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1. Comparison and Evaluation of Methods for a Predict+Optimize Problem in Renewable Energy

Author

Bergmeir, Christoph, de Nijs, Frits, Sriramulu, Abishek, Abolghasemi, Mahdi, Bean, Richard, Betts, John, Bui, Quang, Dinh, Nam Trong, Einecke, Nils, Esmaeilbeigi, Rasul, Ferraro, Scott, Galketiya, Priya, Genov, Evgenii, Glasgow, Robert, Godahewa, Rakshitha, Kang, Yanfei, Limmer, Steffen, Magdalena, Luis, Montero-Manso, Pablo, Peralta, Daniel, Kumar, Yogesh Pipada Sunil, Rosales-Pérez, Alejandro, Ruddick, Julian, Stratigakos, Akylas, Stuckey, Peter, Tack, Guido, Triguero, Isaac, and Yuan, Rui

Subjects
Computer Science - Artificial Intelligence
Abstract

Algorithms that involve both forecasting and optimization are at the core of solutions to many difficult real-world problems, such as in supply chains (inventory optimization), traffic, and in the transition towards carbon-free energy generation in battery/load/production scheduling in sustainable energy systems. Typically, in these scenarios we want to solve an optimization problem that depends on unknown future values, which therefore need to be forecast. As both forecasting and optimization are difficult problems in their own right, relatively few research has been done in this area. This paper presents the findings of the ``IEEE-CIS Technical Challenge on Predict+Optimize for Renewable Energy Scheduling," held in 2021. We present a comparison and evaluation of the seven highest-ranked solutions in the competition, to provide researchers with a benchmark problem and to establish the state of the art for this benchmark, with the aim to foster and facilitate research in this area. The competition used data from the Monash Microgrid, as well as weather data and energy market data. It then focused on two main challenges: forecasting renewable energy production and demand, and obtaining an optimal schedule for the activities (lectures) and on-site batteries that lead to the lowest cost of energy. The most accurate forecasts were obtained by gradient-boosted tree and random forest models, and optimization was mostly performed using mixed integer linear and quadratic programming. The winning method predicted different scenarios and optimized over all scenarios jointly using a sample average approximation method.

Published
2022

2. Enhanced Methods for the Weight Constrained Shortest Path Problem

Author

Ahmadi, Saman, Tack, Guido, Harabor, Daniel, Kilby, Philip, and Jalili, Mahdi

Subjects
Computer Science - Artificial Intelligence, Computer Science - Data Structures and Algorithms
Abstract

The classic problem of constrained pathfinding is a well-studied, yet challenging, topic in AI with a broad range of applications in various areas such as communication and transportation. The Weight Constrained Shortest Path Problem (WCSPP), the base form of constrained pathfinding with only one side constraint, aims to plan a cost-optimum path with limited weight/resource usage. Given the bi-criteria nature of the problem (i.e., dealing with the cost and weight of paths), methods addressing the WCSPP have some common properties with bi-objective search. This paper leverages the recent state-of-the-art techniques in both constrained pathfinding and bi-objective search and presents two new solution approaches to the WCSPP on the basis of A* search, both capable of solving hard WCSPP instances on very large graphs. We empirically evaluate the performance of our algorithms on a set of large and realistic problem instances and show their advantages over the state-of-the-art algorithms in both time and space metrics. This paper also investigates the importance of priority queues in constrained search with A*. We show with extensive experiments on both realistic and randomised graphs how bucket-based queues without tie-breaking can effectively improve the algorithmic performance of exhaustive A*-based bi-criteria searches., Comment: 62 pages, 16 figures, 7 tables

Published
2022
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3. Bi-objective Search with Bi-directional A*

Author

Ahmadi, Saman, Tack, Guido, Harabor, Daniel, and Kilby, Philip

Subjects
Computer Science - Artificial Intelligence, Computer Science - Data Structures and Algorithms, I.2.8
Abstract

Bi-objective search is a well-known algorithmic problem, concerned with finding a set of optimal solutions in a two-dimensional domain. This problem has a wide variety of applications such as planning in transport systems or optimal control in energy systems. Recently, bi-objective A*-based search (BOA*) has shown state-of-the-art performance in large networks. This paper develops a bi-directional and parallel variant of BOA*, enriched with several speed-up heuristics. Our experimental results on 1,000 benchmark cases show that our bi-directional A* algorithm for bi-objective search (BOBA*) can optimally solve all of the benchmark cases within the time limit, outperforming the state of the art BOA*, bi-objective Dijkstra and bi-directional bi-objective Dijkstra by an average runtime improvement of a factor of five over all of the benchmark instances., Comment: 16 pages, 4 figures, in Proceedings of The European Symposium on Algorithms 2021 (ESA21), Changes: including the backward search of BOBA*

