Albert Peter Marie (Albert) Wagelmans (born 1960) is a Dutch
economist and Professor of Management Science at the Erasmus School of Economics (ESE) of the
Erasmus University Rotterdam working in the fields of
mathematical optimization
Mathematical optimization (alternatively spelled ''optimisation'') or mathematical programming is the selection of a best element, with regard to some criterion, from some set of available alternatives. It is generally divided into two subfi ...
methods for
production,
public transport and
health care
Health care or healthcare is the improvement of health via the prevention, diagnosis, treatment, amelioration or cure of disease, illness, injury, and other physical and mental impairments in people. Health care is delivered by health profe ...
planning.
Biography
Born in 1960 in Rotterdam, Wagelmans received his MSc in Econometrics at the
Erasmus University Rotterdam in 1985, where in 1990 he received his Phd with the thesis entitled "Sensitivity analysis in combinatorial optimization," under supervision of
Alexander Rinnooy Kan and
Antoon Kolen.
Wagelmans had started his academic career at the Erasmus University Rotterdam as teaching assistant in 1982, became Assistant Professor in 1986 and was Instructor at the MBA Executive Development program in 1987/88. In 1989 he was visiting researcher at the
Université Catholique de Louvain
The Université catholique de Louvain (also known as the Catholic University of Louvain, the English translation of its French name, and the University of Louvain, its official English name) is Belgium's largest French-speaking university. It ...
, and in 1990/91 visiting researcher at
Massachusetts Institute of Technology. Back in Rotterdam in 2001 Wagelmans was appointed Professor of Operations Research at the
Erasmus University Rotterdam, where he held his inauguration speech "Moeilijk doen als het ook makkelijk kan" (''Making it hard, when it can be done easily'') about the usefulness of mathematical analysis in decision problems. In 2005, he was appointed Professor of Management Science.
From 1999 to 2003 Wagelmans was director of the Rotterdam Institute for Business Economic Studies (RIBES), and Associate director of the
Erasmus Research Institute of Management (ERIM). From 2001 to 2006 he was Director of the Bachelor-Master Program in Econometrics & Management Science, and from 2005 to 2006 also Director of the Bachelor-Master Program in Informatics & Economics. From 2006 to 2014 Wagelmans was Director of the
Econometric Institute as successor of
Philip Hans Franses, and is succeeded by
Patrick Groenen. He is research fellow of the
Tinbergen Institute since 1999, and fellow of ERIM since 2006.
Since 2015 Wagelmans is Chairman of the Dutch Society of Operations Research (NGB), and since 2016 he is Vice President 1 of the
Association of European Operational Research Societies (EURO).
Work
''A Dynamic Lot-Sizing Model with Demand Time Windows,'' 2001
In the 2001 article "A Dynamic Lot-Sizing Model with Demand Time Windows" published in
Management Science, Lee, Sila & Wagelmans described the
dynamic lot-sizing model
The dynamic lot-size model in inventory theory, is a generalization of the economic order quantity model that takes into account that demand for the product varies over time. The model was introduced by Harvey M. Wagner and Thomson M. Whitin in ...
and "the dynamic lot-sizing problem with demand time windows and provides
polynomial time algorithms for computing its solution."
[Lee, Sila & Wagelmans (2001)] They summarized this matter as follows:
One of the basic assumptions of the classical dynamic lot-sizing model
The dynamic lot-size model in inventory theory, is a generalization of the economic order quantity model that takes into account that demand for the product varies over time. The model was introduced by Harvey M. Wagner and Thomson M. Whitin in ...
is that the aggregate demand of a given period must be satisfied in that period. Under this assumption, if backlogging is not allowed then the demand of a given period cannot be delivered earlier or later than the period. If backlogging is allowed, the demand of a given period cannot be delivered earlier than the period, but can be delivered later at the expense of a backordering cost. Like most mathematical models, the classical dynamic lot-sizing model is a simplified paraphrase of what might actually happen in real life. In most real life applications, the customer offers a grace period - we call it a demand time window - during which a particular demand can be satisfied with no penalty. That is, in association with each demand, the customer specifies an earliest and a latest delivery time. The time interval characterized by the earliest and latest delivery dates of a demand represents the corresponding time window.
Jaruphongsa summarized that "Lee et al. (2001) generalize the classical (single echelon) dynamic lot-sizing model to consider demand time windows, and they provide polynomial time algorithms for two cases—where backorders are allowed and where they are not."
[Jaruphongsa, Wikrom, Sila Cetinkaya, and Chung-Yee Lee. "Warehouse space capacity and delivery time window considerations in dynamic lot-sizing for a simple supply chain." ''International Journal of Production Economics'' 92.2 (2004): 169-180.]
''Multiple-Depot Integrated Vehicle and Crew Scheduling,'' 2004
In the 2005 article "Multiple-Depot Integrated Vehicle and Crew Scheduling," Huisman, Freling and Wagelmans presented two new models and algorithms in the field of the
vehicle routing problem, specifically for "integrated vehicle and crew scheduling in the multiple-depot case."
[Huisman, Freling and Wagelmans (2005, p. 1)] they explained:
The algorithms are both based on a combination of column generation and Lagrangian relaxation. Furthermore, we compare those integrated approaches with each other and with the traditional sequential one on random generated as well as real-world data instances for a suburban/extra-urban mass transit system. To simulate such a transit system, we propose a new way of generating randomly data instances such that their properties are the same as for our real-world instances.
Selected publications
Wagelmans has authored and co-authored numerous publications. Book:
* Freling, Richard, Albert PM Wagelmans, and José M. Pinto Paixão. ''An overview of models and techniques for integrating vehicle and crew scheduling.'' Springer Berlin Heidelberg, 1999.
Articles, a selection:
* Wagelmans, Albert,
Stan Van Hoesel, and
Antoon Kolen.
Economic lot sizing: an O (n log n) algorithm that runs in linear time in the Wagner-Whitin case" ''Operations Research'' 40.1-Supplement - 1 (1992): S145-S156.
*
Van Hoesel, C. P. M., and Albert Peter Marie Wagelmans.
An O (T 3) algorithm for the economic lot-sizing problem with constant capacities" ''Management Science'' 42.1 (1996): 142-150.
* Shaw, Dong X., and Albert PM Wagelmans.
An algorithm for single-item capacitated economic lot sizing with piecewise linear production costs and general holding costs" ''Management Science'' 44.6 (1998): 831-838.
* Lee, Chung-Yee, Sila Çetinkaya, and Albert PM Wagelmans.
A dynamic lot-sizing model with demand time windows" ''
Management Science'' 47.10 (2001): 1384-1395.
* Freling, Richard, Dennis Huisman, and Albert PM Wagelmans.
Models and algorithms for integration of vehicle and crew scheduling" ''Journal of Scheduling'' 6.1 (2003): 63-85.
* Huisman, Dennis, Richard Freling, and Albert PM Wagelmans.
Multiple-depot integrated vehicle and crew scheduling" ''Transportation Science'' 39.4 (2005): 491-502.
References
External links
Albert P.M. Wagelmans Erasmus Research Institute of Management
{{DEFAULTSORT:Wagelmans, Albert Peter Marie
1960 births
Living people
Dutch economists
Dutch operations researchers
Erasmus University Rotterdam faculty