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Programação diária da operação de sistemas termoelétricos de geração utilizando otimização bio-inspirada em colônia de formigasNascimento, Flávia Rodrigues do 15 September 2011 (has links)
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Previous issue date: 2011-09-15 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A programação diária da operação de sistemas termoelétricos de geração consiste em determinar uma estratégia de despacho das unidades geradoras para atender a demanda de energia, satisfazendo as restrições operacionais e funcionais do sistema elétrico de potência. O problema pode ser dividido em dois subproblemas: (i) referente à determinação das unidades que devem estar em operação mediante a demanda solicitada, “Thermal Unit Commitment” e (ii) referente à determinação da potência gerada por cada uma das unidades colocadas em serviço, “Despacho Econômico”. Devido à variação de carga ao longo do tempo, a programação da operação envolve decisões do sistema de geração a cada hora, dentro do horizonte de um dia a duas semanas. Os estudos relacionados às técnicas de otimização bio-inspiradas, utilizadas na resolução da programação diária da operação de sistemas termoelétricos de geração, apontam que a combinação entre os métodos computacionais biologicamente inspirados com outras técnicas de otimização tem papel importante na obtenção de melhores soluções em um menor tempo de processamento. Seguindo esta linha de pesquisa, o presente trabalho faz uso de uma metodologia baseada na otimização por colônia de formiga para a minimização do custo da programação diária de operação de unidades termoelétricas. O modelo proposto utiliza uma Matriz de Sensibilidade (MS) baseada nas informações fornecidas pelos multiplicadores de Lagrange a fim de melhorar o processo de busca bio-inspirado. Desta forma, um percentual dos indivíduos da colônia faz uso destas informações no processo evolutivo da colônia. Os resultados alcançados através das simulações indicam que a utilização da MS resulta em soluções de qualidade com um número reduzido de indivíduos. / The daily schedule of thermoelectric systems consists of determining the strategy to set the generation units to be put in operation to meet the load, meeting also the operational and functional constraints of the respective power system. This problem can be split into two subproblems: (i) schedule of units that must operate in accordance with a given load, or Thermal Unit Commitment and (ii) set the power generation for each committed unit, or Economical Schedule. Due to load variations the schedule involves hourly generation decisions, in a horizon that varies from one day to two weeks. Researches related to bio-inspired optimization strategies applied to the daily thermal system operation show that the combination between bio-inspired computing techniques and other optimization methods has an important role in order to obtain better solutions in a shorter computing time. Following this, the present work makes use of a methodology based on Ant Colony Optimization to minimize the costs of the thermal system daily scheduling. This proposed method uses a Sensitivity Matrix (SM) based on information from Lagrange Multipliers related to the problem in order to improve the bio-inspired process. In this way, a percentage of the individuals make use of the provided information in the colony evolution process. The results obtained through those simulations indicate that the use of the SM presents better quality solutions with a reduced number of individuals.
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Parameter Tuning Experiments of Population-based AlgorithmsNilsson, Mikael January 2011 (has links)
In this study, three different algorithms are implemented to solve thecapacitated vehicle routing problem with and without time windows:ant colony optimization, a genetic algorithm and a genetic algorithmwith self-organizing map. For the capacitated vehicle routing problemthe Augerat et al’s benchmark problems were used and for the capaci-tated vehicle routing problem with time windows the Solomon’sbenchmark problems. All three algorithms were tuned over thirtyinstances per problem with the tuners SPOT and ParamILS. The tuningresults from all instances were combined to the final parameter valuesand tested on a larger set of instances. The test results were used tocompare the algorithms and tuners against each other. The ant colonyoptimization algorithm outperformed the other algorithms on bothproblems when considering all instances. The genetic algorithm withself-organizing map found more best known solutions than any otheralgorithm when using parameters, on the capacitated vehicle routingproblem. The algorithms performed well and several new best knownresults were discovered for the capacitated vehicle routing problem andnew best solutions found by heuristics were discovered for the 100customer Solomon problems. When comparing the tuners they bothworked well and no clear winner emerged.
