Gripper Tool Designed for a Surgical Collaborative Robot / Gripdon designad för en kirurgisk kollaborativ robot

Andersson, Emma

January 2019

In surgery, suturing is the use of needle and thread to join cut and/or damaged anatomical structures together. This repair strategy is highly versatile and is universal for all types of surgery as the goal is to restore, repair or improve function and/or appearance. The needles are almost always curved in shape, and it is handled and maneuvered by surgeons with a special tool called: needle driver. The versatility of this setup has proven its worth over time as needle drivers are one of the indispensable instruments in all types of surgery. We are entering a future where robots can be programmed to execute tasks with much higher level of precision and speed compared to humans. Medical robotics in surgery has gained ground over the past decades due to promising clinical results. A straightforward step in this direction would be to create a solution that enables the robot to grip needle driver. The purpose of this study was to develop a gripper tool that enables a collaborative robot to perform suturing with one of the most common types of needle drivers used in surgery. The Double Diamond design framework was employed. The selected content in the predefined four phases were: 1) Discover: Observation, MoSCoW Prioritization, Brainstorming, Choosing a Sample, Fast Visualisation, 2) Define: Assessment criteria, 3) Develop: Physical prototyping 4) Deliver: Final testing and Evaluation. In the first phase, Discover, clinical and technical demands were formulated. In the second phase, Define, numerous design ideas were generated and drafted on paper whereof the one with highest assessment score was chosen for physical prototyping. In phase three, Develop, the selected design idea was modelled in cardboard, clay and silicon, and 3D printed. Multiple design iterations were guided by feedback from clinical and technical experts and resulted in a final prototype design that was accepted by the experts. In phase four, Deliver, the final prototype was subjected to final testing and evaluation. Observation of five live and one video recording of surgical procedures on real patients were made. The insights gained were confirmed with the lead and co-surgeons of each procedure and were summarized in 24 clinically important observations relevant for the gripper tool design. Careful analysis of the previously designed gripper tool, live observation of the robot’s motion pattern and range, and interview with robotic engineer were summarized in ten technically important observations. The observations were then used to formulate the clinical and technical demands that the gripper tool design aims to fulfill, followed by prioritizing the demands and design features according by MoSCoW method and brainstorming on how to improve previous gripper tool design. To limit the scope of the design challenge, one of the five types of needle drivers used in pediatric heart surgery in Lund was selected in the method Choosing a Sample. To further characterize the clinical and technical demands, a test bench was set up to Define and measure force vectors applied on the needle driver when held by a surgeon during suturing. The radial forces vectors in six directions perpendicular to the tip of the needle driver ranged from 1.6 N to 3.8 N. The axial force along the length of the needle driver was 7.6 N towards the tip and 8.4 N towards the back end. The clockwise and counterclockwise torque along the length axis of the needle driver was 0.2 Nm and 0.18 Nm, respectively. The set of defined demands were sufficient to sketch numerous ideas of gripper tool designs according to the Fast Visualization method. These designs were then used in the Define phase to communicate the design ideas with surgeons, robotic and product development engineers. The most promising idea was advanced to the Develop phase where physical prototypes were produced in cardboard, clay and silicon and 3D printed. Inadequacies were found during design feedback with interviews and testing together with clinical and technical experts, and design actions were taken to arrive at the final prototype. The final prototype was brought into the Deliver phase for final testing and evaluation. The gripper tool could handle lager force loads than the human surgeon in all the stability tests. However, deflection of the needle driver occurred with the gripper tool unlike when the surgeon was subject to stability testing. One pediatric heart surgeon and one robotic engineer was asked to generate a composite score of fulfillment rate from 1–5, where 1 is bad, 3 satisfactory, and 5 excellent after final testing of the gripper tool was carried out. The final prototype of the gripper tool fulfills all clinical and technical demands at the level of 4, and 3–5, respectively. In conclusion, the design methodology used in this study was useful in the development of a gripper tool design that respects both clinical and technical demands. This suggest that the methodology may be used in similar setting of design challenges in the field between medical and technical innovation. The gripper tool fulfilled the demands, although further refinement in the choice of material, further testing and investigation of regulatory aspects are required before it can be implemented in the operating room. / Vid operation är suturering användningen av nål och tråd för att sammanfoga snittad och/eller skadade anatomiska strukturer. Denna reparationsstrategi är mycket mångsidig och universell för alla typer av kirurgi eftersom målet är att återställa reparera eller förbättra funktion och/eller anatomisk defekt. Nålarna är nästan alltid krökta i sin form och de hanteras och manövreras av kirurgerna med ett speciellt verktyg som kallas: nålförare. Mångsidigheten i denna uppställning har visat sig över tid eftersom nålförare är ett av de oumbärliga instrumenten vid alla typer av operationer. Vi går in i en framtid där robotar kan programmeras för att utföra uppgifter med mycket högre precision och hastighet jämfört med människor. Medicinska robotar inom kirurgi har varit på frammarsch senaste årtionden på grund av goda kliniska resultat. Ett steg i denna riktning skulle vara att skapa en lösning som gör det möjligt för en robot att greppa nålföraren. Syftet med denna studie var att utveckla ett gripdon som möjliggör för en kollaborativ robot att utföra suturering med hjälp av en av de vanligaste typerna av nålförare som används vid operation. Design metodiken Double Diamond användes för att beskriva design processensen. Det valda metoderna i de fyra för definierade faser var: 1) Discover: Observation, MoSCoW Prioritization, Brainstorming, Choosing a Sample, Fast Vissualization, 2) Define: Assessment criteria, 3) Develop: Physical Prototyping, 4) Deliver: Final testing and Evaluation. I första fasen, Discover, formulerades kliniska och tekniska krav. I den andra fasen, Define, definierades flera designidéer som skissades på papper, varav den med den högsta poängen valdes i Assessment criteria. I fas tre, Develop, modellerades den valda designidén i kartong, lera och silikon samt 3D-printades. Flera designiterationer gjordes baserat på feedback från kliniska och tekniska experter vilket resulterade i en slutlig prototypdesign som godkändes av experterna. I fas fyra, Deliver, testades och utvärderades den slutliga prototypen. Observation av fem realtids och en videoinspelning av kirurgiska ingrepp på riktiga patienter gjordes. Insikterna som gjordes bekräftades med kirurgerna som genomförde operationen och sammanfattades i 24 kliniskt viktiga observationer som var relevanta för gripdon designen. Noggrann realtids observation av robotens rörelsemönster samt analys av det tidigare utformade gripdonen och intervju med en robotingenjör sammanfattades i tio tekniskt viktiga observationer. Observationerna användes för att formulera kliniska och tekniska krav som gripdons designen strävar efter att uppfylla, följt av prioritering av kraven och designegenskaper enligt MoSCoW-metoden och brainstorming kring hur tidigare gripdons design kan förbättras. För att begränsa designutmaningens omfattning valdes en av de fem typer av nålförare som används vid barnhjärtkirurgi i Lund genom metoden Chossing a sample. För att ytterligare karakterisera de kliniska och tekniska kraven upprättades en testbänk för att definiera och mäta kraftvektorer som appliceras på nålföraren när den hålls av en kirurg under suturering. De radiella krafterna i sex riktningar vinkelrätt mot nålförarens spets varierade från 1,6 N till 3,8 N. Den axiella kraften längs nålförarens längd var 7,6 N mot spetsen och 8,4 N mot bakänden. Medurs och moturs vridmoment längs nålförarens längdaxel var 0,2 Nm respektive 0,18 Nm. Dom definierade kraven låg till grund för skisser av flertal gripdondesign idéer enligt Fast Visualization. Dessa skisser användes sedan i Define fasen för att kommunicera designidéer med kirurger samt robot- och produktutvecklingsingenjörer. Den mest lovande idén togs till Develop fasen där fysiska prototyper togs fram i kartong, lera och silikon samt genom 3D-printning. Förbättringspunkter hittades under testning och återkoppling med intervjuer tillsammans med kliniska och tekniska experter. Designåtgärder baserat på återkopplingen gjordes för att komma fram till den slutliga prototypen. Slutlig testning och utvärdering av den slutliga prototypen genomfördes i Deliver fasen. Gripdons designen kunde hantera större belastningar än den mänskliga kirurgen i alla stabilitetstester. Böjning av nålföraren uppstod dock i testerna med gripverktyget till skillnad från testerna med kirurgen var föremål för stabilitetsprovning. En barnhjärtkirurg och en robotingenjör poängsatte uppfyllnadsgrad av de kliniska respektive tekniska kraven efter att slutlig testning av gripdonet utförts. Uppfyllnadsgraden poängsattes från 1–5 där 1 var dålig, 3 tillfredsställande och 5 utmärkt. Gripdonets slutliga prototyp uppfyller alla kliniska och tekniska krav på nivå 4 respektive 3–5. Designmetodiken som användes i denna studie var användbar för utvecklingen av gripdon som uppfyller både de kliniska och tekniska kraven. Detta tyder på att denna metod kan användas i liknande designutmaningar inom området mellan medicinsk och teknisk innovation. Gripdonet uppfyllde kraven även om ytterligare förfining i materialvalet, ytterligare testning och undersökning av regulatoriska aspekter krävs innan den kan användas under riktiga operationer i operationssalen.

