--- license: gpl-3.0 language: - en tags: - feature extraction - mobile apps - reviews - token classification - named entity recognition pipeline_tag: token-classification widget: - text: "The share note file feature is completely useless." example_title: "Example 1" - text: "Great app I've tested a lot of free habit tracking apps and this is by far my favorite." example_title: "Example 2" - text: "The only negative feedback I can give about this app is the difficulty level to set a sleep timer on it." example_title: "Example 3" - text: "Does what you want with a small pocket size checklist reminder app" example_title: "Example 4" - text: "Very bad because call recording notification send other person" example_title: "Example 5" - text: "I originally downloaded the app for pomodoro timing, but I stayed for the project management features, with syncing." example_title: "Example 6" - text: "It works accurate and I bought a portable one lap gps tracker it have a great battery Life" example_title: "Example 7" - text: "I'm my phone the notifications of group message are not at a time please check what was the reason behind it because due to this default I loose some opportunity" example_title: "Example 8" - text: "There is no setting for recurring alarms" example_title: "Example 9" --- # T-FREX BERT base model (uncased) --- Please cite this research as: _Q. Motger, A. Miaschi, F. Dell’Orletta, X. Franch, and J. Marco, ‘T-FREX: A Transformer-based Feature Extraction Method from Mobile App Reviews’, in Proceedings of The IEEE International Conference on Software Analysis, Evolution and Reengineering (SANER), 2024. Pre-print available at: https://arxiv.org/abs/2401.03833_ --- T-FREX is a transformer-based feature extraction method for mobile app reviews based on fine-tuning Large Language Models (LLMs) for a named entity recognition task. We collect a dataset of ground truth features from users in a real crowdsourced software recommendation platform, and we use this dataset to fine-tune multiple LLMs under different data configurations. We assess the performance of T-FREX with respect to this ground truth, and we complement our analysis by comparing T-FREX with a baseline method from the field. Finally, we assess the quality of new features predicted by T-FREX through an external human evaluation. Results show that T-FREX outperforms on average the traditional syntactic-based method, especially when discovering new features from a domain for which the model has been fine-tuned. Source code for data generation, fine-tuning and model inference are available in the original [GitHub repository](https://github.com/gessi-chatbots/t-frex/). ## Model description This version of T-FREX has been fine-tuned for [token classification](https://huggingface.co/docs/transformers/tasks/token_classification#train) from [BERT base model (uncased)](https://huggingface.co/bert-base-uncased). ## Model variations T-FREX includes a set of released, fine-tuned models which are compared in the original study (pre-print available at http://arxiv.org/abs/2401.03833). - [**t-frex-bert-base-uncased**](https://huggingface.co/quim-motger/t-frex-bert-base-uncased) - [**t-frex-bert-large-uncased**](https://huggingface.co/quim-motger/t-frex-bert-large-uncased) - [**t-frex-roberta-base**](https://huggingface.co/quim-motger/t-frex-roberta-base) - [**t-frex-roberta-large**](https://huggingface.co/quim-motger/t-frex-roberta-large) - [**t-frex-xlnet-base-cased**](https://huggingface.co/quim-motger/t-frex-xlnet-base-cased) - [**t-frex-xlnet-large-cased**](https://huggingface.co/quim-motger/t-frex-xlnet-large-cased) ## How to use You can use this model following the instructions for [model inference for token classification](https://huggingface.co/docs/transformers/tasks/token_classification#inference).