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Deduction of inter-organizational collaborative business processes within an enterprise social network / Déduction de processus métier collaboratifs inter-organisationnels au sein d'un réseau social d'entreprisesMontarnal, Aurélie 08 October 2015 (has links)
Particulièrement lors de collaborations dans le cadre de chaînes logistiques ou d'entreprises virtuelles, établir les workflows collaboratifs est une étape laborieuse car souvent réalisée soit de façon humaine, soit avec des méthodes manquant de flexibilité. Sur la base d'un réseau social d'entreprises, cette thèse vise à faciliter cette étape en proposant un service de déduction de processus collaboratifs inter-organisationnels. Cela soulève trois problèmes: (i) trouver les activités qui doivent être exécutées pour remplir les objectifs de la collaboration (Quoi?), (ii) sélectionner les partenaires pouvant réaliser ces activités (Qui?) et (iii) ordonner ces activités en un processus métier collaboratif (Quand?). Dans le cadre d'un réseau social, il est attendu que plusieurs organisations soient capables de fournir les mêmes activités. Dans un tel contexte de concurrence entre les organisations, une optimisation globale permet de trouver un processus final quasi-optimal, en prenant en compte ces trois questions de manière simultanée : trouver l'ensemble des "meilleurs" partenaires et leurs activités dans un contexte de collaboration spécifique. A cette fin, des ontologies de collaboration ont été développées et permettent de représenter et collecter des connaissances sur les collaborations. Ainsi, quand les utilisateurs remplissent leurs profils sur le réseau social, le système peut comprendre (i) les attentes des utilisateurs lorsqu'ils fournissent leurs objectifs de collaboration et (ii) les capacités qu'ils peuvent fournir. Un outil d'aide à la décision, basé sur un algorithme d'optimisation par colonies de fourmis permet ensuite d'exploiter les ontologies de collaboration afin de trouver un processus quasi-optimal répondant aux attentes et objectifs de la collaboration. Les résultats de cette thèse s'inscrivent au sein du projet FUI OpenPaaS dont le but est d'établir un nouveau réseau social d'entreprises visant à faciliter leurs collaborations intra et inter-organisationnelles. / Especially in the context of collaborative supply chains and virtual enterprises, the step of designing the collaborative workflows remains laborious because either it is still carried out humanly or the methods lack of flexibility. Based on an enterprise social network, this thesis aims at facilitating this step by proposing a service for the deduction of collaborative processes. It raises three main issues: (i) finding the activities to execute that answer the objectives of the collaboration (What?), (ii) selecting the corresponding partners (Who?) and (iii) ordering the activities into a collaborative business process (When?). Moreover, it is expected that many companies could be able to provide the same activities, on the enterprise social network. In this competitive context, a global optimization should be set up in order to find the quasi-optimal collaborative process that answer these three questions simultaneously. A three-dimensional solution is proposed here. First, a non-functional framework has been set up in order to determine the criteria that make a « good » partner in a specific collaborative context. Then, collaborative ontologies have been implemented and enable the representation and the acquisition of collaborative knowledge, so that the IT system can understand (a) the user's needs when they model their objectives of collaboration and (b) the user's capabilities when they model their profiles on the enterprise social network. And finally, a tool for decision support has been implemented thanks to an ant colony optimization algorithm that exploits the collaborative ontologies in order to provide a quasi-optimal process that fits the context of the collaboration and answers its objective. The results are in line with the FUI French project OpenPaaS which aims at offering an enterprise social network to facilitate their collaborations.
