Incorporating software failure in risk analysis – Part 1: Software functional failure mode classification. Reliability Engineering & System Safety 2020; Volume 197.
Incorporating software failure in risk analysis––Part 2: Risk modeling process and case study. Reliability Engineering & System Safety 2020; Volume 198.
A Bayesian Approach to Supervisory Risk Control of AUVs Applied to Under-Ice Operations. Marine Technology Society Journal 2020; Volume 54, Issue 4.
A generic approach to analysing failures in human – System interaction in autonomy. Safety Science 2020; Volume 129.
Human-system concurrent task analysis for maritime autonomous surface ship operation and safety. Reliability Engineering & System Safety 2020; Volume 195.
Zero-Emission Autonomous Ferries for Urban Water Transport: Cheaper, Cleaner Alternative to Bridges, and Manned Vessels. IEEE Electrification Magazine 2019; Volume 7.(4) p. 32-45
Assessing Ship Risk Model Applicability to Marine Autonomous Surface Ships. Ocean Engineering 2018; Volume 165. Suppl. 1. October p. 140-154
A risk model for autonomous marine systems and operation focusing on human–autonomy collaboration. Proceedings of the Institution of Mechanical Engineers. Part O, Journal of risk and reliability 2017; Volume 231.(4) p. 446-464
Safety performance monitoring of autonomous marine systems. Reliability Engineering & System Safety 2017; Volume 159. Suppl. March p. 264-275
Human-System Concurrent Task Analysis: An Application to Autonomous Remotely Operated Vehicle Operations, European Safety, and Reliability Conference, and 15th Probabilistic Safety Assessment and Management Conference (ESREL2020 PSAM 15); 2020
Preliminary hazard analysis of a small harbor passenger ferry - Results, challenges, and further work. International Conference on Maritime Autonomous Surface ships; Journal of Physics: Conference Series 2019;
Intelligent Risk-Based Under-Ice Altitude Control for Autonomous Underwater Vehicles. OCEANS 2019
A Review of Hazard Identification Techniques for Autonomous Operations in Norwegian Aquaculture. Probabilistic Safety Assessment and Management PSAM 14; 2018
A Risk Management Framework for Unmanned Underwater Vehicles Focusing on Human and Organizational Factors. ASME 2015 34th International Conference on Ocean, Offshore and Arctic Engineering (OMAE2015); 2015
Risk modeling of autonomous underwater vehicle operation focusing on the human operator. European Safety and Reliability Conference ESREL; 2015
REPORTS, PROCEEDINGS, AND THESES
Thieme, Christoph Alexander; Guo, Chuanqi; Utne, Ingrid Bouwer; Haugen, Stein.
Preliminary Hazard Analysis (PHA) of MilliAmpere. Norges teknisk-naturvitenskapelige universitet; 2019. For internal use only.
Proceedings of the First International Workshop on Autonomous Systems Safety. Norges teknisk-naturvitenskapelige universitet; 2019 (ISBN 9788269112023)
Whitepaper of the First International Workshop on Autonomous Systems Safety: Autonomous Systems Safety – State of the Art and Challenges. I: Proceedings of the First International Workshop on Autonomous Systems Safety. Norges teknisk-naturvitenskapelige universitet; 2019 ISBN 9788269112023; p. 18-32
Risk Analysis and Modelling of Autonomous Marine Systems. Norges teknisk-naturvitenskapelige universitet 2018 (ISBN 978-82-326-3480-4). Doctoral Thesis at NTNU(346)
Development of a Risk Management Process for NTNU's REMUS 100 AUV. Trondheim: Norwegian University of Science and Technology; 2014; Master Thesis
Thieme, Christoph Alexander.
Development of a coastal underwater drifting buoy. 2012. University of Applied Science Bremerhaven, Germany. Bachelor of Science Thesis. Confidential.