Global ETD Search

211	Combinatorial optimization techniques for VLSI placement Agnihotri, Ameya Ramesh. January 2007 (has links) Thesis (Ph. D.)--State University of New York at Binghamton, Department of Computer Science, Thomas J. Watson School of Engineering and Applied Science, 2007. / Includes bibliographical references.
212	Tree-based decompositions of graphs on surfaces and applications to the traveling salesman problem Inkmann, Torsten. January 2007 (has links) Thesis (Ph. D.)--Mathematics, Georgia Institute of Technology, 2008. / Committee Chair: Thomas, Robin; Committee Co-Chair: Cook, William J.; Committee Member: Dvorak, Zdenek; Committee Member: Parker, Robert G.; Committee Member: Yu, Xingxing.
213	Simulated annealing algorithms for the optimization of particulate composite structures analyzed by X-FEM Renova, Elvia Paola. January 2008 (has links) Thesis (M.S.)--University of Texas at El Paso, 2008. / Title from title screen. Vita. CD-ROM. Includes bibliographical references. Also available online.
214	Multi-criteria analysis in Naval Ship Design / Anil, Kivanc Ali. January 2005 (has links) (PDF) Thesis (M.S. in Mechanical Engineering)--Naval Postgraduate School, March 2005. / Thesis Advisor(s): Fotis Papoulias, Roman B. Statnikov. Includes bibliographical references (p. 241). Also available online.
215	Optimization of paths and locations of water quality monitoring systems in surface water environments Nam, Kijin. January 2008 (has links) Thesis (Ph.D.)--Civil and Environmental Engineering, Georgia Institute of Technology, 2009. / Committee Chair: Aral, Mustafa; Committee Member: Guan, Jiabao; Committee Member: Kim, Seong-Hee; Committee Member: Roberts, Philip; Committee Member: Uzer, Turgay.
216	On improving FPT K-VERTEX COVER with applications to some combinatorial problems / Taillon, Peter J. January 1900 (has links) Thesis (Ph.D.) - Carleton University, 2007. / Includes bibliographical references (p. 115-129). Also available in electronic format on the Internet.
217	Conception et évaluation d'outils décisionnels pour des systèmes réactifs d'aide à la mobilité / Design and evaluation of decision-making tools for reactive mobility support systems Ren, Libo 05 October 2012 (has links) Dans le cadre de cette thèse, nous nous intéressons au traitement des problèmes d’optimisation combinatoire liés à la conception d’outils de gestion des systèmes de véhicules partagés. Ces problèmes sont proches des problèmes de collecte et de livraison. Après avoir réalisé une étude théorique sur des problèmes d’optimisation combinatoire autour du transport et des méthodes de résolutions, nous nous sommes intéressés ici à trois problèmes particuliers : le PPRV, le PPRV-PM et le PPRV-T. Le premier problème est le Problème de Planification du Redéploiement de Véhicules partagés (PPRV). C’est une extension du One-commodity Pickup-and-Delivery Problem (1-PDP) car les véhicules partagés sont indifférenciés. Nous avons proposé un modèle linéaire et une heuristique utilisant le schéma hybride ILS/VND. L’approche développée repose sur la stratégie « route-first, cluster-second » : on commence par construire une tournée géante, puis on l’améliore par une procédure de perturbation et une recherche locale. Pendant la recherche locale, la contrainte de capacité des véhicules est momentanément relaxée et progressivement restaurée ; la tournée géante obtenue est ensuite transformée en plusieurs tournées à l’aide de la procédure Split. Les deux problèmes suivants sont considérés comme des extensions du PPRV en autorisant des livraisons partielles : PPRV avec Passage Multiple (PPRV-PM) et PPRV avec Transfert d’objets (PPRV-T). Nous proposons une approche de type « divide-first, route-second » pour la résolution du PPRV-PM. Elle consiste à effectuer d’abord un fractionnement de la demande, puis la résoudre à l’aide d’un schéma hybride de type GRASP/VND. Le PPRV-T étend le PPRV-PM au transfert d’objets entre les transporteurs lors du passage sur un sommet. Nous avons reformulé le PPRV-T comme un problème de multi-flots couplés sur un réseau dynamique. Nous avons proposé une méthode d’insertion basée sur cette modélisation. / In this thesis, we are interested to deal with combinatorial optimization problems related to design management tools for vehicle-sharing systems. These problems are close to the Pickup-and-Delivery Problems (PDP) in the literature. After performing a survey on the problems area and on the resolution methods, we focused on three specific problems and we proposed one approach for each problem. The first one is the sharing Vehicles Redeployment Planning Problem (VRPP), which is considered as a multi-vehicles extension of the One-commodity Pickup-and-Delivery Problem (1-PDP). We proposed a linear model and a hybrid heuristic which combines the ILS and VND. The proposed approach uses the rout-first, cluster-second strategy: we construct a Hamiltonian route, and then improve it using a procedure combines a shacking step and a VND local search. The used neighborhoods are adapted to the relaxation of