TY - JOUR A1 - Prause, Felix A1 - Hoppmann-Baum, Kai A1 - Defourny, Boris A1 - Koch, Thorsten T1 - The maximum diversity assortment selection problem JF - Mathematical Methods of Operations Research N2 - In this article, we introduce the Maximum Diversity Assortment Selection Problem (MDASP), which is a generalization of the two-dimensional Knapsack Problem (2D-KP). Given a set of rectangles and a rectangular container, the goal of 2D-KP is to determine a subset of rectangles that can be placed in the container without overlapping, i.e., a feasible assortment, such that a maximum area is covered. MDASP is to determine a set of feasible assortments, each of them covering a certain minimum threshold of the container, such that the diversity among them is maximized. Thereby, diversity is defined as the minimum or average normalized Hamming distance of all assortment pairs. MDASP was the topic of the 11th AIMMS-MOPTA Competition in 2019. The methods described in this article and the resulting computational results won the contest. In the following, we give a definition of the problem, introduce a mathematical model and solution approaches, determine upper bounds on the diversity, and conclude with computational experiments conducted on test instances derived from the 2D-KP literature. Y1 - 2021 U6 - https://doi.org/https://doi.org/10.1007/s00186-021-00740-2 VL - 93 SP - 521 EP - 554 PB - Mathematical Methods of Operations Research ER - TY - GEN A1 - Borndörfer, Ralf A1 - Denißen, Jonas A1 - Heller, Simon A1 - Klug, Torsten A1 - Küpper, Michael A1 - Lindner, Niels A1 - Reuther, Markus A1 - Schlechte, Thomas A1 - Söhlke, Andreas A1 - Steadman, William T1 - Microscopic Timetable Optimization for a Moving Block System N2 - We present an optimization model which is capable of routing and ordering trains on a microscopic level under a moving block regime. Based on a general timetabling definition (GTTP) that allows the plug in of arbitrarily detailed methods to compute running and headway times, we describe a layered graph approach using velocity expansion, and develop a mixed integer linear programming formulation. Finally, we present promising results for a German corridor scenario with mixed traffic, indicating that applying branch-and-cut to our model is able to solve reasonably sized instances with up to hundred trains to optimality. T3 - ZIB-Report - 21-13 KW - Moving Block KW - Railway Track Allocation KW - Railway Timetabling KW - Train Routing Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:0297-zib-82547 SN - 1438-0064 ER - TY - GEN A1 - Euler, Ricardo A1 - Borndörfer, Ralf A1 - Strunk, Timo A1 - Takkula, Tuomo T1 - ULD Build-Up Scheduling with Dynamic Batching in an Air Freight Hub N2 - Air freight is usually shipped in standardized unit load devices (ULDs). The planning process for the consolidation of transit cargo from inbound flights or locally emerging shipments into ULDs for outbound flights is called build-up scheduling. More specifically, outbound ULDs must be assigned a time and a workstation subject to both workstation capacity constraints and the availability of shipments which in turn depends on break-down decisions for incoming ULDs. ULDs scheduled for the same outbound flight should be built up in temporal and spatial proximity. This serves both to minimize overhead in transportation times and to allow workers to move freight between ULDs. We propose to address this requirement by processing ULDs for the same outbound flight in batches. For the above build-up scheduling problem, we introduce a multi-commodity network design model. Outbound flights are modeled as commodities; transit cargo is represented by cargo flow volume and unpack and batch decisions are represented as design variables. The model is solved with standard MIP solvers on a set of benchmark data. For instances with a limited number of resource conflicts, near-optimal solutions are found in under two hours for a whole week of operations. T3 - ZIB-Report - 21-31 KW - Logistics KW - Airline Applications Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:0297-zib-83482 SN - 