Genetic algorithms in timetabling and scheduling

Thio thesis investigates the use of genetic algorithms (GAs) for solving a range of timetabling and scheduling problems. Such problems arc very hard in general, and GAs offer a useful and successful alternative to existing techniques.A framework is presented for GAs to solve modular timetabling problems in edu¬ cational institutions. The approach involves three components: declaring problemspecific constraints, constructing a problem specific evaluation function and using a problem-independent GA to attempt to solve the problem. Successful results are demonstrated and a general analysis of the reliability and robustness of the approach is conducted. The basic approach can readily handle a wide variety of general timetabling problem constraints, and is therefore likely to be of great practical usefulness (indeed, an earlier version is already in use). The approach rclicG for its success on the use of specially designed mutation operators which greatly improve upon the performance of a GA with standard operators.A framework for GAs in job shop and open shop scheduling is also presented. One of the key aspects of this approach is the use of specially designed representations for such scheduling problems. The representations implicitly encode a schedule by encoding instructions for a schedule builder. The general robustness of this approach is demonstrated with respect to experiments on a range of widely-used benchmark problems involving many different schedule quality criteria. When compared against a variety of common heuristic search approaches, the GA approach is clearly the most successful method overall. An extension to the representation, in which choices of heuristic for the schedule builder arc also incorporated in the chromosome, iG found to lead to new best results on the makespan for some well known benchmark open shop scheduling problems. The general approach is also shown to be readily extendable to rescheduling and dynamic scheduling

Agent-Based System Design for Service Process Scheduling: Challenges, Approaches and Opportunities

Compared with traditional manufacturing scheduling, service process scheduling poses additional challenges attributable to the significant customer involvement in service processes. In services, there are typically no inventoried products, which make the service provider's capacity more sensitive to dynamic changes. Service process scheduling objectives are also more complicated due to the consideration of customer preferences, customer waiting costs and human resource costs. After describing the Unified Services Theory and analysing its scheduling implications, this paper reviews the research literature on service process scheduling system design with a particular emphasis on agent-based approaches. Major issues in agent-based service process scheduling systems design are discussed and research opportunities are identified. The survey of the literature reveals that despite of many domain-specific designs in agent-based service process scheduling, there is a lack of general problem formulations, classifications, solution frameworks, and test beds. Constructing these general models for service process scheduling system design will facilitate the collaboration of researchers in this area and guide the effective development of integrated service process scheduling systems

Algoritmos evolutivos multiobjectivo para afectação de recursos e sua aplicação à geração de horários em universidades

Esta dissertação tem por objectivo aplicar algoritmos evolutivos multiobjectivo a problemas de afectação de recursos, particulamente a problemas de geração de horários de exames e problemas de geração de horários de aulas em Universidades. Estes problemas são normalmente caracterizados pela existência de múltiplos objectivos conflituosos. Neste sentido, uma formalização multiobjectivo para estes problemas é apresentada, com base no conceito de metas e prioridades. Vários aspectos dos algoritmos evolutivos são propostos e analisados para esta classe de problemas, nomeadamente, métodos de selecção e tipo e parâmetros de operadores de mutação. A escolha da representação e dos operadores utilizados é feita tendo em conta a necessidade de não privilegiar demasiadamente certos objectivos em relação a outros ao nível dos mecanismos de exploração. São apresentados estudos comparativos entre os algoritmos propostos por meio de métodos de inferência estatística em problemas reais na Universidade do Algarve. O conceito de função de aproveitamento é utilizado para avaliação de algoritmos evolutivos multiobjectivo. Finalmente, a análise da evolução do custo das soluções encontradas ao longo do tempo de execução através de funções de aproveitamento é apresentada

Case-based reasoning for course timetabling problems

The research in this thesis investigates Case-Based Reasoning (CBR), a Knowledge-Based Reasoning technique that proved to be capable of providing good solutions in educational course timetabling problems. Following the basic idea behind CBR, experiences in solving previous similar timetabling problems are employed to find the solutions for new problems. A basic CBR system that is hierarchically organized with structured knowledge representations by attribute graphs is proposed in Chapter Four. The system is then further improved to solve a wider range of problems, which is described in Chapter Five. Evaluations on a large number of experiments indicate that this approach could provide a significant step forward in timetabling and scheduling research. This basic system works well on relatively small problems. To deal with this drawback a multiple-retrieval approach that partitions large timetabling problems into small solvable sub-problems is presented in Chapter Six. Good results are obtained from a wide range of experiments. In Chapter Seven, a new idea is introduced in CBR for solving timetabling problems by investigating the approach to select the most appropriate heuristic method rather than to employ it directly on the problem, in the attempt to raise the level of generality at which we can operate. All the evidence obtained from the first stage experiments indicates that there is a range of promising future directions. Finally in Chapter Eight the results of the work are evaluated and some directions for future work are present

Online Predictive Optimization Framework for Stochastic Demand-Responsive Transit Services