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Design and analysis of evolutionary and swarm intelligence techniques for topology design of distributed local area networksKhan, S.A. (Salman Ahmad) 27 September 2009 (has links)
Topology design of distributed local area networks (DLANs) can be classified as an NP-hard problem. Intelligent algorithms, such as evolutionary and swarm intelligence techniques, are candidate approaches to address this problem and to produce desirable solutions. DLAN topology design consists of several conflicting objectives such as minimization of cost, minimization of network delay, minimization of the number of hops between two nodes, and maximization of reliability. It is possible to combine these objectives in a single-objective function, provided that the trade-offs among these objectives are adhered to. This thesis proposes a strategy and a new aggregation operator based on fuzzy logic to combine the four objectives in a single-objective function. The thesis also investigates the use of a number of evolutionary algorithms such as stochastic evolution, simulated evolution, and simulated annealing. A number of hybrid variants of the above algorithms are also proposed. Furthermore, the applicability of swarm intelligence techniques such as ant colony optimization and particle swarm optimization to topology design has been investigated. All proposed techniques have been evaluated empirically with respect to their algorithm parameters. Results suggest that simulated annealing produced the best results among all proposed algorithms. In addition, the hybrid variants of simulated annealing, simulated evolution, and stochastic evolution generated better results than their respective basic algorithms. Moreover, a comparison of ant colony optimization and particle swarm optimization shows that the latter generated better results than the former. / Thesis (PhD)--University of Pretoria, 2009. / Computer Science / unrestricted
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Energy Optimization for Wireless Sensor Networks using Hierarchical Routing TechniquesAbidoye, Ademola Philip January 2015 (has links)
Philosophiae Doctor - PhD / Wireless sensor networks (WSNs) have become a popular research area that is widely gaining the attraction from both the research and the practitioner communities due to their wide area of applications. These applications include real-time sensing for audio delivery, imaging, video streaming, and remote monitoring with positive impact in many fields such as precision agriculture, ubiquitous healthcare, environment protection, smart cities and many other fields. While WSNs are aimed to constantly handle more intricate functions such as intelligent computation, automatic transmissions, and in-network processing, such capabilities are constrained by their limited processing capability and memory footprint as well as the need for the sensor batteries to be cautiously consumed in order to extend their lifetime. This thesis revisits the issue of the energy efficiency in sensor networks by proposing a novel clustering approach for routing the sensor readings in wireless sensor networks. The main contribution of this dissertation is to 1) propose corrective measures to the traditional energy model adopted in current sensor networks simulations that erroneously discount both the role played by each node, the sensor node capability and
fabric and 2) apply these measures to a novel hierarchical routing architecture aiming at maximizing sensor networks lifetime. We propose three energy models for sensor network: a) a service-aware model that account for the specific role played by each node in a sensor
network b) a sensor-aware model and c) load-balancing energy model that accounts for the sensor node fabric and its energy footprint. These three models are complemented by a load-balancing model structured to balance energy consumption on the network of cluster heads that forms the backbone for any cluster-based hierarchical sensor network. We present two novel approaches for clustering the nodes of a hierarchical sensor network: a) a distance-aware clustering where nodes are clustered based on their distance and the residual energy and b) a service-aware clustering where the nodes of a sensor network are clustered according to their service offered to the network and their residual energy. These approaches are implemented into a family of routing protocols referred to as EOCIT (Energy Optimization using Clustering Techniques) which combines sensor node energy location and service awareness to achieve good network performance. Finally, building upon the Ant Colony Optimization System (ACS), Multipath Routing protocol based on Ant Colony Optimization approach for Wireless Sensor Networks (MRACO) is proposed as a novel multipath routing protocol that finds energy efficient routing paths for sensor
readings dissemination from the cluster heads to the sink/base station of a hierarchical sensor network. Our simulation results reveal the relative efficiency of the newly proposed approaches compared to selected related routing protocols in terms of sensor network lifetime maximization.
