an extension of the existing requirement classes and entities to enable further use and transfer to mechanical engineering.

Topics & Concepts

Computer scienceRequirements engineeringRequirements analysisSoftware engineeringRequirementNon-functional requirementSystems Modeling LanguageFlexibility (engineering)Domain (mathematical analysis)Systems engineeringSoftware requirementsSoftware requirements specificationUnified Modeling LanguageSoftwareSoftware developmentProgramming languageSoftware designEngineeringSoftware constructionMathematicsMathematical analysisStatisticsManufacturing Process and OptimizationSoftware Engineering Techniques and PracticesModel-Driven Software Engineering Techniques