Publications       Rudy Negenborn
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To the point:

Distributed coordination for collision avoidance of multiple ships considering ship maneuverability


"Over the past two decades, a number of methods have been proposed for solving maritime collision avoidance problems. Most of these works take a single ship's perspective and focus on one-to-one or one-to-many situations. To more complicated many-to-many situations, less attention has been paid. To deal with the many-to-many collision avoidance problem, this paper proposes a distributed coordinatio..." [More...]

S. Li, J. Liu, R.R. Negenborn. Distributed coordination for collision avoidance of multiple ships considering ship maneuverability. Ocean Engineering, vol. 181, pp. 212-226, June 2019.   


Survey on autonomous surface vessels: Part II - Categorization of 60 prototypes and future applications


"Autonomous Surface Vessels (ASVs) have been developed for more than 20 years. Many ASV projects have been successfully realized, and as many are still under development. In literature there is a lack in research about different applications and suitable environments for the deployment of ASV. In our previous paper [44], we introduced the emerging concept of autonomous vessels. A multi-layer multi-..." [More...]

M. Schiaretti, L. Chen, R.R. Negenborn. Survey on autonomous surface vessels: Part II - Categorization of 60 prototypes and future applications. In Proceedings of the 8th International Conference on Computational Logistics (ICCL 2017), Southampton, UK, pp. 234-252, October 2017.   


Closed-loop scheduling and control of waterborne AGVs for energy-efficient Inter Terminal Transport


"We propose closed-loop energy-efficient scheduling and control of an autonomous Inter Terminal Transport (ITT) system using waterborne Autonomous Guided Vessels (waterborne AGVs). A novel pick-up and delivery problem considering safe intervals between berthing time slots of different waterborne AGVs is proposed. Waterborne AGVs are controlled in a cooperative distributed way to carry out assigned ..." [More...]

H. Zheng, R.R. Negenborn, G. Lodewijks. Closed-loop scheduling and control of waterborne AGVs for energy-efficient Inter Terminal Transport. Transportation Research Part E: Logistics and Transportation Review, vol. 105, pp. 261-278, September 2017.   


Survey on autonomous surface vessels: Part II - Categorization of 60 prototypes and future applications


"Autonomous Surface Vessels (ASVs) have been developed for more than 20 years. Many ASV projects have been successfully realized, and as many are still under development. In literature there is a lack in research about different applications and suitable environments for the deployment of ASV. In our previous paper [44], we introduced the emerging concept of autonomous vessels. A multi-layer multi-..." [More...]

M. Schiaretti, L. Chen, R.R. Negenborn. Survey on autonomous surface vessels: Part II - Categorization of 60 prototypes and future applications. In Proceedings of the 8th International Conference on Computational Logistics (ICCL 2017), Southampton, UK, pp. 234-252, October 2017.   


Closed-loop scheduling and control of waterborne AGVs for energy-efficient Inter Terminal Transport


"We propose closed-loop energy-efficient scheduling and control of an autonomous Inter Terminal Transport (ITT) system using waterborne Autonomous Guided Vessels (waterborne AGVs). A novel pick-up and delivery problem considering safe intervals between berthing time slots of different waterborne AGVs is proposed. Waterborne AGVs are controlled in a cooperative distributed way to carry out assigned ..." [More...]

H. Zheng, R.R. Negenborn, G. Lodewijks. Closed-loop scheduling and control of waterborne AGVs for energy-efficient Inter Terminal Transport. Transportation Research Part E: Logistics and Transportation Review, vol. 105, pp. 261-278, September 2017.   


Survey on autonomous surface vessels: Part II - Categorization of 60 prototypes and future applications


"Autonomous Surface Vessels (ASVs) have been developed for more than 20 years. Many ASV projects have been successfully realized, and as many are still under development. In literature there is a lack in research about different applications and suitable environments for the deployment of ASV. In our previous paper [44], we introduced the emerging concept of autonomous vessels. A multi-layer multi-..." [More...]

M. Schiaretti, L. Chen, R.R. Negenborn. Survey on autonomous surface vessels: Part II - Categorization of 60 prototypes and future applications. In Proceedings of the 8th International Conference on Computational Logistics (ICCL 2017), Southampton, UK, pp. 234-252, October 2017.   


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