1438-0064 ER - TY - THES A1 - Bushe, Julian T1 - Rolling Stock Rotation Optimization with Maintenance Paths N2 - Die Planung vom Zugumläufen ist eine der wichtigsten Aufgaben für Eisenbahnun- ternehmen. Dabei spielt auch die Einhaltung von vorgegebenen Wartungsintervallen eine zentrale Rolle für die Sicherheit und Zuverlässigkeit der Schienenfahrzeuge. Wir zeigen, wie man dieses Umlaufplanungsproblem unter Beachtung von Wartungsbe- dingungen mathematisch formuliert, modelliert und löst — sowohl in der Theorie als auch im Anwendungsfall mit Szenarien der DB Fernverkehr AG, einer Konzern- tochter der Deutschen Bahn für den Schienenpersonenfernverkehr. Markus Reuther hat sich in seiner Dissertation [11] mit diesem Problem beschäftigt und es mit Hilfe eines passenden Hypergraphen als gemischt-ganzzahliges Programm modelliert. Neben der Modellierung präsentiert Reuther in seiner Arbeit neuartige algorithmische Ideen, darunter den sogenannten Coarse-to-Fine -Ansatz, bei dem zunächst Teile des Problems auf einer weniger detaillierten ( coarse ) Ebene gelöst werden und diese Lösung dann verwendet wird, um auf effiziente Art und Weise eine Lösung für das ursprüngliche Problem zu finden. Zur Wartungsplanung nutzt Reuther einen Fluss im Hypergraphen, der den Ressourcenverbrauch der Fahrzeuge modelliert. In der linearen Relaxierung des Modells führt dies dazu, dass die Zahl der notwendigen Wartungen systematisch unterschätzt wird. Dadurch bleibt in vielen Fällen eine große Lücke zwischen dem Zielfunktionswert einer optimalen Lösung des ganzzahligen Problems und der untere Schranke, die uns die lineare Relaxierung liefert. Wir nehmen uns in dieser Arbeit dieses Problems an. Wir entwickeln ein auf Pfaden basierendes ganzzahliges Modell für das Umlaufplanungsproblem und zeigen, dass die untere Schranke mindestens so scharf oder schärfer ist als die untere Schranke, die das Modell von Reuther liefert. Um das Modell zu lösen, entwickeln wir einen Algorithmus, der Spaltengenerierung mit dem Coarse-to-Fine-Ansatz von Reuther verbindet. Weiterhin entwickeln wir eine Spaltenauswahlregel zur Beschleunigung des Algorithmus. Das Modell und alle in der Arbeit vorgestellten Algorithmen wur- den im Rahmen der Arbeit implementiert und mit Anwendungsszenarien der DB Fernverkehr AG getestet. Unsere Tests zeigen, dass unser Modell für fast alle Szena- rien deutlich schärfere untere Schranken liefert als das Modell von Reuther. In den getesteten Instanzen konnten wir durch die Verbesserung der unteren Schranke bis zu 99% der Optimalitätslücke schließen. In einem Drittel der Fälle konnten wir durch unseren Ansatz auch für das ganzzahlige Programm verbesserte Zielfunktionswerte erreichen Y1 - 2021 ER - TY - GEN A1 - Lindner, Niels A1 - Liebchen, Christian T1 - Timetable Merging for the Periodic Event Scheduling Problem N2 - We propose a new mixed integer programming based heuristic for computing new benchmark primal solutions for instances of the PESPlib. The PESPlib is a collection of instances for the Periodic Event Scheduling Problem (PESP), comprising periodic timetabling problems inspired by real-world railway timetabling settings, and attracting several international research teams during the last years. We describe two strategies to merge a set of good periodic timetables. These make use of the instance structure and minimum weight cycle bases, finally leading to restricted mixed integer programming formulations with tighter variable bounds. Implementing this timetable merging approach in a concurrent solver, we improve the objective values of the best known solutions for the smallest and largest PESPlib instances by 1.7 and 4.3 percent, respectively. T3 - ZIB-Report - 21-06 KW - Periodic Event Scheduling Problem KW - Periodic Timetabling KW - Railway Timetabling KW - PESPlib KW - Benchmark Solutions KW - Mixed Integer Programming Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:0297-zib-81587 SN - 1438-0064 ER - TY - CHAP A1 - Lindner, Niels A1 - Liebchen, Christian A1 - Masing, Berenike T1 - Forward Cycle Bases and Periodic Timetabling T2 - 21st Symposium on Algorithmic Approaches for