Unlu, HuseyinTenekeci, SametCiftci, CanOral, Ibrahim BaranAtalay, TunahanHacaloglu, TunaDemirors, Onur2025-04-072025-04-072024979835038027997983503802622640-592X10.1109/SEAA64295.2024.000362-s2.0-85212703074https://doi.org/10.1109/SEAA64295.2024.00036https://hdl.handle.net/20.500.14411/10507Software Size Measurement (SSM) plays an essential role in software project management as it enables the acquisition of software size, which is the primary input for development effort and schedule estimation. However, many small and medium-sized companies cannot perform objective SSM and Software Effort Estimation (SEE) due to the lack of resources and an expert workforce. This results in inadequate estimates and projects exceeding the planned time and budget. Therefore, organizations need to perform objective SSM and SEE using minimal resources without an expert workforce. In this research, we conducted an exploratory case study to predict the functional size of software project requirements using state-of-the-art large language models (LLMs). For this aim, we fine-tuned BERT and BERT_SE with a set of user stories and their respective functional size in COSMIC Function Points (CFP). We gathered the user stories included in different project requirement documents. In total size prediction, we achieved 72.8% accuracy with BERT and 74.4% accuracy with BERT_SE. In data movement-based size prediction, we achieved 87.5% average accuracy with BERT and 88.1% average accuracy with BERT_SE. Although we use relatively small datasets in model training, these results are promising and hold significant value as they demonstrate the practical utility of language models in SSM.eninfo:eu-repo/semantics/closedAccessSoftware Size MeasurementNatural Language ProcessingCosmicBertFunctional SizeSoftware EngineeringNlpConference ObjectN/AN/A188193WOS:001413352200026