Print Email Facebook Twitter The FATE System Iterated Title The FATE System Iterated: Fair, Transparent and Explainable Decision Making in a Juridical Case Author de Boer, Maaike H.T. (TNO) Vethman, Steven (TNO) Bakker, R.M.B. (TNO) Adhikari, Ajaya (TNO) Marcus, Michiel (TNO) de Greeff, Joachim (TNO) van der Waa, J.S. (TU Delft Interactive Intelligence; TNO) van Zoelen, E.M. (TU Delft Interactive Intelligence; TNO) Kamphorst, Bart (TNO) Date 2022 Abstract The goal of the FATE system is decision support with use of state-of-the-art human-AI co-learning, explainable AI and fair, secure and privacy-preserving usage of data. This AI-based support system is a general system, in which the modules can be tuned to specific use cases. The FATE system is designed to address different user roles, such as a researcher, domain expert/consultant and subject/patient, each with their own requirements. Having examined a Diabetes Type 2 use case before, in this paper we slightly iterate the FATE system and focus on a juridical use case. For a given new juridical case the relevant older court cases are suggested by the system. The relevant older cases can be explained using the eXplainable AI (XAI) module, and the system can be improved based on feedback about the relevant cases using the Co-learning module through interaction with a user. In the Bias module, the use of the system is investigated for potential bias by inspecting the properties of suggested cases. Secure Learning offers privacy-by-design alternatives for functionality found in the aforementioned modules. These results show how the generic FATE system can be implemented in a number of real-world use cases. In future work we plan to explore more use cases within this system. Subject BiasCo-LearningExplainable AIFAIR AIHybrid AIKnowledge EngineeringSecure Learning To reference this document use: http://resolver.tudelft.nl/uuid:b508f12b-2c18-47ff-a813-fc135c6694b6 ISSN 1613-0073 Source CEUR Workshop Proceedings, 3121 Event AAAI 2022 Spring Symposium on Machine Learning and Knowledge Engineering for Hybrid Intelligence, AAAI-MAKE 2022, 2022-03-21 → 2022-03-23, Palo Alto, United States Part of collection Institutional Repository Document type journal article Rights © 2022 Maaike H.T. de Boer, Steven Vethman, R.M.B. Bakker, Ajaya Adhikari, Michiel Marcus, Joachim de Greeff, J.S. van der Waa, E.M. van Zoelen, Bart Kamphorst, More Authors Files PDF paper16.pdf 1.43 MB Close viewer /islandora/object/uuid:b508f12b-2c18-47ff-a813-fc135c6694b6/datastream/OBJ/view