Published
2021
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4. Versatile and Robust Transient Stability Assessment via Instance Transfer Learning

Author

Meghdadi, Seyedali, Tack, Guido, Liebman, Ariel, Langrené, Nicolas, and Bergmeir, Christoph

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Artificial Intelligence
Abstract

To support N-1 pre-fault transient stability assessment, this paper introduces a new data collection method in a data-driven algorithm incorporating the knowledge of power system dynamics. The domain knowledge on how the disturbance effect will propagate from the fault location to the rest of the network is leveraged to recognise the dominant conditions that determine the stability of a system. Accordingly, we introduce a new concept called Fault-Affected Area, which provides crucial information regarding the unstable region of operation. This information is embedded in an augmented dataset to train an ensemble model using an instance transfer learning framework. The test results on the IEEE 39-bus system verify that this model can accurately predict the stability of previously unseen operational scenarios while reducing the risk of false prediction of unstable instances compared to standard approaches., Comment: Accepted at the 2021 IEEE PES General Meeting, July 25-29 2020, Washington, DC, USA

Published
2021
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5. Supporting the Problem-Solving Loop: Designing Highly Interactive Optimisation Systems

Author

Liu, Jie, Dwyer, Tim, Tack, Guido, Gratzl, Samuel, and Marriott, Kim

Subjects
Computer Science - Human-Computer Interaction
Abstract

Efficient optimisation algorithms have become important tools for finding high-quality solutions to hard, real-world problems such as production scheduling, timetabling, or vehicle routing. These algorithms are typically "black boxes" that work on mathematical models of the problem to solve. However, many problems are difficult to fully specify, and require a "human in the loop" who collaborates with the algorithm by refining the model and guiding the search to produce acceptable solutions. Recently, the Problem-Solving Loop was introduced as a high-level model of such interactive optimisation. Here, we present and evaluate nine recommendations for the design of interactive visualisation tools supporting the Problem-Solving Loop. They range from the choice of visual representation for solutions and constraints to the use of a solution gallery to support exploration of alternate solutions. We first examined the applicability of the recommendations by investigating how well they had been supported in previous interactive optimisation tools. We then evaluated the recommendations in the context of the vehicle routing problem with time windows (VRPTW). To do so we built a sophisticated interactive visual system for solving VRPTW that was informed by the recommendations. Ten participants then used this system to solve a variety of routing problems. We report on participant comments and interaction patterns with the tool. These showed the tool was regarded as highly usable and the results generally supported the usefulness of the underlying recommendations., Comment: 9+2 pages, 6 figures, VAST 2020

Published
2020

6. Data-Driven Security Assessment of the Electric Power System

Author

Meghdadi, Seyedali, Tack, Guido, and Liebman, Ariel

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Artificial Intelligence
Abstract

The transition to a new low emission energy future results in a changing mix of generation and load types due to significant growth in renewable energy penetration and reduction in system inertia due to the exit of ageing fossil fuel power plants. This increases technical challenges for electrical grid planning and operation. This study introduces a new decomposition approach to account for the system security for short term planning using conventional machine learning tools. The immediate value of this work is that it provides extendable and computationally efficient guidelines for using supervised learning tools to assess first swing transient stability status. To provide an unbiased evaluation of the final model fit on the training dataset, the proposed approach was examined on a previously unseen test set. It distinguished stable and unstable cases in the test set accurately, with only 0.57% error, and showed a high precision in predicting the time of instability, with 6.8% error and mean absolute error as small as 0.0145.

Published
2020
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7. Interaction Between Coordinated and Droop Control PV Inverters

Author

Lusis, Peter, Andrew, Lachlan L. H., Liebman, Ariel, and Tack, Guido

Subjects
Electrical Engineering and Systems Science - Systems and Control, Mathematics - Optimization and Control, 90B50, G.1.6
Abstract