Medical robotics

Surgical Suturing

Gripper Tool

Design Methodology

Double Diamond Design process

Medicinskrobotik

Kirurgisksuturering

Gripdon

Design metodik

Double Diamond Design-process

Medical Engineering

Medicinteknik

<b>PHYSICS INSPIRED AI-DRIVEN PHOTONIC INVERSE DESIGN FOR HIGH-PERFORMANCE PHOTONIC DEVICES</b>

Omer Yesilurt (19435210)

19 August 2024

<p dir="ltr">This thesis presents novel methodologies to integrate AI-driven and physics-inspired methodologies into photonic inverse design, setting new benchmarks for high-performance photonic devices in different branches of photonics. By blending advanced computational techniques with the foundational principles of electromagnetism, this research tackles key challenges in optimizing device efficiency, robustness, and functionality. The aim is to propel photonic technology beyond its current capabilities, offering transformative solutions for a range of novel applications.</p><p dir="ltr">The first major contribution focuses on adjoint-based topology optimization for on-chip single-photon coupling. We developed an adjoint topology optimization scheme to design high-efficiency couplers between photonic waveguides and single-photon sources (SPSs) in hexagonal boron nitride (hBN). This algorithm addresses fabrication constraints and SPS location uncertainties, achieving a remarkable average coupling efficiency of 78%. A library of designs is generated for different positions of the hBN flake containing an SPS relative to a silicon nitride (SiN) waveguide. These designs are then analyzed using dimensionality reduction techniques to investigate the relationship between device geometry and performance, infusing the design process with deep physical intuition and insight.</p><p dir="ltr">The second key advancement is presented through a neural network-based inverse design framework specifically developed for optimizing single-material, variable-index multilayer films. This neural network-driven technique, supported by a differentiable analytical solver, enables the realistic design and fabrication of these multilayer films, achieving high performance under ideal conditions. The approach also addresses the challenge of bridging the gap between these ideal designs and practical devices, which are subject to growth-related imperfections. By incorporating simulated systematic and random errors—reflecting actual deposition challenges—into the optimization process, we demonstrate that the neural network, initially trained to produce the ideal device, can be reconfigured to create designs that compensate for systematic deposition errors. This method remains effective even when random fabrication inconsistencies are present. The results provide a practical and experimentally viable strategy for developing single-material multilayer film stacks, ensuring reliable performance across a wide range of real-world applications.</p><p dir="ltr">The final cornerstone of this research investigates the two-stage inverse design of superchiral dielectric metasurfaces. We propose a two-stage inverse design scheme for dielectric lossless metasurfaces with central superchiral hot spots. By leveraging the excitation of high-quality factor modes with low mode volumes, we achieve up to 19,000-fold enhancements of optical chirality. This method extends the local density of field enhancements for non-chiral fields into the chiral regime and significantly surpasses previous enhancements in superchiral field generation. Our results open new avenues in chiral spectroscopy and chiral quantum photonics, exemplifying the powerful synergy of AI techniques and physics-based design principles in creating highly innovative and functional photonic structures.</p><p dir="ltr">Collectively, the methodologies developed in this thesis signify a major advancement in the field of photonic inverse design. By merging AI-driven techniques with rigorous physics-based optimization frameworks, this research paves the way for the next generation of photonic devices.</p>

Engineering electromagnetics

Nanophotonics

inverse design methodology

photonics

Photonic Integrated Circuit (PIC)

metasurface

deep learning

Démarche méthodologique pour la conception préliminaire et interactive / Methodological approach for interactive preliminary-design