Transportation Modelling, Optimization, and Systems (ATMOS 2021) N2 - Periodic timetable optimization problems in public transport can be modeled as mixed-integer linear programs by means of the Periodic Event Scheduling Problem (PESP). In order to keep the branch-and-bound tree small, minimum integral cycle bases have been proven successful. We examine forward cycle bases, where no cycle is allowed to contain a backward arc. After reviewing the theory of these bases, we describe the construction of an integral forward cycle basis on a line-based event-activity network. Adding turnarounds to the instance R1L1 of the benchmark library PESPlib, we computationally evaluate three types of forward cycle bases in the Pareto sense, and come up with significant improvements concerning dual bounds. Y1 - 2021 U6 - https://doi.org/10.4230/OASIcs.ATMOS.2021.2 VL - 96 SP - 2:1 EP - 2:14 ER - TY - GEN A1 - Lindner, Niels A1 - Liebchen, Christian A1 - Masing, Berenike T1 - Forward Cycle Bases and Periodic Timetabling N2 - Periodic timetable optimization problems in public transport can be modeled as mixed-integer linear programs by means of the Periodic Event Scheduling Problem (PESP). In order to keep the branch-and-bound tree small, minimum integral cycle bases have been proven successful. We examine forward cycle bases, where no cycle is allowed to contain a backward arc. After reviewing the theory of these bases, we describe the construction of an integral forward cycle basis on a line-based event-activity network. Adding turnarounds to the instance \texttt{R1L1} of the benchmark library PESPlib, we computationally evaluate three types of forward cycle bases in the Pareto sense, and come up with significant improvements concerning dual bounds. T3 - ZIB-Report - 21-18 KW - Periodic Timetabling KW - Cycle Bases KW - Mixed Integer Programming Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:0297-zib-82756 SN - 1438-0064 ER - TY - GEN A1 - Lindner, Niels A1 - Maristany de las Casas, Pedro A1 - Schiewe, Philine T1 - Optimal Forks: Preprocessing Single-Source Shortest Path Instances with Interval Data N2 - We investigate preprocessing for single-source shortest path queries in digraphs, where arc costs are only known to lie in an interval. More precisely, we want to decide for each arc whether it is part of some shortest path tree for some realization of costs. We show that this problem is solvable in polynomial time by giving a combinatorial algorithm, using optimal structures that we call forks. Our algorithm turns out to be very efficient in practice, and is sometimes even superior in quality to a heuristic developed for the one-to-one shortest path problem in the context of passenger routing in public transport. T3 - ZIB-Report - 21-17 KW - Preprocessing Shortest Path Problems KW - Interval Data KW - Graph Algorithms Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:0297-zib-82716 SN - 1438-0064 ER - TY - GEN A1 - Lindner, Niels A1 - van Lieshout, Rolf T1 - Benders Decomposition for the Periodic Event Scheduling Problem N2 - The Periodic Event Scheduling Problem (PESP) is the central mathematical model behind the optimization of periodic timetables in public transport. We apply Benders decomposition to the incidence-based MIP formulation of PESP. The resulting formulation exhibits particularly nice features: The subproblem is a minimum cost network flow problem, and feasibility cuts are equivalent to the well-known cycle inequalities by Odijk. We integrate the Benders approach into a branch-and-cut framework, and assess the performance of this method on instances derived from the benchmarking library PESPlib. T3 - ZIB-Report - 21-29 KW - Periodic Timetabling KW - Periodic Event Scheduling Problem KW - Benders Decomposition KW - Mixed-Integer Programming Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:0297-zib-83338 SN - 1438-0064 ER - TY - CHAP A1 - Lindner, Niels A1 - Maristany de las Casas, Pedro A1 - Schiewe, Philine T1 - Optimal Forks: Preprocessing Single-Source Shortest Path Instances with Interval Data T2 - 21st Symposium on Algorithmic Approaches for