Autonomous droop control PV inverters have improved voltage regulation compared to the inverters without grid support functions, but more flexible control techniques will be required as the number of solar photovoltaic (PV) installations increases. This paper studies three inverter future deployment scenarios with droop control inverters, non-exporting inverters, and coordinated inverter control (CIC). The network operation and the interaction between various inverter control methods are studied by simulating inverter operation on two low-voltage networks. Considering 30% PV penetration as the base case, we demonstrate that coordinated inverters can mitigate overvoltages and voltage fluctuations caused by the tripping of passive inverters in 85% of PV location cases when at least as many coordinated as passive inverters are deployed on the 114-node test feeder. However, this rate reduced to 37% with the IEEE 906-node network demonstrating that the deployment of coordinated inverter control may not be able to reverse passive inverter-related voltage disturbances when the build-up of passive inverters has reached a certain threshold. The aggregated PV output from coordinated inverters can be also used to provide grid support services. When the low-voltage networks operate close to the upper voltage limits, the change in the power output from coordinated inverters following a regulation request may be partially offset by passive inverters. Considering an equal number of passive and coordinated inverters, this paper shows that for each unit of the down-regulation request delivered by coordinated inverters, passive inverter output may increase by up to 0.2 units and decrease by up to 0.45 units during coordinated inverter up-regulation., Comment: 11 pages, 10 figures

Published
2020
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8. The Added Value of Coordinating Inverter Control

Author

Lusis, Peter, Andrew, Lachlan L H, Liebman, Ariel, and Tack, Guido

Subjects
Mathematics - Optimization and Control, 90B50, G.1.6
Abstract

Coordinated photovoltaic inverter control with centralized coordination of curtailment can increase the amount of energy sent from low-voltage (LV) distribution networks to the grid while respecting voltage constraints. First, this paper quantifies the improvement of such an approach relative to autonomous droop control, in terms of PV curtailment and line losses in balanced networks. It then extends the coordinated inverter control to unbalanced distribution networks. Finally, it formulates a control algorithm for different objectives such as the fairer distribution of PV curtailment and rewarding PV customers for utilizing the excess power locally. The coordinated inverter control algorithm is tested on the 114-node and 906-bus LV European test feeders with cable sizes between 50mm^2 and 240mm^2 and validated with reference to OpenDSS. The results demonstrate that coordinated inverter control is superior when applied to high impedance LV networks and LV networks constrained by the distribution transformer capacity limits compared to autonomous inverters. On the 95mm^2 overhead line, it yields a 2% increase on average in the utilized PV output with up to 5% increase for some PV locations at higher penetration levels. Up to a 20% increase in PV hosting capacity was observed for location scenarios with PV system clustering., Comment: 11 pages, 14 figures

Published
2020
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9. Reducing the Unfairness of Coordinated Inverter Dispatch in PV-Rich Distribution Networks

Author

Lusis, Peter, Chakraborty, Shantanu, Andrew, Lachlan L H, Liebman, Ariel, and Tack, Guido

Subjects
Mathematics - Optimization and Control, 90B50, G.1.6
Abstract

The integration of a high share of solar photovoltaics (PV) in distribution networks requires advanced voltage control technologies or network augmentation, both associated with significant investment costs. An alternative is to prevent new customers from installing solar PV systems, but this is against the common goal of increasing renewable energy generation. This paper demonstrates that solar PV curtailment in low voltage areas can be reduced and fairly distributed among PV owners by centrally coordinating the operation of PV inverters. The optimal inverter active and reactive power operation points are computed by solving a multi-objective optimization problem with a fairness objective. The main results show that fair optimal inverter dispatch (FOID) results in less power curtailment than passive voltage regulation based on Volt/VAr droop control, especially at high solar PV to load ratios. The effectiveness of the model is demonstrated on a residential low voltage network., Comment: 6 pages, 5 figures, 2019 IEEE Milan PowerTech

Published
2020
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10. Solution Dominance over Constraint Satisfaction Problems

Author

Guns, Tias, Stuckey, Peter J., and Tack, Guido

Subjects
Computer Science - Artificial Intelligence, I.2.8
Abstract

Constraint Satisfaction Problems (CSPs) typically have many solutions that satisfy all constraints. Often though, some solutions are preferred over others, that is, some solutions dominate other solutions. We present solution dominance as a formal framework to reason about such settings. We define Constraint Dominance Problems (CDPs) as CSPs with a dominance relation, that is, a preorder over the solutions of the CSP. This framework captures many well-known variants of constraint satisfaction, including optimization, multi-objective optimization, Max-CSP, minimal models, minimum correction subsets as well as optimization over CP-nets and arbitrary dominance relations. We extend MiniZinc, a declarative language for modeling CSPs, to CDPs by introducing dominance nogoods; these can be derived from dominance relations in a principled way. A generic method for solving arbitrary CDPs incrementally calls a CSP solver and is compatible with any existing solver that supports MiniZinc. This encourages experimenting with different solution dominance relations for a problem, as well as comparing different solvers without having to modify their implementations., Comment: Presented at the ModRef18 workshop at CP18