Ríos zapata, David

14 December 2018

Les processus de prise de décision dans la conception demandent aux concepteurs de prioriser les spécifications et les variables afin de développer des solutions plus proches des objectifs du produit. Néanmoins, la taille des informations est souvent volumineuse et difficile à comprendre : garder la trace de la liste des variables dépendantes, des variables indépendantes et des objectifs de conception est une tâche complexe, avec potentiellement des retraitements et perte de temps, surtout lorsqu'il est nécessaire d'identifier quand une modification sur une variable peut avoir un impact sur les performances du produit.L'objectif de cette thèse est de proposer une méthode qui permettant d'obtenir un trade-off entre les objectifs de conception. Ce trade-off est basé sur deux aspects : i) le développement d'un modèle de traçabilité, gérant les informations à partir des exigences du produit (dans le domaine linguistique) jusqu'à la définition des variables (dans le domaine des nombres réels). ii) un cadre d’amélioration de la conception, fondé sur la définition des fonctions de désirabilité des objectifs de conception. La propagation de ces fonctions jusqu’à les variables de conception permettent de calculer la combinaison de valeurs qui maximisent l’index global de désirabilité de la solution.La proposition de thèse peut être comprise comme une approche hybride, comprenant une partie exploratoire interactive et une partie interactive inductive. Sur la partie exploratoire, les concepteurs peuvent modifier les variables à l'aide d'outils visuels afin de comprendre en temps réel l'impact de ces modifications sur les objectifs de conception. Sur la partie inductive, les concepteurs utilisent une méthode de pré-dimensionnement proposée, qui calcule les valeurs des variables qui maximisent la désirabilité des objectifs de conception. Cette méthode fonctionne sur un environnement de conception multidisciplinaire, avec des problèmes convexes ou non-convexes. / Preliminary design decision-making processes are related to the prioritisation of design specifications and variables in order to develop solutions that are closer to product's requirements. Nevertheless, the size of the information is often large and hard to understand: keeping in track the list of dependent variables, independent variables and design objectives is a challenging task, with potentially reprocessing and loss of time, especially when it is necessary to identify how a modification on a variable might impact the performance of the product.The objective of this thesis is to generate a method that can obtain a trade-off among the design objectives desirability. This trade-off process is supported on two aspects: i) the development of a traceability model, managing information from the input requirements (in the linguistic field) up to the variables definition (in the real numbers field). ii) A design amelioration framework, based on the definition of the design objectives desirability functions; the propagation of these functions until design variables allow to calculate the combinations of values that maximise the global desirability of the solution.The proposal of the thesis can be understood as a hybrid approach, including an interactive exploratory part and an inductive interactive part. On the exploratory part, designers can modify the variables using visual tools in order to understand in real time how these modifications have an impact on the design objectives. On the inductive part, designers make use a proposed pre-sizing method that calculates the values of the variables that maximise the desirability of the design objectives. This proposal is developed to perform on a multidisciplinary design environment, facing, either convex and non-convex problems.

Conception préliminaire interactive

Amelioration de la conception

Traçabilité dans conception

Méthodologie de conception

Cadre de gestion de l'information

Preliminary interactive design

Global desirability index maximisation

Design amelioration

Traceability in design

Design Methodology

Information management framework

Desenvolvimento de um sistema dinamicamente reconfigurável baseado em redes intra-chip e ferramenta para posicionamento de módulos. / Development of a dynamically reconfigurable systems under noc and CAD for modules mapping.

Raffo Jara, Mario Andrés

05 February 2010

Os sistemas dinamicamente reconfiguráveis (SDRs) são uma alternativa para o desenvolvimento de sistemas sobre silício baseados em circuitos programáveis (SoPC), cujo principal beneficio é o bom aproveitamento da área do dispositivo. Sendo neles implementados circuitos que representam as tarefas que devem operar numa etapa específica do tempo de operação do sistema, permitem um menor consumo de área e de energia, parâmetros importantes nos sistemas portáveis. Isto tem gerado muito interesse no que se refere às metodologias de projeto utilizando FPGAs (Field Programmable Gate Arrays) dinamicamente reconfiguráveis (DRFPGAs) e à definição de um meio de comunicação estruturado para tratar da transferência de dados entre as partes reconfiguráveis e as fixas, mas estas tarefas, assim como a concretização de sua comunicação, seguem sendo ainda essencialmente manuais, devido à falta de metodologias de projeto e ferramentas de CAD que simplifiquem o projeto de SDRs. Este trabalho foca uma das limitações mais efetivas para a adoção da reconfiguração dinâmica: a falta de ferramentas de CAD que suportem o projeto de SDRs, inclusive os baseados em redes intra-chip (NoCs), em particular, no posicionamento dos módulos. Neste trabalho, uma arquitetura para SDRs baseado em NoCs é proposta e um algoritmo de posicionamento dos módulos de um SDR baseado em aspectos reais da família do DRFPGAs é desenvolvido, dentro de uma ferramenta denominada DynoPlace. Desenvolveu-se também um modelo de validação e simulação de SDRs, em tempo de operação, utilizando-se a técnica de chaveamento dinâmico de circuitos. Para o estudo do caso, de validação da arquitetura e metodologia, propõe-se uma aplicação teste baseada em computação de operações aritméticas. A metodologia de simulação permite determinar o tempo da reconfiguração e verificar o comportamento do SDR no momento da reconfiguração. A ferramenta DynoPlace permite gerar os arquivos de restrição de usuário (UCF) de posicionamento dos módulos do SDR no DRFPGA Virtex-4LX25. Este contém informações do posicionamento dos módulos do sistema, dos dispositivos usados para as entradas e saídas do sistema além do posicionamento dos bus-macros. Com os arquivos gerados pela metodologia e ferramenta DynoPlace, pode-se executar com sucesso os scripts da metodologia Early Access da Xilinx para gerar o SDR de forma automática. / Dynamically Reconfigurable Systems (DRSs) are an alternative for developing Systems on a Programmable Chip (SoPC), being the efficient use of device\'s area one of its main advantages. Circuits implemented as DRSs represent tasks which must be active in specific times into the system operation, allowing area and energy saving, which is an important goal for portable systems. This has generated interests on the design methodology using Dynamically Reconfigurable Field Programmable Gate Arrays (DRFPGAs) and on the definition of communication systems for handling data transfer between static and reconfigurable partitions. However, these tasks, as well as the communication structure, are still carried out manually due to lack of design methodologies and CAD tools applied to DRSs design. This work focuses on the one of main drawbacks to the adoption of dynamic reconfiguration methods: the absence of CAD tools which support DRS designs, specifically, in the module positioning task, included, for those based on Network-on-Chip (NoCs). In this work, an architecture for DRSs based on NoCs is presented and an algorithm for module positioning is developed in a tool called DynoPlace as well, based on real specifications of DRFPGAs families. It is also developed a run-time simulation and validation model for DRSs, through a dynamic circuit switching technique. For the validation of architecture and methodology study case, an application test based on arithmetic operations has been proposed. The simulations methodology allows to determine the reconfiguration time and verify the DRS behavior at the moment of reconfiguration. The DynoPlace tool allows to generate User Constraint File (UCF) of DRS\'s modules positioning for the DRFPGA Virtex-4LX25. This file contains information of modules positioning in the system, of the devices used for inputs and outputs of the system, and the positioning of bus-macros. After the files generation by the methodology, and the DynoPlace tool, it is possible to successfully execute the Early Access scripts for generating the DRS automatically.