This study develops an online predictive optimization framework for dynamically operating a transit service in an area of crowd movements. The proposed framework integrates demand prediction and supply optimization to periodically redesign the service routes based on recently observed demand. To predict demand for the service, we use Quantile Regression to estimate the marginal distribution of movement counts between each pair of serviced locations. The framework then combines these marginals into a joint demand distribution by constructing a Gaussian copula, which captures the structure of correlation between the marginals. For supply optimization, we devise a linear programming model, which simultaneously determines the route structure and the service frequency according to the predicted demand. Importantly, our framework both preserves the uncertainty structure of future demand and leverages this for robust route optimization, while keeping both components decoupled. We evaluate our framework using a real-world case study of autonomous mobility in a university campus in Denmark. The results show that our framework often obtains the ground truth optimal solution, and can outperform conventional methods for route optimization, which do not leverage full predictive distributions.Comment: 34 pages, 12 figures, 5 table

PUTTING A STICKING PLASTER ON A GAPING WOUND – EXPLORING THE PROVISION BEING MADE IN ENGLISH SECONDARY SCHOOLS TO SUPPORT MENTAL HEALTH AND MENTAL WELL-BEING

The article presents a small-scale study utilising both questionnaires and semi-structured interviews.Against the backdrop of widespread interest in the area of mental health/well- being by the UK government and also by the media, the study starts to explore the provision being made by secondary schools.The study suggests that the actions being taken nationally lack coherence. Even within the schools themselves, there is evidence of a fragmented approach as mental health/well-being initiatives are added to existing provision being offered by pastoral staff and formally appointed councillors.As new waves of pressure from social media, gender identity, examination stress and personal identity are held to impact mental health/well-being issues schools understand themselves as being the first responder. In turn, the majority of those interviewed in the study have a perception that support services such as Child and Adult Mental Health Services (CAMHS) and educational psychologists are less accessible as a result of budgetary constraints

Case-based reasoning for course timetabling problems

The research in this thesis investigates Case-Based Reasoning (CBR), a Knowledge-Based Reasoning technique that proved to be capable of providing good solutions in educational course timetabling problems. Following the basic idea behind CBR, experiences in solving previous similar timetabling problems are employed to find the solutions for new problems. A basic CBR system that is hierarchically organized with structured knowledge representations by attribute graphs is proposed in Chapter Four. The system is then further improved to solve a wider range of problems, which is described in Chapter Five. Evaluations on a large number of experiments indicate that this approach could provide a significant step forward in timetabling and scheduling research. This basic system works well on relatively small problems. To deal with this drawback a multiple-retrieval approach that partitions large timetabling problems into small solvable sub-problems is presented in Chapter Six. Good results are obtained from a wide range of experiments. In Chapter Seven, a new idea is introduced in CBR for solving timetabling problems by investigating the approach to select the most appropriate heuristic method rather than to employ it directly on the problem, in the attempt to raise the level of generality at which we can operate. All the evidence obtained from the first stage experiments indicates that there is a range of promising future directions. Finally in Chapter Eight the results of the work are evaluated and some directions for future work are present

Constraint programming on a heterogeneous multicore architecture

As bibliotecas para programação com restrições são úteis ao desenvolverem-se aplicações em linguagens de programação normalmente mais utilizadas pois não necessitam que os programadores aprendam uma. Nova, linguagem, fornecendo ferramentas de programação declarativa para utilização com os sistemas convencionais. Algumas soluções para programação com restrições favorecem completude, tais como sistemas baseados em propagação. Outras estão mais interessadas em obter uma boa solução rapidamente, rejeitando a necessidade de encontram todas as soluções; esta sendo a alternativa utilizada nos sistemas de pesquisa local. Conceber soluções híbridas (propagação + pesquisa local) parece prometedor pois as vantagens de ambas alternativas podem ser combinadas numa única solução. As arquiteturas paralelas são cada vez mais comuns, em parte devido à disponibilidade em grande escala, de sistemas individuais mas também devido à tendência em generalizar o uso de processadores multicore ou seja., processadores com várias unidades de processamento. Nesta tese é proposta uma. Arquitetura para resolvedores de restrições mistos, de pendendo de métodos de propagação e pesquisa local, a qual foi concebida para funcionar eficazmente numa arquitetura. Heterogéneo multiprocessador. /ABSTRACT - Constraint programming libraries are useful when building applications developed mostly in mainstrearn programming languages: they do not require the developers to acquire skills for a new language, providing instead declarative programming tools for use within conventional systems. Some approaches to constraint programming favour completeness, such as propagation-based systems. Others are more interested in getting to a good solution fast, regardless of whether all solutions may be found; this approach is used in local search systems. Designing hybrid approaches (propagation + local search) seems promising since the advantages may be combined into a single approach. Parallel architectures are becoming more commonplace, partly due to the large-scale availability of individual systems but also because of the trend towards generalizing the use of multicore microprocessors. In this thesis an architecture for mixed constraint solvers is proposed, relying both on propagation and local search, which is designed to function effectively in a heterogeneous multicore architecture