Published
2018

11. MiniZinc with Strings

Author

Amadini, Roberto, Flener, Pierre, Pearson, Justin, Scott, Joseph D., Stuckey, Peter J., and Tack, Guido

Subjects
Computer Science - Programming Languages
Abstract

Strings are extensively used in modern programming languages and constraints over strings of unknown length occur in a wide range of real-world applications such as software analysis and verification, testing, model checking, and web security. Nevertheless, practically no CP solver natively supports string constraints. We introduce string variables and a suitable set of string constraints as builtin features of the MiniZinc modelling language. Furthermore, we define an interpreter for converting a MiniZinc model with strings into a FlatZinc instance relying on only integer variables. This provides a user-friendly interface for modelling combinatorial problems with strings, and enables both string and non-string solvers to actually solve such problems., Comment: Pre-proceedings paper presented at the 26th International Symposium on Logic-Based Program Synthesis and Transformation (LOPSTR 2016), Edinburgh, Scotland UK, 6-8 September 2016 (arXiv:1608.02534)

Published
2016

13. Search Combinators

Author

Schrijvers, Tom, Tack, Guido, Wuille, Pieter, Samulowitz, Horst, and Stuckey, Peter J.

Subjects
Computer Science - Artificial Intelligence
Abstract

The ability to model search in a constraint solver can be an essential asset for solving combinatorial problems. However, existing infrastructure for defining search heuristics is often inadequate. Either modeling capabilities are extremely limited or users are faced with a general-purpose programming language whose features are not tailored towards writing search heuristics. As a result, major improvements in performance may remain unexplored. This article introduces search combinators, a lightweight and solver-independent method that bridges the gap between a conceptually simple modeling language for search (high-level, functional and naturally compositional) and an efficient implementation (low-level, imperative and highly non-modular). By allowing the user to define application-tailored search strategies from a small set of primitives, search combinators effectively provide a rich domain-specific language (DSL) for modeling search to the user. Remarkably, this DSL comes at a low implementation cost to the developer of a constraint solver. The article discusses two modular implementation approaches and shows, by empirical evaluation, that search combinators can be implemented without overhead compared to a native, direct implementation in a constraint solver.

Published
2012

14. View-based Propagator Derivation

Author

Schulte, Christian and Tack, Guido

Subjects
Computer Science - Artificial Intelligence
Abstract

When implementing a propagator for a constraint, one must decide about variants: When implementing min, should one also implement max? Should one implement linear constraints both with unit and non-unit coefficients? Constraint variants are ubiquitous: implementing them requires considerable (if not prohibitive) effort and decreases maintainability, but will deliver better performance than resorting to constraint decomposition. This paper shows how to use views to derive perfect propagator variants. A model for views and derived propagators is introduced. Derived propagators are proved to be indeed perfect in that they inherit essential properties such as correctness and domain and bounds consistency. Techniques for systematically deriving propagators such as transformation, generalization, specialization, and type conversion are developed. The paper introduces an implementation architecture for views that is independent of the underlying constraint programming system. A detailed evaluation of views implemented in Gecode shows that derived propagators are efficient and that views often incur no overhead. Without views, Gecode would either require 180 000 rather than 40 000 lines of propagator code, or would lack many efficient propagator variants. Compared to 8 000 lines of code for views, the reduction in code for propagators yields a 1750% return on investment., Comment: 28 pages, 7 tables, 3 figures

Published
2009

15. Perfect Derived Propagators

Author

Schulte, Christian and Tack, Guido

Subjects
Computer Science - Artificial Intelligence, D.3.2, D.3.3
Abstract

When implementing a propagator for a constraint, one must decide about variants: When implementing min, should one also implement max? Should one implement linear equations both with and without coefficients? Constraint variants are ubiquitous: implementing them requires considerable (if not prohibitive) effort and decreases maintainability, but will deliver better performance. This paper shows how to use variable views, previously introduced for an implementation architecture, to derive perfect propagator variants. A model for views and derived propagators is introduced. Derived propagators are proved to be indeed perfect in that they inherit essential properties such as correctness and domain and bounds consistency. Techniques for systematically deriving propagators such as transformation, generalization, specialization, and channeling are developed for several variable domains. We evaluate the massive impact of derived propagators. Without derived propagators, Gecode would require 140000 rather than 40000 lines of code for propagators., Comment: 17 pages, 2 tables