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Hybride Ansätze basierend auf Dynamic Programming und Ant Colony Optimization zur mehrkriteriellen Optimierung Kürzester-Wege-Probleme in gerichteten Graphen am Beispiel von Angebotsnetzen im Extended Value Chain ManagementHäckel, Sascha 19 September 2006 (has links)
In einer von Vernetzung und Globalisierung geprägten Umwelt wächst der Wettbewerbsdruck auf die Unternehmen am Markt stetig. Die effektive Nutzung der Ressourcen einerseits und die enge Zusammenarbeit mit Lieferanten und Kunden andererseits führen für nicht wenige Unternehmen des industriellen Sektors zu entscheidenden Wettbewerbsvorteilen, die das Fortbestehen jener Unternehmen am Markt sichern. Viele Unternehmen verstehen sich aus diesem Grund als Bestandteil so genannter Supply Chains. Die unternehmensübergreifende Steuerung und Optimierung des Wertschöpfungsprozesses stellt ein charakteristisches Problem des Supply Chain Managements dar und besitzt zur Erzielung von Wettbewerbsvorteilen hohes Potential. Produktionsnetzwerke sind ein wesentlicher Forschungsschwerpunkt der Professur für Produktionswirtschaft und Industriebetriebslehre an der TU Chemnitz. Das Extended Value Chain Management (EVCM) stellt ein kompetenzorientiertes Konzept für die Bildung und zum Betrieb hierarchieloser temporärer regionaler Produktionsnetzwerke im Sinne virtueller Unternehmen dar. Gegenstand dieser Arbeit ist ein diskretes Optimierungsproblem, dass einen mehrstufigen Entscheidungsprozesses unter Berücksichtigung mehrerer Ziele abbildet, der sich bei der Auswahl möglicher Partner in einem Produktionsnetzwerk nach dem Betreiberkonzept des EVCM ergibt. Da mehrere Zielstellungen bestehen, werden grundlegende Methoden der mehrkriteriellen Optimierung und Entscheidung erörtert. Neben der Vorstellung des Problems sollen mehrzielorientierte Ansätze im Sinne einer Pareto-Optimierung auf Basis des Dynamic Programmings als Verfahren zur Bestimmung von Optimallösungen sowie Ant Colony Optimization zur näherungsweisen Lösung vorgestellt werden. Darauf aufbauend werden verschiedene Möglichkeiten der Hybridisierung beider Methoden diskutiert. Die entwickelten Ansätze werden auf ihre Eignung im Rahmen der informationstechnischen Umsetzung des EVCM-Konzepts untersucht und einer Evaluierung unterzogen. Hierzu werden verschiedene Kennzahlen zur Beurteilung der Verfahren entwickelt. Die modellierten Algorithmen und entwickelten Konzepte beschränken sich nicht ausschließlich auf das betrachtete Problem, sondern können leicht auf Probleme mit ähnlichen Eigenschaften übertragen werden. Insbesondere das NP-vollständige mehrkriterielle Kürzeste-Wege-Problem stellt einen Spezialfall des behandelten Optimierungsproblems dar.
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Ant Colony Optimization Technique to Solve Min-Max MultiDepot Vehicle Routing ProblemVenkata Narasimha, Koushik Srinath January 2011 (has links)
No description available.
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[en] DESIGN OF ORGANIC LIGHT-EMITTING DIODES SUPPORTED BY COMPUTACIONAL INTELLIGENCE TECHNIQUES / [pt] PROJETO DE DIODOS ORGÂNICOS EMISSORES DE LUZ COM O AUXÍLIO DE TÉCNICAS DA INTELIGÊNCIA COMPUTACIONALCARLOS AUGUSTO FEDERICO DE FARIA ROCHA COSTA 10 September 2018 (has links)
[pt] Esta dissertação trata da investigação, simulação e otimização da estrutura de Diodos Orgânicos Emissores de Luz Multicamadas (ML-OLEDs) através da utilização de técnicas da Inteligência Computacional. Além disso, um desses métodos, chamado Otimização por Colônia de Formigas (ACO), foi implementado com base em um modelo proposto na literatura e aplicado pela primeira vez na otimização de diodos orgânicos. OLEDs são dispositivos optoeletrônicos nanométricos fabricados a partir de materiais semicondutores
orgânicos. Ao contrário das tecnologias tradicionais, eles conjugam elevada luminescência e baixo consumo energético. Na fabricação de um OLED, o número configurações possíveis é quase ilimitado, em função da quantidade de parâmetros que se pode variar. Isso faz com que determinação da arquitetura ótima torne-se uma tarefa não trivial. Para simular os OLEDs foram empregados dois modelos distintos de simulação. Assim, as Redes Neurais Artificiais (RNA) foram empregadas com o objetivo de emular um dos simuladores e acelerar o cálculo da densidade de corrente. Os Algoritmos Genéticos (AG) foram aplicados na determinação dos valores ótimos de espessura das camadas, mobilidades dos portadores de carga e concentração dos materiais orgânicos em OLEDs com duas camadas, enquanto o ACO foi aplicado para encontrar os valores de concentração em OLEDs com duas e cinco camadas, constituindo assim três estudos de caso. Os resultados encontrados foram promissores, sobretudo no caso das espessuras,
onde houve uma confirmação experimental do dispositivo com duas camadas. / [en] This dissertation deals with the research, simulation and optimization of the structure of Multilayer Organic Light Emitting Diodes (ML-OLEDs) by using Computational Intelligence techniques. In addition, one of these methods, called Ant Colony Optimization (ACO), was implemented based on a model proposed in the literature and applied for the first time in the optimization of organic diodes. OLEDs are nanometric optoelectronic devices fabricated from organic semiconducting materials. Unlike traditional technologies, they combine high luminance and low power consumption. In the manufacturing of an OLED, the number of possible configurations is almost unlimited due to the number of parameters that can modified. Because of this the determination of the optimal architecture becomes a non-trivial task. Two different simulation models were used to simulate the OLEDs. Thus, the Artificial Neural Networks (ANN) were employed in order to work as the proxy of the commercial simulator and to accelerate the calculation of the current density. The Genetic Algorithms (GA) were applied to determine the optimal values of thickness of the layers, the charge carrier mobility and the concentration of the organic materials in OLEDs with two layers, while the ACO was applied to find the values of concentration in OLEDs with two and five layers, thus establishing three case studies. The employed strategy has proved to be promising, since it has show good results for two case studies, especially for the optimization of the thickness, where there was an
experimental confirmation of the bilayer device.
