Dylan Huizing scite author profile

a b s t r a c tThis paper studies a setting in emergency logistics where emergency responders must also perform a set of known, non-emergency jobs in the network when there are no active emergencies going on. These jobs typically have a preventive function, and allow the responders to use their idle time much more productively than in the current standard. When an emergency occurs, the nearest responder must abandon whatever job he or she is doing and go to the emergency. This leads to the optimisation problem of timetabling jobs and moving responders over a discrete network such that the expected emergency response time remains minimal. Our model, the Median Routing Problem, addresses this complex problem by minimising the expected response time to the next emergency and allowing for re-solving after this. We describe a mixed-integer linear program and a number of increasingly refined heuristics for this problem. We created a large set of benchmark instances, both from real-life case study data and from a generator. On the real-life case study instances, the best performing heuristic finds on average a solution only 3.4% away from optimal in a few seconds. We propose an explanation for the success of this heuristic, with the most pivotal conclusion being the importance of solving the underlying p -Medians Problem.

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Framework of Synchromodal Transportation Problems

Huncker

Huizing

Vecchyo

et al. 2017

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The enriched median routing problem and its usefulness in practice

Huizing

Mei

Schäfer

et al. 2022

Computers & Industrial Engineering

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Optimising and Recognising 2-Stage Delivery Chains with Time Windows

Phillipson

Vecchyo

Ginkel

et al. 2017

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In logistic delivery chains time windows are common. An arrival has to be in a certain time interval, at the expense of waiting time or penalties if the time limits are exceeded. This paper looks at the optimal placement of those time intervals in a specific case of a barge visiting two ports in sequence. For the second port a possible delay or penalty should be incorporated. Next, recognising these penalty structures in data is analysed. Do certain patterns in public travel data indicate that a certain dependency is existing.

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Dylan Huizing

The median routing problem for simultaneous planning of emergency response and non-emergency jobs

Framework of Synchromodal Transportation Problems

The enriched median routing problem and its usefulness in practice

Optimising and Recognising 2-Stage Delivery Chains with Time Windows

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