Published
2008

16. Decomposition During Search for Propagation-Based Constraint Solvers

Author

Mann, Martin, Tack, Guido, and Will, Sebastian

Subjects
Computer Science - Artificial Intelligence
Abstract

We describe decomposition during search (DDS), an integration of And/Or tree search into propagation-based constraint solvers. The presented search algorithm dynamically decomposes sub-problems of a constraint satisfaction problem into independent partial problems, avoiding redundant work. The paper discusses how DDS interacts with key features that make propagation-based solvers successful: constraint propagation, especially for global constraints, and dynamic search heuristics. We have implemented DDS for the Gecode constraint programming library. Two applications, solution counting in graph coloring and protein structure prediction, exemplify the benefits of DDS in practice., Comment: 20 pages, 9 figures, 2 tables; longer, more detailed version

Published
2007

18. Addressing Problem Drift in UNHCR Fund Allocation

Author

Sameela Suharshani Wijesundara and Maria Garcia de la Banda and Guido Tack, Wijesundara, Sameela Suharshani, Garcia de la Banda, Maria, Tack, Guido, Sameela Suharshani Wijesundara and Maria Garcia de la Banda and Guido Tack, Wijesundara, Sameela Suharshani, Garcia de la Banda, Maria, and Tack, Guido

Abstract

Optimisation models are concise mathematical representations of real-world problems, usually developed by modelling experts in consultation with domain experts. Typically, domain experts are only indirectly involved in the problem modelling process, providing information and feedback, and thus perceive the deployed model as a black box. Unfortunately, real-world problems "drift" over time, where changes in the input data parameters and/or requirements cause the developed model to fail. This requires modelling experts to revisit and update deployed models. This paper identifies the issue of problem drift in optimisation problems using as case study a model we developed for the United Nations High Commissioner for Refugees (UNHCR) to help them allocate funds to different crises. We describe the initial model and the challenges due to problem drift that occurred over the following years. We then use this case study to explore techniques for mitigating problem drift by including domain experts in the modelling process via techniques such as domain specific languages.

Published
2023
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20. Explaining Propagation for Gini and Spread with Variable Mean

Author

Alexander Ek and Andreas Schutt and Peter J. Stuckey and Guido Tack, Ek, Alexander, Schutt, Andreas, Stuckey, Peter J., Tack, Guido, Alexander Ek and Andreas Schutt and Peter J. Stuckey and Guido Tack, Ek, Alexander, Schutt, Andreas, Stuckey, Peter J., and Tack, Guido

Abstract

In optimisation problems involving multiple agents (stakeholders) we often want to make sure that the solution is balanced and fair. That is, we want to maximise total utility subject to an upper bound on the statistical dispersion (e.g., spread or the Gini coefficient) of the utility given to different agents, or minimise dispersion subject to some lower bounds on utility. These needs arise in, for example, balancing tardiness in scheduling, unwanted shifts in rostering, and desired resources in resource allocation, or minimising deviation from a baseline in schedule repair, to name a few. These problems are often quite challenging. To solve them efficiently we want to effectively reason about dispersion. Previous work has studied the case where the mean is fixed, but this may not be possible for many problems, e.g., scheduling where total utility depends on the final schedule. In this paper we introduce two log-linear-time dispersion propagators - (a) spread (variance, and indirectly standard deviation) and (b) the Gini coefficient - capable of explaining their propagations, thus allowing effective clause learning solvers to be applied to these problems. Propagators for (a) exist in the literature but do not explain themselves, while propagators for (b) have not been previously studied. We avoid introducing floating-point variables, which are usually not supported by learning solvers, by reasoning about scaled, integer versions of the constraints. We show through experimentation that clause learning can substantially improve the solving of problems where we want to bound dispersion and optimise total utility and vice versa.

Published
2022
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22. CP 2021 Tutorial: Visualization for Constraint Programming

Author

Simonis, Helmut and Tack, Guido

Subjects
Constraint Programming, Visualization, Scheduling, MiniZinc, Search Tree, Optimization, Methodology
Abstract

Visualization is probably the most powerful tool to help develop, test and improve Constraint Programming solutions. Many different tools and methods have been developed in the past to understand constraint propagation, the shape of the search tree, or properties of solutions. This tutorial will present past approaches, the tools currently available, and describe a methodology to use visualization throughout the development process. We will give examples of the use of visualization for small and large projects, and show which questions during development of a solution can be addressed by existing or custom visualizations., The tutorial will be presented at CP 2021, the 27th International Conference on Principles and Practice of Constraint Programming.