Transportation Modelling, Optimization, and Systems (ATMOS 2021) N2 - We investigate preprocessing for single-source shortest path queries in digraphs, where arc costs are only known to lie in an interval. More precisely, we want to decide for each arc whether it is part of some shortest path tree for some realization of costs. We show that this problem is solvable in polynomial time by giving a combinatorial algorithm, using optimal structures that we call forks. Our algorithm turns out to be very efficient in practice, and is sometimes even superior in quality to a heuristic developed for the one-to-one shortest path problem in the context of passenger routing in public transport. Y1 - 2021 U6 - https://doi.org/10.4230/OASIcs.ATMOS.2021.7 VL - 96 SP - 7:1 EP - 7:15 ER - TY - JOUR A1 - Borndörfer, Ralf A1 - Euler, Ricardo A1 - Karbstein, Marika T1 - Ein Graphen-basiertes Modell zur Beschreibung von Preissystemen im öffentlichen Nahverkehr JF - HEUREKA 21 N2 - In dieser Arbeit wird ein graphenbasiertes Modell zur Einbindung von Preissystemen des öffentlichen Nahverkehrs in Routing-Algorithmen vorgestellt. Jeder Knoten des Graphen repräsentiert einen abstrakten Preiszustand einer Route und ist an einen tatsächlichen Preis gekoppelt. Damit sind sehr einfache und konzise Beschreibungen von Tarifstrukturen möglich, diesich algorithmisch behandeln lassen. Durch das zeitgleiche Tracken eines Pfades im Routinggraphen im Ticketgraphen kann schon während einer Routenberechnung der Preis bestimmt werden. Dies ermöglicht die Berechnung von preisoptimalen Routen. An den Tarifsystemen der Verkehrsverbünde MDV (Mitteldeutscher Verkehrsverbund) und VBB (Verkehrsverbund Berlin-Brandenburg) wird die Konstruktion des Modells detailliert erläutert. Y1 - 2021 UR - https://verlag.fgsv-datenbanken.de/tagungsbaende?kat=HEUREKA&subkat=FGSV+002%2F127+%282021%29&fanr=&va=&titel=&text=&autor=&tagungsband=1256&_titel=Ein+Graphen-basiertes+Modell+zur+Beschreibung+von+Preissystemen+im+%C3%B6ffentlichen+Nahverkehr VL - 002/127 SP - 1 EP - 15 PB - FGSV CY - Stuttgart ER - TY - THES A1 - Lange, Johanna T1 - A Decomposition and Dualization Approach to the Periodic Event Scheduling Problem N2 - Scheduling ist ein wichtiger Forschungsgegenstand im Bereich der diskreten Optimierung. Es geht darum, einen Schedule, d.h. einen Ablaufplan, für gegebene Ereignisse zu finden. Dieser soll optimal hinsichtlich einer Zielfunktion wie zum Beispiel minimaler Dauer oder Kosten sein. Dabei gibt es in der Regel Nebenbedingungen wie Vorrangbeziehungen zwischen den Ereignissen oder zeitliche Einschränkungen, die zu erfüllen sind. Falls die Ereignisse periodisch wiederkehren, spricht man von periodischem Scheduling. Beispiele sind das Erstellen von Zugfahrplänen, die Schaltungvon Ampelsignalen oder die Planung von Produktionsabläufen. Mathematisch können diese Probleme mit dem Periodic Event Scheduling Problem (PESP) modelliert werden, das als gemischt-ganzzahliges Programm formuliert werden kann. In dieser Bachelorarbeit wird ein Ansatz zur Lösung des PESP mittels Zerlegung und Dualisierung entwickelt. In den Kapiteln 2 und 3 werden zunächst die notwendigen graphentheoretischen Grundlagen und das PESP eingeführt. In Kapitel 4 wird das PESP durch Fixierung der ganzzahligen Variablen in lineare Programme zerlegt. Dieses Unterproblem wird dualisiert und wieder in das PESP eingesetzt. Dafür ist eine weitere Nebenbedingung nötig. Im fünften Kapitel behandeln wir die Lösung des teildualisierten PESP. Eine Möglichkeit ist es, sich auf eine Teilmenge der Nebenbedingungen zu beschränken. Eine weitere Möglichkeit ist ein Algorithmus, derähnlich wie BendersZerlegung die Nebenbedingungen dynamisch erzeugt. Dieser Algorithmus wird in Kapitel 6 implementiert und an vier Beispielen getestet. Y1 - 2021 ER - TY - THES A1 - Kühner, Arno T1 - Shortest Paths with Boolean Constraints N2 - For this thesis we study the Constrained Horizontal Flightplanning Problem (CHFPP) for which one has to find the path of minimum cost between airports s and t in a directed graph that respects a set of boolean constraints. To this end we give a survey