CAD for DRFPGAs

CAD para DRFPGAs

Chaveamento dinâmico de circuitos

Design methodology

DRFPGAs

DRFPGAs

Dynamic circuit switching

Dynamically reconfigurable systems

Metodologias de projeto

Microelectronics

Microeletrônica

Network-on-chip

Reconfiguração dinâmica

Redes intra-chip

Run time reconfiguration

Sistemas dinamicamente reconfiguráveis

Ensino a Distância: Uma análise do design de um curso de Cálculo com um olhar no conteúdo de limites e continuidade de uma variável real

Forster, Sandra Regina Leme

03 May 2007

Made available in DSpace on 2016-04-27T16:58:09Z (GMT). No. of bitstreams: 1 Sandra Regina Leme Forster.pdf: 14992538 bytes, checksum: 2360f28c33cee2356493723f45f981f6 (MD5) Previous issue date: 2007-05-03 / The aim of this study is to present the material developed to the contents of Limit a Continuity of Functions of a Real Variable (Limite e Continuidade de Funções de uma Variável Real); demonstrate the analysis of the production of the applicable methodologies for the subject Differential and Integral Calculus II (Cálculo Diferencial e Integral II), one of the units required by the undergraduate academic degree in Bachelor of Mathematics, a program developed in a distance learning basis held by a university in São Paulo; as well as present suggestions to improve the course mentioned above. The theoretical base built in this paper was founded in two theories: the Semiotic Representation Registers Theory, by Raymond Duval, used in researches related to knowledge acquisition and organizing learning situations, and the Interactionist Theory, which is rooted in the studies of Piaget and Vygotsky, authors that forego the distance learning programs. This theory has been interpreted and rewritten by authors that work with distance learning programs and state that interaction promotes learning in any educational environment. This study also exposes what the researcher understands by distance learning and the media used in this kind of learning program. This paper consists of a methodology research based in design where quantitative and qualitative analyses were used, especially, the triangular analysis of data collected through observations of several natures. The results obtained through this research show that: the material and the methodologies applied to the course were well accepted, however, the students prefer the printed material. The students that frequently interacted during the course had better learning results. The development of activities with different types of semiotic representation registers provoke questioning, aid the learning of mathematics concepts and allow to observe if the concept was acquired by the student. The material developed to Continuity teaching was not sufficient to promote learning and must be reorganized / Este estudo tem como objetivo apresentar o material elaborado para os conteúdos de Limite e Continuidade de Funções de uma Variável Real; demonstrar a análise da produção e das metodologias aplicadas na disciplina de Cálculo Diferencial e Integral II do curso de Licenciatura Plena em Matemática na modalidade à distância de uma universidade em São Paulo; como também apresentar sugestões para o aperfeiçoamento do curso em questão. A fundamentação teórica presente neste estudo foi construída a partir de duas teorias: a Teoria dos Registros de Representações Semióticas, de Raymond Duval, utilizada em pesquisas referentes à aquisição de conhecimento e à organização de situações de aprendizagem, e a Teoria Interacionista, que possui raízes nos estudos de Piaget e Vygotsky, autores que antecedem a Educação a Distância. Essa teoria foi interpretada e reescrita por autores que vivenciam a modalidade de ensino a distância e afirmam que a interação promove a aprendizagem em qualquer ambiente educacional. Além dessas teorias, este trabalho expõe o que se entende por Educação a Distância e as mídias utilizadas nessa modalidade de ensino. Este estudo trata-se de uma pesquisa de metodologia de design em que se faz o uso das análises quantitativas, qualitativas e, principalmente, da triangulação dos dados coletados em observações de diversas naturezas. Os resultados obtidos por meio desta pesquisa apontam que: o material e as metodologias aplicadas ao curso foram bem aceitos, porém há preferência por materiais da mídia impressa. Os alunos que interagiram com freqüência durante o curso obtiveram melhores resultados na aprendizagem. As atividades com diferentes tipos de registros de representações semióticas provocam questionamentos, favorecem a aprendizagem dos conceitos matemáticos e permitem observar se o conceito foi adquirido pelo aluno. O material elaborado para o ensino de Continuidade não foi suficiente para promover a aprendizagem e deve ser reorganizado

Educação a distância

Teoria Interacionista

Limites e Continuidade

Metodologia de Design

Educacao matematica

Matematica -- Estudo e ensino

Calculo -- Estudo e ensino

Distance learning

Interactionist Theory

Semiotic Representation Registers Theory

Limites e Continuidade

Design Methodology

Metodologia de projeto de atuador eletromagnético linear para sistemas de suspensão semiativa e ativa