Published
2021
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25. Vehicle Dynamics in Pickup-And-Delivery Problems Using Electric Vehicles

Author

Ahmadi, Saman, Tack, Guido, Harabor, Daniel, Kilby, Philip, Ahmadi, Saman, Tack, Guido, Harabor, Daniel, and Kilby, Philip

Abstract

Electric Vehicles (EVs) are set to replace vehicles based on internal combustion engines. Path planning and vehicle routing for EVs need to take their specific characteristics into account, such as reduced range, long charging times, and energy recuperation. This paper investigates the importance of vehicle dynamics parameters in energy models for EV routing, particularly in the Pickup-and-Delivery Problem (PDP). We use Constraint Programming (CP) technology to develop a complete PDP model with different charger technologies. We adapt realistic instances that consider vehicle dynamics parameters such as vehicle mass, road gradient and driving speed to varying degrees. The results of our experiments show that neglecting such fundamental vehicle dynamics parameters can affect the feasibility of planned routes for EVs, and fewer/shorter charging visits will be planned if we use energy-efficient paths instead of conventional shortest paths in the underlying system model.

Published
2021
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26. Vehicle Dynamics in Pickup-And-Delivery Problems Using Electric Vehicles

Author

Saman Ahmadi and Guido Tack and Daniel Harabor and Philip Kilby, Ahmadi, Saman, Tack, Guido, Harabor, Daniel, Kilby, Philip, Saman Ahmadi and Guido Tack and Daniel Harabor and Philip Kilby, Ahmadi, Saman, Tack, Guido, Harabor, Daniel, and Kilby, Philip

Abstract

Electric Vehicles (EVs) are set to replace vehicles based on internal combustion engines. Path planning and vehicle routing for EVs need to take their specific characteristics into account, such as reduced range, long charging times, and energy recuperation. This paper investigates the importance of vehicle dynamics parameters in energy models for EV routing, particularly in the Pickup-and-Delivery Problem (PDP). We use Constraint Programming (CP) technology to develop a complete PDP model with different charger technologies. We adapt realistic instances that consider vehicle dynamics parameters such as vehicle mass, road gradient and driving speed to varying degrees. The results of our experiments show that neglecting such fundamental vehicle dynamics parameters can affect the feasibility of planned routes for EVs, and fewer/shorter charging visits will be planned if we use energy-efficient paths instead of conventional shortest paths in the underlying system model.

Published
2021
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27. Bi-Objective Search with Bi-Directional A*

Author

Saman Ahmadi and Guido Tack and Daniel Harabor and Philip Kilby, Ahmadi, Saman, Tack, Guido, Harabor, Daniel, Kilby, Philip, Saman Ahmadi and Guido Tack and Daniel Harabor and Philip Kilby, Ahmadi, Saman, Tack, Guido, Harabor, Daniel, and Kilby, Philip

Abstract

Bi-objective search is a well-known algorithmic problem, concerned with finding a set of optimal solutions in a two-dimensional domain. This problem has a wide variety of applications such as planning in transport systems or optimal control in energy systems. Recently, bi-objective A*-based search (BOA*) has shown state-of-the-art performance in large networks. This paper develops a bi-directional and parallel variant of BOA*, enriched with several speed-up heuristics. Our experimental results on 1,000 benchmark cases show that our bi-directional A* algorithm for bi-objective search (BOBA*) can optimally solve all of the benchmark cases within the time limit, outperforming the state of the art BOA*, bi-objective Dijkstra and bi-directional bi-objective Dijkstra by an average runtime improvement of a factor of five over all of the benchmark instances.

Published
2021
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28. The MiniZinc challenge 2008-2013

Author

Stuckey, Peter J., Feydy, Thibaut, Schutt, Andreas, Tack, Guido, and Fischer, Julien

Subjects
Computer programming -- Methods, Programming languages -- Usage, Mathematical optimization -- Models, Contests -- Methods, Programming language, Computer programming, Business
Abstract

MiniZinc is a solver-agnostic modeling language for defining and solving combinatorial satisfaction and optimization problems. MiniZinc provides a solver-independent modeling language that is now supported by constraint-programming solvers, mixed integer [...]

