Vaibhav Donde, Vanessa López, et al.
IEEE Transactions on Power Systems
Healthcare fraud, waste and abuse are costly problems that have huge impact on society. Traditional approaches to identify non-compliant claims rely on auditing strategies requiring trained professionals, or on machine learning methods requiring labelled data and possibly lacking interpretability. We present Clais, a collaborative artificial intelligence system for claims analysis. Clais automatically extracts human-interpretable rules from healthcare policy documents (0.72 F1-score), and it enables professionals to edit and validate the extracted rules through an intuitive user interface. Clais executes the rules on claim records to identify non-compliance: on this task Clais significantly outperforms two baseline machine learning models, and its median F1-score is 1.0 (IQR = 0.83 to 1.0) when executing the extracted rules, and 1.0 (IQR = 1.0 to 1.0) when executing the same rules after human curation. Professionals confirm through a user study the usefulness of Clais in making their workflow simpler and more effective.
Vaibhav Donde, Vanessa López, et al.
IEEE Transactions on Power Systems
Ella Barkan, Ibrahim Siddiqui, et al.
Computational And Structural Biotechnology Journal
S. Winograd
Journal of the ACM
Kellen Cheng, Anna Lisa Gentile, et al.
EMNLP 2024