Eckert, Paulo Roberto

January 2016

Este trabalho apresenta uma metodologia de projeto de atuadores eletromagnéticos lineares inovadora para aplicação em sistemas de suspensão semiativa e ativa. A metodologia, apresentada na forma de fluxograma, define critérios para determinar os requisitos de força e curso que um atuador deve desenvolver considerando um sistema mecânico vibratório com um grau de liberdade com excitação harmônica de base quando o método de controle skyhook é aplicado. Um atuador eletromagnético linear de bobina móvel com duplo arranjo de quase-Halbach que apresenta elevada densidade de força, reduzida massa móvel, ausência de força de relutância e baixa ondulação de força é definido como estudo de caso. Um modelo numérico parametrizado em elementos finitos do comportamento eletromagnético de um passo polar do dispositivo é criado e analisado, considerando restrições dimensionais, com os objetivos de projeto definidos como: elevada densidade de força e reduzida ondulação de força com acionamento brushless CA. Com base no modelo de um passo polar do dispositivo, define-se o volume ativo que o mesmo deve apresentar e, a partir deste, todas as dimensões são definidas de forma a atender os requisitos de projeto. Uma vez definidas as dimensões do atuador com base no modelo eletromagnético, realiza-se a modelagem térmica numérica que permite avaliar qual a máxima densidade de corrente elétrica aplicável de forma que a temperatura, estipulada como máxima, nos enrolamentos não seja excedida. Ainda, a distribuição térmica permite determinar a temperatura de operação dos ímãs permanentes que têm curva de operação dependente da temperatura. A partir dos resultados da simulação térmica e do modelo eletromagnético para um passo polar, realizou-se o acoplamento eletromagnético-térmico por meio da correção das propriedades dos ímãs permanentes e aplicando uma densidade de corrente eficaz dependente das dimensões do modelo parametrizado. O modelo acoplado é simulado e analisado, de modo que as dimensões finais do atuador podem ser obtidas atendendo aos mesmos objetivos de projeto previamente mencionados, respeitando os limites de operação térmica. Adicionalmente, são apresentados modelos analíticos do comportamento eletromagnético e térmico do atuador que podem servir de base para implementação da metodologia proposta, se esta for baseada em modelos analíticos, e podem futuramente ser empregados para a aplicação de otimização matemática do dispositivo. Por fim, um protótipo do dispositivo é construído de forma a validar a metodologia proposta. Com este protótipo são realizados ensaios de densidade de fluxo magnético no entreferro, tensão induzida a vazio, força estática e ensaio dinâmicos com o dispositivo instalado em uma bancada de testes de vibrações controladas desenvolvida durante o projeto. Os resultados mostram a eficácia da metodologia proposta, uma vez que os resultados experimentais mostraram boa concordância com os resultados esperados. / This work presents an innovative linear electromagnetic actuator design methodology for application in semi-active and active suspension systems. The methodology, synthesized in a flowchart, sets criteria to determine requirements such as axial force and stroke that an actuator should develop considering a vibration system with one degree of freedom with harmonic base excitation when the skyhook control method is applied. A linear moving-coil electromagnetic actuator with dual quasi-Halbach arrays of permanent magnets that presents high force density, low moving-mass, no reluctance force and low force ripple is defined as a case study. A finite element numerical parameterized model that describes the electromagnetic behavior of one pole pitch of the device is created and analyzed, considering dimensional constraints, with the design objectives defined as: high force density and low ripple of force with brushless AC drive. Based on the model of one pole pitch of the device the active volume and all dimensions are defined in order to meet the design requirements. Once the actuator dimensions are defined, based on the electromagnetic model, a numerical thermal model was constructed, which allows to evaluate the maximum applicable electric current density so that the maximum temperature at the windings is not exceeded. Furthermore, the thermal distribution gives the operating temperature of the permanent magnets, which present performance highly dependent on temperature. With the results of the thermal simulation, the electromagnetic-thermal coupling is performed by correcting permanent magnet properties and by applying a parametric-dependent effective current density. The coupled model is simulated and analyzed so that the final dimensions of the actuator can be obtained with the same design objectives previously mentioned, while respecting thermal operating limits. In addition, the work presents analytical models of the electromagnetic and thermal behavior of the actuator that can be the basis for implementation of the proposed methodology, if it is based on analytical models, and can further be used for the application of mathematical optimization of the device. Finally, a prototype was built to validate the proposed method. Measurements were carried out to assess magnetic flux density in the air gap, open-circuit induced voltage, static force and dynamic tests with the device installed in a test bench that was developed during this work. The results show the effectiveness of the proposed method since experimental results have shown good agreement with the expected results.

Atuador eletromagnético

Atuador linear

Elementos finitos

Active suspension

Analytical modeling

Design methodology

Electromagnetic actuator

Electromagnetic suspension

Linear actuator

Moving-coil actuator

Numerical modeling

Quasi-Halbach arrays

Semi-active suspension

Thermal-electromagnetic coupling

Konstruktion lehren - Wirkung einer konstruktionsmethodischen Ausbildung auf das Konstruieren bei Studenten und Konstrukteuren

Pietzcker, Frank

04 December 2004

Studenten und Konstrukteure mit verschiedener konstruktionsmethodischer Ausbildung wurden bezüglich ihres Vorgehens beim Konstruieren und ihrer Konstruktionsleistungen untersucht. Dabei zeigte sich, dass die Wirkung der Ausbildung für drei Teilleistungen (Konzepte erstellen, Konzepte bewerten, Entwürfe erstellen) verschieden ist. Für die konstruktionsmethodischen Empfehlungen für die frühen Phasen wird eine neue Konzeption vorgeschlagen. Der Einfluss kognitiver Variablen (Arbeitsgedächtnis, heuristische Kompetenz, Interferenz) wurde untersucht.

Design Problem Solving

Konstruktionsmethodik

Vorgehen beim Konstruieren

heuristische Kompetenz

komplexes Problemlösen

konstruktionsmethodische Ausbildung

Design Methodology

Design Problem Solving

problem solving

product development process

strategies of design process

working memory

ddc:150

rvk:CP 4300

Design

Heuristik

Kompetenz

Methodisches Konstruieren

Problemlösen

Using the FRDPARRC design methodology to drive innovation in the HETDEX PFIP support adjustable strut assembly

Molina, Homar

16 February 2011

This thesis provides background information on the Hobby-Eberly Telescope (HET), HET Dark Energy Experiment (HETDEX), Gough-Stewart platforms (GSP), the Prime Focus Instrument Package (PFIP) support structure, and the design methodology used to design said support structure. Each component is analyzed from the point of view of Professor Alex Slocum’s FRDPARRC design methodology. Each aspect of the design is shown to have been derived by following the steps of Slocum’s design method. Material selection, manufacturing techniques, and integration of off-the-shelf components into the support system are also discussed in reference to FRDPARRC. The assembly procedure for the PFIP structure is outlined. Finally, using specific examples from the detailed design, the FRDPARRC method itself is analyzed and its ability to drive innovation in design is evaluated. / text