Published
2014

30. Solving Satisfaction Problems using Large-Neighbourhood Search

Author

Björdal, Gustav, Flener, Pierre, Pearson, Justin, Stuckey, Peter J., Tack, Guido, Björdal, Gustav, Flener, Pierre, Pearson, Justin, Stuckey, Peter J., and Tack, Guido

Abstract

Large-neighbourhood search (LNS) improves an initial solution, hence it is not directly applicable to satisfaction problems. In order to use LNS in a constraint programming (CP) framework to solve satisfaction problems, we usually soften some hard-to-satisfy constraints by replacing them with penalty-function constraints. LNS is then used to reduce their penalty to zero, thus satisfying the original problem. However, this can give poor performance as the penalties rarely cause propagation and therefore do not drive each CP search, and by extension the LNS search, towards satisfying the replaced constraints until very late. Our key observation is that entirely replacing a constraint is often overkill, as the propagator for the replaced constraint could have performed some propagation without causing backtracking. We propose the notion of a non-failing propagator, which is subsumed just before causing a backtrack. We show that, by only making a few changes to an existing CP solver, any propagator can be made non-failing without modifying its code. Experimental evaluation shows that non-failing propagators, when used in conjunction with penalties, can greatly improve LNS performance compared to just having penalties. This allows us to leverage the power of the many sophisticated propagators that already exist in CP solvers, in order to use LNS for solving hard satisfaction problems and for finding initial solutions to hard-to-satisfy optimisation problems.

Published
2020
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31. Modelling Diversity of Solutions

Author

Ingmar, Linnea, de la Banda, Maria Garcia, Stuckey, Peter J., Tack, Guido, Ingmar, Linnea, de la Banda, Maria Garcia, Stuckey, Peter J., and Tack, Guido

Abstract

For many combinatorial problems, finding a single solution is not enough. This is clearly the case for multi-objective optimization problems, as they have no single "best solution" and, thus, it is useful to find a representation of the non-dominated solutions (the Pareto frontier). However, it also applies to single objective optimization problems, where one may be interested in finding several (close to) optimal solutions that illustrate some form of diversity. The same applies to satisfaction problems. This is because models usually idealize the problem in some way, and a diverse pool of solutions may provide a better choice with respect to considerations that are omitted or simplified in the model. This paper describes a general framework for finding k diverse solutions to a combinatorial problem (be it satisfaction, single-objective or multi-objective), various approaches to solve problems in the framework, their implementations, and an experimental evaluation of their practicality., QC 20210816

Published
2020

37. Declarative local-search neighbourhoods in MiniZinc

Author

Björdal, Gustav, Flener, Pierre, Pearson, Justin, Stuckey, Peter J., Tack, Guido, Björdal, Gustav, Flener, Pierre, Pearson, Justin, Stuckey, Peter J., and Tack, Guido

Abstract

The aim of solver-independent modelling is to create a model of a satisfaction or optimisation problem independent of a particular technology. This avoids early commitment to a solving technology and allows easy comparison of technologies. MiniZinc is a solver-independent modelling language, supported by CP, MIP, SAT, SMT, and constraint-based local search (CBLS) backends. Some technologies, in particular CP and CBLS, require not only a model but also a search strategy. While backends for these technologies offer default search strategies, it is often beneficial to include in a model a user-specified search strategy for a particular technology, especially if the strategy can encapsulate knowledge about the problem structure. This is complex since a local-search strategy (comprising a neighbourhood, a heuristic, and a meta-heuristic) is often tightly tied to the model. Hence we wish to use the same language for specifying the model and the local search. We show how to extend MiniZinc so that one can attach a fully declarative neighbourhood specification to a model, while maintaining the solver-independence of the language. We explain how to integrate a model-specific declarative neighbourhood with an existing CBLS backend for MiniZinc.

Published
2018
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39. MiniZinc with strings

Author

Amadini, Roberto, Flener, Pierre, Pearson, Justin, Scott, Joseph D., Stuckey, Peter J., Tack, Guido, Amadini, Roberto, Flener, Pierre, Pearson, Justin, Scott, Joseph D., Stuckey, Peter J., and Tack, Guido

Abstract

Strings are extensively used in modern programming languages and constraints over strings of unknown length occur in a wide range of real-world applications such as software analysis and verification, testing, model checking, and web security. Nevertheless, practically no constraint programming solver natively supports string constraints. We introduce string variables and a suitable set of string constraints as builtin features of the MiniZinc modelling language. Furthermore, we define an interpreter for converting a MiniZinc model with strings into a FlatZinc instance relying only on integer variables. This conversion is obtained via rewrite rules, and does not require any extension of the existing FlatZinc specification. This provides a user-friendly interface for modelling combinatorial problems with strings, and enables both string and non-string solvers to actually solve such problems.