capacity; the obtained route would be then split into several vehicles tours in the clustering phase.The two following problems are considered as extensions of VRPP introducing the split demand constraint : VRPP with Multi-Passage (VRPP-MP) and VRPP with Transferring objects (VRPP-T). We proposed an approach with the divide-first, route-second strategy for VRPP-MP. It consists of dividing in advance the demand, and then solves it using a hybrid scheme of GRASP/VND. In the VRPP-T, the objects carried could be exchanged between carriers when crossing on the sites. The VRPP-T is modeled here as a multi-flows problem on a dynamic network. We proposed an insertion method based on this modeling. Véhicule partagé Optimisation combinatoire Transport Collecte et livraison Heuristique Vehicle-sharing Combinatorial optimization Transport Pickup-and-delivery Heuristic
218	[en] HEURISTICS FOR THE CONNECTED P-MEDIAN PROBLEM / [pt] HEURÍSTICAS PARA O PROBLEMA DAS P-MEDIANAS CONECTADAS CARLOS EDUARDO COSTA VIEIRA 28 March 2007 (has links) [pt] Esta tese define os problemas das p-medianas conectadas e o de localização de facilidades não-capacitadas conectadas. Possíveis aplicações incluem problemas de planejamento regional e o projeto de redes de telecomunicações ou de transporte. Para o primeiro problema, duas formulações de programação linear inteira são apresentadas e comparadas. Um destes modelos é adaptado para o segundo problema. Para o problema das p-medianas conectadas, algoritmos aproximados são desenvolvidos. Uma estratégia de busca local híbrida é proposta. Para acelerar as iterações do algoritmo de busca local, idéias como circularidade, melhoria iterativa e o descarte de vizinhos são incorporadas. Heurísticas GRASP e VNS são desenvolvidas incluindo a utilização de um filtro com o objetivo de diminuir os tempos de processamento e do procedimento de reconexão por caminhos com o objetivo de melhorar a qualidade das soluções encontradas. Diversos testes são realizados comparando-se esses algoritmos. Os resultados mostraram a necessidade de se executar um passo adicional de pós-otimização às heurísticas GRASP e VNS propostas. / [en] In this work, the connected p-median and the connected facility location problems are defined. Applications arise in regional planning, design of telecommunications and transportation networks. For the first problem, two integer linear programming formulations are proposed. Adaptations are made in one of these formulations and are used to model the second problem. Approximation algorithms to solve the connected p-median problem are developed. A hybrid local search strategy is proposed. In order to speed up the local search iterations, ideas as circularity, first- improving strategy and discard neighbors are incorporated. A GRASP algorithm and a VNS heuristic are also proposed. A filter is used to reduce the computational time required and a path-relinking is applied to improve the results found. Computational experiments to compare the algorithms are reported. To improve these results, it is applied a post-optimization step to the GRASP and VNS heuristics. [pt] OTIMIZACAO COMBINATORIA [en] COMBINATORIAL OPTIMIZATION [pt] HEURISTICA [en] HEURISTICS [pt] META-HEURISTICAS [en] META-HEURISTICS
219	Uma interface de programação distribuída para aplicações em otimização combinatória / A Programming interface for distributed applications in combinatorial optimization Dantas, Allberson Bruno de Oliveira January 2011 (has links) DANTAS, Allberson Bruno de Oliveira. Uma interface de programação distribuída para aplicações em otimização combinatória. 2011. 86 f. Dissertação (Mestrado em ciência da computação)- Universidade Federal do Ceará, Fortaleza-CE, 2011. / Submitted by Elineudson Ribeiro (elineudsonr@gmail.com) on 2016-07-08T17:57:51Z No. of bitstreams: 1 2011_dis_abodantas.pdf: 805347 bytes, checksum: c9671608a7d738f843239856e546e201 (MD5) / Approved for entry into archive by Rocilda Sales (rocilda@ufc.br) on 2016-07-13T12:23:03Z (GMT) No. of bitstreams: 1 2011_dis_abodantas.pdf: 805347 bytes, checksum: c9671608a7d738f843239856e546e201 (MD5) / Made available in DSpace on 2016-07-13T12:23:03Z (GMT). No. of bitstreams: 1 2011_dis_abodantas.pdf: 805347 bytes, checksum: c9671608a7d738f843239856e546e201 (MD5) Previous issue date: 2011 / This work was motivated by the need of exploiting the potential of distributed paralelism in combinatorial optimization applications. propose a distributed programming interface, To achieve this goal, we in which we cherish two main requirements: e ciency and reuse. The rst stems from the need of HPC (High applications require maximum possible performance. Performance Computing) Therefore, we specify our interface as an extension of the MPI library, which is assumed to be e cient for distributed applications. The reuse requirement must make compatible two important features: asynchronism and collective operations. Asynchronism must be present at our interface, once most of combinatorial optimization applications have an asynchronous nature. Collective operations