HETDEX

Manufacturing

PFIP support

Stewart platform

McDonald Observatory

Hobby-Eberly telescope

HET Dark Energy Experiment

Gough-Stewart platforms

Prime Focus Instrument Package

PFIP

FRDPARRC

Strut-end subassembly

Design methodology

Towards a design methodology to support social networks of residents in inner-city apartment buildings

Foth, Marcus

January 2006

This PhD study is at the intersection of people, place and technology and pioneers innovative development approaches towards interactive social networking systems informed by community, social and urban studies and employs human-centred and participatory design methods. The project delivers a greater understanding of the potential for internet-based systems to support and facilitate social networks of urban residents and the role of those networks to foster neighbourhood identity and social capital. Departing from conventional notions that regard communities as collectives, this study builds upon more contemporary interpretations of community inherent in Castells’ and Wellman’s theories of the network society and networked individualism. The thesis challenges the view that a mere re-appropriation of applications used to support dispersed virtual communities of interest is adequate to meet the place and proximity-based design requirements that community networks in urban neighbourhoods pose. The overarching principal research aim of the study is to propose new ways of conceptualising the roles of social networks of urban residents to better inform the design of new technology facilitating urban neighbourhood developments. Addressing this aim requires a new understanding of the roles of social networks of urban residents. The study sets out to critique the implicit theories underlying technology design in this area and to propose a more appropriate theory based on recent developments in the field and empirical findings from the study. The key research questions are: 1. What theoretical model can better represent social interaction of residents in inner-city apartment buildings? 2. How can relevant research methods be adapted to take the network qualities of social interactions into account? 3. What are the implications of a new understanding of social networks for the design of technology that supports the growth of neighbourhoods? 4. What are the implications of a new understanding of social networks for an urban architecture that supports the growth of neighbourhoods? Within a framework of action research, the study follows a case study approach of three different inner-city residential apartment complexes in Brisbane. Research methods are mostly qualitative and ethnographic and include surveys, focus groups, participant observation and interviews, as well as participatory design. The study delivers innovative outcomes on three levels: 1. Theoretical innovation with an analytical translation of Wellman’s notion of networked individualism and a conceptualisation of the communicative ecology model into the context of system design that supports social networks of residents in inner-city apartment buildings; 2. Methodological innovation with the presentation of Network Action Research, an addition to the action research family which pays particular attention to the network quality of social formations in communities; 3. Empirical innovation with research findings which indicate that the key factors influencing the successful design and uptake of interactive systems to support social networks in urban neighbourhoods. They include the swarming social behaviour of urban dwellers, the dynamics of their existing communicative ecology, and the serendipitous, voluntary and place-based quality of interaction between residents on the basis of choice, like-mindedness, mutual interest and support needs. Findings are presented in three parts to audiences interested in people, technology and place. Drawing on social, urban and computer sciences, this research project delivers insights which will assist efforts to facilitate urban neighbourhood community building with new media and network ICTs. Understanding the issues and challenges as well as opportunities and strengths in forming a local meshwork of social networks will help Australians negotiate the complex web of daily choices, access a greater social safety net, and participate in the socio-cultural and socio-economic life of their city. This in turn will contribute to greater social inclusion, urban sustainability and healthier local economies.

action research

apartment buildings

communicative ecology

community informatics

community

networks

design methodology

information and communication technology

networked individualism

new media

participatory design

residential architecture

social networks

sociocultural animation

urban neighbourhoods

urban sociology

Βέλτιστος σχεδιασμός του αντιστροφέα ρεύματος Flyback για εφαρμογή του σε φωτοβολταϊκά πλαίσια εναλλασσόμενου ρεύματος