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Ant colony optimization based simulation of 3d automatic hose/pipe routingThantulage, Gishantha I. F. January 2009 (has links)
This thesis focuses on applying one of the rapidly growing non-deterministic optimization algorithms, the ant colony algorithm, for simulating automatic hose/pipe routing with several conflicting objectives. Within the thesis, methods have been developed and applied to single objective hose routing, multi-objective hose routing and multi-hose routing. The use of simulation and optimization in engineering design has been widely applied in all fields of engineering as the computational capabilities of computers has increased and improved. As a result of this, the application of non-deterministic optimization techniques such as genetic algorithms, simulated annealing algorithms, ant colony algorithms, etc. has increased dramatically resulting in vast improvements in the design process. Initially, two versions of ant colony algorithms have been developed based on, respectively, a random network and a grid network for a single objective (minimizing the length of the hoses) and avoiding obstacles in the CAD model. While applying ant colony algorithms for the simulation of hose routing, two modifications have been proposed for reducing the size of the search space and avoiding the stagnation problem. Hose routing problems often consist of several conflicting or trade-off objectives. In classical approaches, in many cases, multiple objectives are aggregated into one single objective function and optimization is then treated as a single-objective optimization problem. In this thesis two versions of ant colony algorithms are presented for multihose routing with two conflicting objectives: minimizing the total length of the hoses and maximizing the total shared length (bundle length). In this case the two objectives are aggregated into a single objective. The current state-of-the-art approach for handling multi-objective design problems is to employ the concept of Pareto optimality. Within this thesis a new Pareto-based general purpose ant colony algorithm (PSACO) is proposed and applied to a multi-objective hose routing problem that consists of the following objectives: total length of the hoses between the start and the end locations, number of bends, and angles of bends. The proposed method is capable of handling any number of objectives and uses a single pheromone matrix for all the objectives. The domination concept is used for updating the pheromone matrix. Among the currently available multi-objective ant colony optimization (MOACO) algorithms, P-ACO generates very good solutions in the central part of the Pareto front and hence the proposed algorithm is compared with P-ACO. A new term is added to the random proportional rule of both of the algorithms (PSACO and P-ACO) to attract ants towards edges that make angles close to the pre-specified angles of bends. A refinement algorithm is also suggested for searching an acceptable solution after the completion of searching the entire search space. For all of the simulations, the STL format (tessellated format) for the obstacles is used in the algorithm instead of the original shapes of the obstacles. This STL format is passed to the C++ library RAPID for collision detection. As a result of using this format, the algorithms can handle freeform obstacles and the algorithms are not restricted to a particular software package.
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Entwicklung und Validierung eines Fragebogens zur Erfassung der kognitiven Dimension gesundheitsbezogener Lebensqualität (COQOL - COgnitive Quality Of Life) bei Menschen mit Demenz / Development and validation of a self-report instrument for measuring the cognitive dimension of Health-Related Quality of Life - the COQOL (COgnitive Quality Of Life) in patients with dementiaWerkmeister, Martin Lenard 19 May 2019 (has links)
No description available.
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