Rudy Negenborn Full Professor Main Publications Team & Themes Education Resume

Science in pictures To the point: Multi-area predictive control for combined electricity and natural gas systems "The optimal operation of an integrated electricity and natural gas system is investigated. The couplings between these two systems are modeled by energy hubs, which serve as interface between the loads and the transmission infrastructures. Previously, we have applied a distributed control scheme to a static three-hub benchmark system. In this paper, we propose an extension of this distributed cont..." [More...] Multi-area predictive control for combined electricity and natural gas systems. M. Arnold, R.R. Negenborn, G. Andersson, B. De Schutter. In Proceedings of the European Control Conference 2009 (ECC'09), Budapest, Hungary, pp. 1408-1413, August 2009.    Impact and relevance of transit disturbances on planning in intermodal container networks "In North-West Europe, the options for intermodal inland transportation of containers are increasing. Inland corridors become increasingly interconnected in hinterland networks. To minimize operating costs, new methods are required that allow integral network operations management. The network operations consist of allocating containers to available inland transportation services, i.e. planning. Fo..." [More...] Impact and relevance of transit disturbances on planning in intermodal container networks. B. van Riessen, R.R. Negenborn, G. Lodewijks, R. Dekker. Maritime Economics & Logistics, vol. 17, pp. 440-463, December 2015.    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...] Closed-loop scheduling and control of waterborne AGVs for energy-efficient Inter Terminal Transport. H. Zheng, R.R. Negenborn, G. Lodewijks. Transportation Research Part E: Logistics and Transportation Review, vol. 105, pp. 261-278, September 2017.    Multi-area predictive control for combined electricity and natural gas systems "The optimal operation of an integrated electricity and natural gas system is investigated. The couplings between these two systems are modeled by energy hubs, which serve as interface between the loads and the transmission infrastructures. Previously, we have applied a distributed control scheme to a static three-hub benchmark system. In this paper, we propose an extension of this distributed cont..." [More...] Multi-area predictive control for combined electricity and natural gas systems. M. Arnold, R.R. Negenborn, G. Andersson, B. De Schutter. In Proceedings of the European Control Conference 2009 (ECC'09), Budapest, Hungary, pp. 1408-1413, August 2009.    Minimizing cost of empty container repositioning in port hinterlands, while taking repair operations into account "Shipping companies are striving to optimize their empty container repositioning strategies which also contribute to reduced congestion and environmental improvements. In this paper we propose a multi-commodity model that makes an explicit distinction between flows of non-damaged containers, on the one hand, and flows of damaged containers, on the other. The model is tailored for the repositioning ..." [More...] Minimizing cost of empty container repositioning in port hinterlands, while taking repair operations into account. T. Hjortnaes, B. Wiegmans, R.R. Negenborn, R.A. Zuidwijk, R. Klijnhout. Journal of Transport Geography, vol. 58, pp. 209-219, January 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...] Closed-loop scheduling and control of waterborne AGVs for energy-efficient Inter Terminal Transport. H. Zheng, R.R. Negenborn, G. Lodewijks. Transportation Research Part E: Logistics and Transportation Review, vol. 105, pp. 261-278, September 2017.    Even more to the point:

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