Νανάκος, Αναστάσιος

06 December 2013

Η παρούσα διδακτορική διατριβή αναφέρεται σε οικιακά Φ/Β συστήματα συνδεδεμένα στο δίκτυο χαμηλής τάσης, τα οποία αξιοποιούν την τεχνολογία των Φ/Β Πλαισίων Εναλλασσομένου Ρεύματος (Φ/Β Πλαίσια Ε.Ρ. – AC-PV Modules). Πρόκειται για Φ/Β διατάξεις μικρής ισχύος (έως 300W), οι οποίες δημιουργούνται από την ενσωμάτωση ενός μόνο Φ/Β πλαισίου και ενός μετατροπέα (ενός η πολλών σταδίων) συνεχούς τάσης σε μονοφασική εναλλασσόμενη τάση, σε μια αυτοτελή ηλεκτρονική διάταξη. Για το λόγο αυτό ονομάζονται και Φ/Β πλαίσια με ενσωματωμένο μετατροπέα (Module Integrated Converters, MIC). Στα συστήματα αυτά οι απαιτήσεις για επίτευξη υψηλού βαθμού απόδοσης, για την καλύτερη εκμετάλλευση της παρεχόμενης ηλιακής ενέργειας, καθώς και ρεύματος ημιτονοειδούς μορφής στην έξοδο είναι αδιαμφισβήτητες. Βασικός σκοπός της παρούσας διατριβής είναι η συμβολή της στον τομέα των Φ/Β μονάδων διεσπαρμένης παραγωγής και επικεντρώνεται στην ενδελεχή ανάλυση, στη βελτιστοποίηση της λειτουργικής συμπεριφοράς, στον υπολογισμό των απωλειών στα στοιχεία του μετατροπέα, στην παραμετροποίηση και τελικά στο βέλτιστο σχεδιασμό ενός αντιστροφέα ρεύματος τύπου Flybcak (Flyback Current Source Inverter – Flyback CSI). Οι κύριοι στόχοι που έπρεπε να εκπληρωθούν για την ολοκλήρωση της παρούσας διατριβής ήταν:  Η ενδελεχής ανάλυση της λειτουργίας του αντιστροφέα για δύο διαφορετικές στρατηγικές ελέγχου που εφαρμόζονται σε αυτόν.  Ο κατά το δυνατόν ακριβέστερος υπολογισμός των απωλειών στα στοιχεία του Flyback CSI, καθώς και η παραμετροποίηση των σχέσεων αυτών.  Ο βέλτιστος σχεδιασμός του Flyback CSI, ο οποίος βασίζεται στη διατύπωση της μεγιστοποίησης του σταθμισμένου βαθμού απόδοσης ως πρόβλημα βελτιστοποίησης.  Η υλοποίηση του ελέγχου της λειτουργίας του μετατροπέα μέσω ψηφιακού μικροελεγκτή, καταργώντας τον ήδη υφιστάμενο αναλογικό έλεγχο. Αρχικά η μελέτη επικεντρώνεται σε μία πρώτη τεχνική ελέγχου, η οποία ωθεί τον μετατροπέα να λειτουργεί στην περιοχή της ασυνεχούς αγωγής (Discontinuous Conduction Mode, DCM). Στη συνέχεια προτείνεται μία δεύτερη τεχνική ελέγχου η οποία, αφ' ενός μεν αναγκάζει το μετατροπέα να λειτουργεί στο όριο συνεχούς και ασυνεχούς αγωγής (Boundary between Continuous and Discontinuous Conduction Mode, BCM), αφ' ετέρου δε παρέχει καθαρά ημιτονοειδές ρεύμα στην έξοδο. Με την προτεινόμενη νέα τεχνική ελέγχου, που ονομάσθηκε i-BCM (improved BCM) και αποτελεί βελτίωση της υπάρχουσας στη βιβλιογραφία τεχνικής ελέγχου BCM, βελτιώνεται σημαντικά ο συντελεστής ισχύος στην έξοδο του αντιστροφέα, παρέχοντας στο δίκτυο καθαρά ημιτονοειδές ρεύμα. Οι δύο διαφορετικές στρατηγικές ελέγχου διαμορφώνουν διαφορετικές κυκλωματικές συνθήκες. Για τις δύο περιπτώσεις αναπτύσσονται αναλυτικές εκφράσεις τόσο για τη μέση, όσο και για την ενεργό τιμή των ρευμάτων που διαρρέουν όλα τα στοιχεία του μετατροπέα (ημιαγωγικά στοιχεία, Μ/Σ κλπ). Επιπρόσθετα, εξάγονται κριτήρια για τα ασφαλή όρια λειτουργίας του μετατροπέα με γνώμονα την καταπόνηση των ημιαγωγικών στοιχείων ισχύος από υψηλές τιμές τάσης και ρεύματος. Ιδιαίτερο βάρος δίνεται στον υπολογισμό της διακύμανσης της τάσης του πυκνωτή του φίλτρου εξόδου, η οποία αναπτύσσεται και πάνω στα ημιαγωγικά στοιχεία του μετατροπέα, επηρεάζοντας την επιλογή τους. Στην συνέχεια, προσδιορίζονται μέσω αναλυτικών μαθηματικών σχέσεων οι απώλειες αγωγής και οι διακοπτικές απώλειες των ημιαγωγικών στοιχείων και προσεγγίζονται, με ιδιαίτερη λεπτομέρεια, οι απώλειες του μετασχηματιστή (τυλιγμάτων και πυρήνα) και για τις δύο προαναφερθείσες στρατηγικές ελέγχου, δεδομένου ότι η διακοπτική συχνότητα λειτουργίας του μετατροπέα είναι υψηλή. Για το λόγο αυτό απαιτείται εις βάθος μελέτη της υπάρχουσας βιβλιογραφίας, επιλογή ή επινόηση των κατάλληλων μοντέλων απωλειών σε ένα Μ/Σ (πυρήνα και χαλκού) και προσήκουσα προσαρμογή αυτών στις κυκλωματικές συνθήκες του αντιστροφέα Flyback. Παράλληλα με την ανάλυση των απωλειών πραγματοποιείται και η παραμετροποίηση του συστήματος. Η διαδικασία αυτή στηρίζεται στη διαχείριση των εξισώσεων κατά τέτοιο τρόπο ώστε να προσδιορίζονται όλες οι μεταβλητές και οι σταθερές του μετατροπέα, καθώς και οι παράμετροι από τις οποίες εξαρτώνται οι απώλειες, με τον απλούστερο δυνατό τρόπο. Συνεπώς, έχει δοθεί ιδιαίτερη έμφαση στην διαχείριση των αναλυτικών σχέσεων ώστε οι απώλειες, χωρίς έκπτωση στην ακρίβεια, να εξαρτώνται από τον ελάχιστο δυνατό αριθμό παραμέτρων. Με αυτό τον τρόπο η μελέτη είναι πλήρης αλλά περιορίζεται η πολυπλοκότητα, με αποτέλεσμα να προκύπτουν μόνο τέσσερις ανεξάρτητες σχεδιαστικές μεταβλητές. Στο επόμενο στάδιο, πραγματοποιείται ο βέλτιστος σχεδιασμός του Flyback CSI, ο οποίος βασίζεται στη διατύπωση της μεγιστοποίησης του σταθμισμένου βαθμού απόδοσης ως πρόβλημα βελτιστοποίησης. Αυτό, πρακτικά, σημαίνει τον προσδιορισμό της αντικειμενικής συνάρτησης (objective ή cost function), των σχεδιαστικών μεταβλητών και σταθερών, των περιοριστικών συνθηκών και τον ορισμό του πεδίου τιμών αυτών. Ο σταθμισμένος βαθμός απόδοσης αποτελεί την αντικειμενική συνάρτηση, ενώ οι προδιαγραφές εισόδου και εξόδου του μετατροπέα αποτελούν τις σχεδιαστικές σταθερές.. Με τη χρήση μίας στοχαστικής μεθόδου βελτιστοποίησης, η οποία αναδείχτηκε ως η πιο κατάλληλη έπειτα από εκτεταμένη βιβλιογραφική αναζήτηση, προσδιορίζονται οι τιμές των τεσσάρων σχεδιαστικών μεταβλητών και επιτυγχάνεται ο μέγιστος δυνατός σταθμισμένος βαθμός απόδοσης. Η επίτευξη του στόχου ολοκληρώνεται με την ανάπτυξη ενός νέου επαναληπτικού αλγορίθμου, με τον οποίο, βάσει των εξισώσεων των απωλειών, επιτυγχάνεται ο βέλτιστος σχεδιασμός του Flyback CSI και για τις δύο διαφορετικές τεχνικές ελέγχου. Επιπροσθέτως, υλοποιείται ο έλεγχος της λειτουργίας του μετατροπέα μέσω ψηφιακού μικροελεγκτή, καταργώντας τον ήδη υφιστάμενο αναλογικό έλεγχο. Η αλλαγή της φιλοσοφίας υλοποίησης του ελέγχου προσφέρει μεγαλύτερη ευελιξία και ανεξάντλητες δυνατότητες στην κατάστρωση και υιοθέτηση διαφορετικών στρατηγικών ελέγχου. Ιδιαίτερα, κατά τη λειτουργία στο όριο μεταξύ συνεχούς και ασυνεχούς αγωγής (i-BCM), με κατάλληλο προγραμματισμό του μικροελεγκτή εξαλείφεται η ανάγκη για μέτρηση των ρευμάτων στα τυλίγματα του μετασχηματιστή. Ο μικροελεγκτής που χρησιμοποιείται είναι ο dspic30F4011 της εταιρείας Microchip ο οποίος διαθέτει μεγάλη υπολογιστική ικανότητα και μία πληθώρα περιφερειακών που επιτρέπουν αυτοματοποίηση κάποιων λειτουργιών, όπως η διαδικασία σύνδεσης και αποσύνδεσης με το δίκτυο και η