of three different multilabel algorithms that all use a domination subroutine. We summarize an approach by Knudsen, Chiarandini and Larsen to define this domination and afterwards present our own method which builds on that approach. We suggest different implementation techniques to speed up the computation time, most notably a Reoptimization for an iterative method to solve the problem. Furthermore we implemented the different versions of the algorithm and present statistics on their computation as well as an overview of statistics on the set of real-world constraints that we were given. Finally we present two alternative approaches that tackle the problem, a heuristic with similarities to a Lagrangian relaxation and an approach that makes use of an algorithm which finds the k shortest path of a graph such as the ones of Epstein or Yen. Y1 - 2021 ER - TY - GEN A1 - Maristany de las Casas, Pedro A1 - Sedeno-Noda, Antonio A1 - Borndörfer, Ralf T1 - An Improved Multiobjective Shortest Path Algorithm N2 - We present a new label-setting algorithm for the Multiobjective Shortest Path (MOSP) problem that computes the minimal complete set of efficient paths for a given instance. The size of the priority queue used in the algorithm is bounded by the number of nodes in the input graph and extracted labels are guaranteed to be efficient. These properties allow us to give a tight output-sensitive running time bound for the new algorithm that can almost be expressed in terms of the running time of Dijkstra's algorithm for the Shortest Path problem. Hence, we suggest to call the algorithm \emph{Multiobjective Dijkstra Algorithm} (MDA). The simplified label management in the MDA allows us to parallelize some subroutines. In our computational experiments, we compare the MDA and the classical label-setting MOSP algorithm by Martins', which we improved using new data structures and pruning techniques. On average, the MDA is $\times2$ to $\times9$ times faster on all used graph types. On some instances the speedup reaches an order of magnitude. T3 - ZIB-Report - 20-26 KW - Multiobjective Shortest Path Problem KW - Output-Sensitive Multiobjective Combinatorial Problems KW - Network Optimization Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:0297-zib-79712 SN - 1438-0064 ER - TY - JOUR A1 - Sahin, Guvenc A1 - Digehsara, Amin Ahmadi A1 - Borndörfer, Ralf T1 - Efficient Algorithms for the Multi-Period Line Planning Problem in Public Transportation JF - Open Access Series in Informatics (OASIcs), 21st Symposium on Algorithmic Approaches for Transportation Modelling, Optimization, and Systems (ATMOS 2021) N2 - In order to plan and schedule a demand-responsive public transportation system, both temporal and spatial changes in demand should be taken into account even at the line planning stage. We study the multi-period line planning problem with integrated decisions regarding dynamic allocation of vehicles among the lines. Given the NP-hard nature of the line planning problem, the multi-period version is clearly difficult to solve for large public transit networks even with advanced solvers. It becomes necessary to develop algorithms that are capable of solving even the very-large instances in reasonable time. For instances which belong to real public transit networks, we present results of a heuristic local branching algorithm and an exact approach based on constraint propagation. Y1 - 2021 U6 - https://doi.org/10.4230/OASIcs.ATMOS.2021.17 VL - 96 SP - 17:1 EP - 17:6 ER - TY - JOUR A1 - Borndörfer, Ralf A1 - Danecker, Fabian A1 - Weiser, Martin T1 - A Discrete-Continuous Algorithm for Free Flight Planning JF - Algorithms N2 - We propose a hybrid discrete-continuous algorithm for flight planning in free flight airspaces. In a first step, our DisCOptER method discrete-continuous optimization for enhanced resolution) computes a globally optimal approximate flight path on a discretization of the problem using the A* method. This route initializes a Newton method that converges rapidly to the smooth optimum in a second step. The correctness, accuracy, and complexity of the method