Hannah Luca Deters, M. Sc.

© Fachgebiet Software Engineering
Hannah Luca Deters, M. Sc.
Adresse
Welfengarten 1
30167 Hannover
Gebäude
Raum
© Fachgebiet Software Engineering
Hannah Luca Deters, M. Sc.
Adresse
Welfengarten 1
30167 Hannover
Gebäude
Raum

Forschungsinteressen und -bereiche

  • Explainability
  • Usability Engineering
  • User Experience
  • Requirements Engineering

 

Publikationen

Zeige Ergebnisse 1 - 10 von 10

Deters H, Droste J, Obaidi M, Schneider K. How Explainable Is Your System? Towards a Quality Model for Explainability. in Mendez D, Mendez D, Moreira A, Moreira A, Hrsg., Requirements Engineering: Foundation for Software Quality - 30th International Working Conference, REFSQ 2024, Proceedings. Springer Nature Switzerland AG. 2024. S. 3-19. (Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)). doi: 10.1007/978-3-031-57327-9_1
Deters H, Droste J, Schneider K. On the Pulse of Requirements Elicitation: Physiological Triggers and Explainability Needs. in REFSQ Co-Located Events 2024: Joint Proceedings of REFSQ-2024 Workshops, Doctoral Symposium, Posters & Tools Track, and Education and Training Track co-located with the 30th International Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2024). Band 3672. 2024. (CEUR Workshop Proceedings).
Deters H, Droste J, Hess A, Klös V, Schneider K, Speith T et al. The X Factor: On the Relationship between User eXperience and eXplainability. in NordiCHI '24: Proceedings of the 13th Nordic Conference on Human-Computer Interaction. 2024. 19 Epub 2024 Okt 13. doi: 10.1145/3679318.3685352
Droste J, Fuchs R, Deters H, Klunder J, Schneider K. Explainability Requirements for Time Series Forecasts: A Study in the Energy Domain. in Liebel G, Hadar I, Spoletini P, Hrsg., Proceedings : 32nd IEEE International Requirements Engineering Conference, RE 2024. IEEE Computer Society. 2024. S. 229-239. (Proceedings of the IEEE International Conference on Requirements Engineering). doi: 10.1109/RE59067.2024.00030
Droste J, Deters H, Obaidi M, Schneider K. Explanations in Everyday Software Systems: Towards a Taxonomy for Explainability Needs. in Liebel G, Hadar I, Spoletini P, Hrsg., 2024 IEEE 32nd International Requirements Engineering Conference (RE). 2024. S. 55-66. (IEEE International Symposium on Requirements Engineering). Epub 2024 Apr 25. doi: 10.48550/arXiv.2404.16644, 10.1109/RE59067.2024.00016
Droste J, Deters H, Fuchs R, Schneider K. Peeking Outside the Black-Box: AI Explainability Requirements beyond Interpretability. in Joint Proceedings of REFSQ-2024 Workshops, Doctoral Symposium, Posters & Tools Track, and Education and Training Track co-located with the 30th International Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2024). Band 3672. 2024. (Ceur Workshop Proceedings).
Deters HL, Droste JRC, Schneider K. A Means to what End? Evaluating the Explainability of Software Systems using Goal-Oriented Heuristics. in EASE '23: Proceedings of the 27th International Conference on Evaluation and Assessment in Software Engineering. 2023. S. 329-338. (ACM International Conference Proceeding Series). doi: 10.1145/3593434.3593444
Deters HL, Droste JRC, Fechner M, Klünder JAC. Explanations on Demand: a Technique for Eliciting the Actual Need for Explanations. in Schneider K, Dalpiaz F, Horkoff J, Hrsg., 2023 IEEE 31st International Requirements Engineering Conference Workshops (REW). 2023. S. 345 - 351. (Key-title IEEE International Requirements Engineering Conference Workshops). doi: 10.1109/REW57809.2023.00065
Droste JRC, Deters HL, Puglisi J, Klünder JAC. Designing End-user Personas for Explainability Requirements using Mixed Methods Research. in Schneider K, Dalpiaz F, Horkoff J, Hrsg., 2023 IEEE 31st International Requirements Engineering Conference Workshops (REW). 2023. S. 129-135. (Key-title IEEE International Requirements Engineering Conference Workshops ). doi: 10.1109/REW57809.2023.00028
Deters HL. Criteria and Metrics for the Explainability of Software. Hannover: Leibniz Universität Hannover, 2022. 114 S.