δυνατότητα ενσωμάτωσης της μονάδας ανίχνευσης του μέγιστου σημείου ισχύος (M.P.P.T) της Φ/Β γεννήτριας στην ίδια ψηφιακή μονάδα. Τέλος, υλοποιήθηκαν εργαστηριακά πρωτότυπα με βάση τις βέλτιστες παραμέτρους που υπολογίσθηκαν σε κάθε περίπτωση σύμφωνα την προτεινόμενη μέθοδο βελτιστοποίησης και ακολούθησε πειραματική επιβεβαίωση με χρήση ενός αναλυτή ισχύος υψηλής ακρίβειας, για την επιβεβαίωση των θεωρητικών προσεγγίσεων. Επιπλέον, μελετήθηκε η ευεργετική επίδραση της συνδυαστικής χρήσης των δύο τεχνικών ελέγχου στην πυκνότητα ισχύος / This thesis pertains to domestic on-grid PV systems that utilize the AC-PV Modules technology. These low power PV topologies (up to 300W) are implemented by integrating one PV Module and a single phase inverter (one or multi stage), in one independent electronic apparatus. For this reason they are called Module Integrated Converters (MIC). The most important requirements for these systems are the higher possible efficiency - in order to take advantage of the supplied solar energy – and the pure sinusoidal output current. The main purpose of this thesis is to contribute to the field of the dispersed PV power generation. Thus, it focuses on the thorough analysis, the behaviour optimization, the components losses estimation, the parameterization and finally the optimal design of Flyback current source inverter (Flyback CSI). The main objectives fulfilled in this thesis are: • The detailed analysis of the inverter behaviour for two different semiconductor control strategies. • The precise losses calculation of all the components of the Flyback CSI. • The optimal design of the Flyback CSI, which is based on maximizing the weighted efficiency. • The implementation of the semiconductor control via a digital microcontroller, eliminating the existing analogue control. Initially, the study focuses on a first control technique that forces the inverter to function in Discontinuous Conduction Mode (DCM). On the other hand, a second control technique that forces the inverter to function on the Boundary between Continuous and Discontinuous Mode (BCM) is proposed. This new control technique is named i-BCM (improved BCM) and it is an improved version of the BCM control technique found in the literature. This new control scheme significantly improves the power factor of the inverter output. The inverter injects pure sinusoidal current to the grid. The two different control strategies form different circuit conditions. Analytical expressions for the average and the rms value of the current, flowing through the components (semiconductors, transformers e.t.c), for both cases are developed. In addition, new operating boundaries of the semiconductors for the safe operation of the inverter based on the analysis of the voltage and current that stresses the semiconductors, are proposed. Special attention is given on the calculation of the voltage deviation on the output filter capacitor. This voltage deviation is caused by the switching operation of the inverter and affects the selection of the semiconductors and the voltage level that can handle. Furthermore, the conduction losses and the switching losses of the semiconductors are determined through analytical, mathematical equations. Because of the inverter high switching frequency, the transformer losses (copper and core), are calculated with special attention to detail. For this reason, an in depth examination of the existing literature takes place that leads to the selection of the appropriate core and copper loss models. The models are adequately adjusted to the circuit conditions of the Flyback inverter topology. The system is parameterized along with the losses analysis. All the equations are manipulated in such a way that simplifies the determination of all the variables and all the constants of the inverter and the loss dependent parameters. Consequently, special emphasis is given to the manipulation of the analytical equations, without affecting the accuracy, in order to express the losses using the minimum number of independent variables. Therefore, the study is complete but the complexity is eliminated and the independent design variables are only four. The optimization problem is the maximization of the weighted efficiency. The optimal design of the Flyback CSI is implemented based on this formulation. As a next step, the objective (or cost) function, the design variables and constants, the constraints and their range need to be defined. The weighted efficiency is the objective function whereas the input and the output specifications of the inverter are the design constants. After an extensive literature research, a stochastic optimization method is chosen as the most appropriate to determine the values of the four design variables in order to achieve the highest weighted efficiency. A new iterative algorithm, which uses the losses equations, is developed to achieve the optimal design of the Flyback CSI for both control strategies. Moreover, the control of the inverter is implemented via a digital microcontroller, eliminating the existing analogue control. This changes the way of controlling the inverter and offers flexibility and limitless possibilities in implementing and adopting various control strategies. Specifically, under the i-BCM control scheme, the need for measuring the current of the transformer windings is eliminated by using an appropriate algorithm. The microcontroller used in this research is dspic30F4011 developed by Microchip. Its good computational capacity and the variety of peripherals enable the automation of some functions such as connection and disconnection from the grid and the integration of the maximum power point tracking (M.P.P.T.) on the same digital unit. Finally, laboratory prototypes are implemented, based on the optimal parameters calculated for every case, using the proposed optimization method. The experimental procedure confirmed the theoretical approximations. A high precision power analyser was used. Furthermore, the beneficial effect of the combined use of the two control power techniques on the power density is also studied.

Ηλεκτρονικά ισχύος

Αντιστροφείς

Μικροαντιστροφείς

Βελτιστοποίηση

Απώλειες

621.312 44

Power electronics

Inverters

Microinverters

Weighted efficiency

Optimization

Photovoltaic systems

AC-PV modules

Losses

Design methodology

DC/AC converter