are goverened by the choice of the crossover point that determines the coarseness of the discretization. We analyze the optimal choice of the crossover point and demonstrate the asymtotic superority of DisCOptER over a purely discrete approach. KW - shortest path KW - flight planning KW - free flight KW - discrete-continuous algorithm KW - optimal control KW - discrete optimization Y1 - 2020 U6 - https://doi.org/10.3390/a14010004 SN - 1438-0064 VL - 14 IS - 1 SP - 4 PB - MDPI ER - TY - THES A1 - Bortoletto, Enrico T1 - The tropical tiling of periodic timetable space and a dual modulo network simplex algorithm N2 - We propose a tropical interpretation of the solution space of the Periodic Event Scheduling Problem as a collection of polytropes, making use of the characterization of tropical cones as weighted digraph polyhedra. General and geometric properties of the polytropal collection are inspected and understood in connection with the combinatorial properties of the underlying periodic event scheduling instance. Novel algorithmic ideas are presented and tested, making use of the aforementioned theoretical results to solve and optimize the problem. Y1 - 2021 ER - TY - THES A1 - Kraus, Luitgard T1 - A Label Setting Multiobjective Shortest Path FPTAS N2 - Algorithms that solve the shortest path problem can largely be split into the two categories of label setting and label correcting. The Multiobjective Shortest Path (MOSP) problem is a generalization of the classical shortest path problem in terms of the dimension of the cost function. We explore the differences of two similar MOSP label setting algorithms. Furthermore, we present and prove a general method of how to derive Fully Polynomial Time Approximation Schemes (FPTAS) for MOSP label setting algorithms. Finally, we explore two pruning techniques for the one to one variants of exact label setting MOSP algorithms and adapt them to their FPTAS variants. Y1 - 2021 ER - TY - THES A1 - Rahmati, Niloofar T1 - Resource Constrained APSP-Algorithm with Possible Reloading Stops Y1 - 2021 ER - TY - JOUR A1 - Borndörfer, Ralf A1 - Eßer, Thomas A1 - Frankenberger, Patrick A1 - Huck, Andreas A1 - Jobmann, Christoph A1 - Krostitz, Boris A1 - Kuchenbecker, Karsten A1 - Moorhagen, Kai A1 - Nagl, Philipp A1 - Peterson, Michael A1 - Reuther, Markus A1 - Schang, Thilo A1 - Schoch, Michael A1 - Schülldorf, Hanno A1 - Schütz, Peter A1 - Therolf, Tobias A1 - Waas, Kerstin A1 - Weider, Steffen T1 - Deutsche Bahn Schedules Train Rotations Using Hypergraph Optimization JF - Informs Journal on Applied Analytics N2 - Deutsche Bahn (DB) operates a large fleet of rolling stock (locomotives, wagons, and train sets) that must be combined into trains to perform rolling stock rotations. This train composition is a special characteristic of railway operations that distinguishes rolling stock rotation planning from the vehicle scheduling problems prevalent in other industries. DB models train compositions using hyperarcs. The resulting hypergraph models are ad-dressed using a novel coarse-to-fine method that implements a hierarchical column genera-tion over three levels of detail. This algorithm is the mathematical core of DB’s fleet em-ployment optimization (FEO) system for rolling stock rotation planning. FEO’s impact within DB’s planning departments has been revolutionary. DB has used it to support the company’s procurements of its newest high-speed passenger train fleet and its intermodal cargo locomotive fleet for cross-border operations. FEO is the key to successful tendering in regional transport and to construction site management in daily operations. DB’s plan-ning departments appreciate FEO’s high-quality results, ability to reoptimize (quickly), and ease of use. Both employees and customers benefit from the increased regularity of operations. DB attributes annual savings of 74 million euro, an annual reduction of 34,000 tons of CO2 emissions, and the elimination of 600 coupling operations in cross-border operations to the implementation of FEO. Y1 - 2021 U6 - https://doi.org/10.1287/inte.2020.1069 VL - 51 IS - 1 SP - 42 EP - 62 ER -