Published
2017
Full Text
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40. MiningZinc: A declarative framework for constraint-based mining

Author

UCL - SST/ICTM/INGI - Pôle en ingénierie informatique, Guns, Tias, Dries, Anton, Nijssen, Siegfried, Tack, Guido, De Raedt, Luc, UCL - SST/ICTM/INGI - Pôle en ingénierie informatique, Guns, Tias, Dries, Anton, Nijssen, Siegfried, Tack, Guido, and De Raedt, Luc

Published
2017

43. Automatic solver chaining in MiningZinc

Author

Guns, Tias, Dries, Anton, Tack, Guido, Nijssen, Siegfried, De Raedt, Luc, International Workshop on Constraint Modelling and Reformulation, and UCL - SST/ICTM/INGI - Pôle en ingénierie informatique

Published
2015

44. The MiningZinc Framework for Constraint-Based Itemset Mining

Author

Guns, Tias, Dries, Anton, Tack, Guido, Nijssen, Siegfried, De Raedt, Luc, The 13th International Conference on Data Mining, Demo Track, UCL - SST/ICTM/INGI - Pôle en ingénierie informatique, Data Analytics Laboratory, Business technology and Operations, Electromobility research centre, Ding, W, Washio, T, Xiong, H, Karypis, G, Thuraisingham, B, Cook, D, and Wu, X

Subjects
constraint programming, Data stream mining, Computer science, business.industry, Concept mining, Constraint satisfaction, computer.software_genre, Inductive programming, Constraint (information theory), Text mining, framework, High-level programming language, Constraint-based mining, Constraint programming, Data mining, Fifth-generation programming language, business, computer, Software, Declarative programming
Abstract

We present MiningZinc, a novel system for con- straint-based pattern mining. It provides a declarative approach to data mining, where a user specifies a problem in terms of constraints and the system employs advanced techniques to efficiently find solutions. Declarative programming and modeling are common in artificial intelligence and in database systems, but not so much in data mining; by building on ideas from these communities, MiningZinc advances the state-of-the-art of declarative data mining significantly. Key components of the MiningZinc system are (1) a high-level and natural language for formalizing constraint-based itemset mining problems in models, and (2) an infrastructure for executing these models, which supports both specialised mining algorithms as well as generic constraint solving systems. A use case demonstrates the generality of the language, as well as its flexibility towards adding and modifying constraints and data, as well as the use of different solution methods. ispartof: pages:1081-1084 ispartof: 13th IEEE International Conference on Data Mining Workshops pages:1081-1084 ispartof: Demo track at the IEEE International Conference on Data Mining location:Dallas, Texas, USA date:7 Dec - 10 Dec 2013 status: published

Published
2013

45. Automatic solver chaining in MiningZinc

Author

UCL - SST/ICTM/INGI - Pôle en ingénierie informatique, Guns, Tias, Dries, Anton, Tack, Guido, Nijssen, Siegfried, De Raedt, Luc, International Workshop on Constraint Modelling and Reformulation, UCL - SST/ICTM/INGI - Pôle en ingénierie informatique, Guns, Tias, Dries, Anton, Tack, Guido, Nijssen, Siegfried, De Raedt, Luc, and International Workshop on Constraint Modelling and Reformulation

Published
2015

49. View-Based Propagator Derivation

Author

Schulte, Christian, Tack, Guido, Schulte, Christian, and Tack, Guido

Abstract

When implementing a propagator for a constraint, one must decide about variants: When implementing min, should one also implement max? Should one implement linear equations both with and without coefficients? Constraint variants are ubiquitous: implementing them requires considerable effort, but yields better performance. This abstract shows how to use views to derive propagator variants where derived propagators are perfect in that they inherit essential properties such as correctness and domain and bounds consistency. Techniques for systematically deriving propagators are developed, and the abstract sketches an implementation architecture for views that is independent of the underlying constraint programming system. Evaluation of views implemented in Gecode shows that derived propagators are efficient and that views often incur no overhead. Views have proven essential for implementing Gecode, substantially reducing the amount of code that needs to be written and maintained., QC 20150116

Published
2014
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50. MiningZinc: A modeling language for constraint-based mining

Author

UCL - SST/ICTM/INGI - Pôle en ingénierie informatique, Guns, Tias, Dries, Anton, Tack, Guido, Nijssen, Siegfried, De Raedt, Luc, The 23rd International joint conference on Artificial intelligence, UCL - SST/ICTM/INGI - Pôle en ingénierie informatique, Guns, Tias, Dries, Anton, Tack, Guido, Nijssen, Siegfried, De Raedt, Luc, and The 23rd International joint conference on Artificial intelligence

Published
2013

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