are features that should be available in the interface, so that they can be used by applications in their execution. In order reach the reuse requirement, we based this interface on the Event- and Pulse-driven Models of Distributed Computing, once they are asynchronous and allow the incorporation of collective operations. We implemented partially the interface de ned in this work. In order to validate the use of the inteface by combinatorial optimization applications, we selected two applications and implemented them using our interface. They are the Branch-and-Bound technique and the Maximum Stable Set Problem (MSSP). We also provide some experimental results. / Este trabalho foi motivado pela necessidade da exploração do potencial do paralelismo distribuído em aplicações em Otimização Combinatória. Para tanto, propomos uma interface de programação distribuída, na qual prezamos dois requisitos principais: eficiência e reuso. O primeiro advém da necessidade de aplicações de CAD exigirem máximo desempenho possível. Assim sendo, especificamos esta interface como uma extensão da biblioteca MPI, a qual é assumida como eficiente para aplicações distribuídas. O requisito reuso deve tornar compatíveis duas características importantes: assincronismo e operações coletivas. O assincronismo deve estar presente na interface, uma vez que as aplicações em Otimização Combinatória, em sua maioria, possuem uma natureza assíncrona. Operações coletivas são funcionalidades que devem estar disponíveis na interface, de modo que possam ser utilizadas por aplicações em suas execuções. Tendo em vista atender o requisito reuso, baseamos esta interface nos Modelos de Computação Distribuída Dirigidos por Eventos e por Pulsos, pois os mesmos são assíncronos e permitem a incorporação de operações coletivas. Implementamos parcialmente a inteface definida neste trabalho. Tendo em vista validar uso desta inteface por aplicações em Otimização Combinatória, selecionamos duas aplicações e as implementamos utilizando a interface. São elas a técnica Branch-and-Bound e o Problema do Conjunto Independente Máximo (CIM). Fornecemos também alguns resultados experimentais. Ciência da computação Paralelismo Algoritmos Distribuídos Otimização Combinatória Parallelism Distributed Algorithms Combinatorial Optimization
220	A genetic algorithm for fair land allocation / um algoritmo genético para alocação justa de terras Gliesch, Alex Zoch January 2018 (has links) O objetivo de projetos de reforma agrária é redistribuir terras de grandes latifúndios para terrenos menores, com destino à agricultura familiar. Um dos principais problemas do Instituto Nacional de Colonização e Reforma Agrária (INCRA) é subdividir uma parcela grande de terra em lotes menores que são balanceados com relação a certos atributos. Este problema é difícil por que precisa considerar diversas restrições legais e éticas. As soluções atuais são auxiliadas por computador, mas manuais, demoradas e suscetíveis a erros, tipicamente produzindo lotes retangulares de áreas similares mas que são injustos com relação a critérios como aptidão do solo ou acesso a recursos hidrográficos. Nesta dissertação, nós propomos um algoritmo genético para gerar subdivisões justas de forma automática. Nós apresentamos um algoritmo construtivo guloso randomizado baseado em locação-alocação para gerar soluções iniciais, assim como operadores de mutação e recombinação que consideram especificidades do problema. Experimentos com 5 instâncias reais e 25 instâncias geradas artificialmente confirmam a efetividade dos diferentes componentes do método proposto, e mostram que ele gera soluções mais balanceadas que as atualmente usadas na prática. / The goal of agrarian reform projects is the redistribution of farmland from large latifundia to smaller, often family farmers. One of the main problems the Brazilian National Institute of Colonization and Agrarian Reform (INCRA) has to solve is to subdivide a large parcel of land into smaller lots that are balanced with respect to certain attributes. This problem is difficult since it considers several constraints originating from legislation as well as ethical considerations. Current solutions are computer-assisted, but manual, time-consuming and error-prone, leading to rectangular lots of similar areas which are unfair with respect to soil aptitude and access to hydric resources. In this thesis, we propose a genetic algorithm to produce fair land subdivisions automatically. We present a greedy randomized constructive heuristic based on location-allocation to generate initial solutions, as well as mutation and recombination operators that consider specifics of the problem. Experiments on 5 real-world and 25 artificial instances confirm the effectiveness of the different components of our method, and show that it leads to fairer solutions than those currently applied in practice. Algoritmo genético Otimizacao combinatoria Land allocation Genetic algorithm Combinatorial optimization Districting Agrarian reform

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