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Σχεδίαση και υλοποίηση θέσεως εργασίας ενός εργαστηρίου DSPs από απόσταση για επεξεργασία εικόνας / Design and impementation of a workstation of a remote lab on DSPs for image processingΜαρκόνης, Δημήτριος 03 July 2009 (has links)
Στη παρούσα εργασία περιγράφεται η σχεδίαση και η υλοποίηση μιας θέσεως εργασίας (workstation) ενός εργαστηρίου DSPs από απόσταση που θα εξειδικεύεται στην επεξεργασία εικόνας. / This master thesis describes the design and implementation of a Workstation of a DSPs Remote Lab, specialized in image processing.
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Using Collaborative Technologies in Remote Lab Delivery Systems for Topics in AutomationAshby, Joe Ed 01 January 2009 (has links)
Lab exercises are a pedagogically essential component of engineering and technology education. Distance education remote labs are being developed which enable students to access lab facilities via the Internet. Collaboration, students working in teams, enhances learning activity through the development of communication skills, sharing observations and problem solving. Web meeting communication tools are currently used in remote labs.
The problem identified for investigation was that no standards of practice or paradigms exist to guide remote lab designers in the selection of collaboration tools that best support learning achievement. The goal of this work was to add to the body of knowledge involving the selection and use of remote lab collaboration tools. Experimental research was conducted where the participants were randomly assigned to three communication treatments and learning achievement was measured via assessments at the completion of each of six remote lab based lessons. Quantitative instruments used for assessing learning achievement were implemented, along with a survey to correlate user preference with collaboration treatments.
A total of 53 undergraduate technology students worked in two-person teams, where each team was assigned one of the treatments, namely (a) text messaging chat, (b) voice chat, or (c) webcam video with voice chat. Each had little experience with the subject matter involving automation, but possessed the necessary technical background.
Analysis of the assessment score data included mean and standard deviation, confirmation of the homogeneity of variance, a one-way ANOVA test and post hoc comparisons. The quantitative and qualitative data indicated that text messaging chat negatively impacted learning achievement and that text messaging chat was not preferred. The data also suggested that the subjects were equally divided on preference to voice chat verses webcam video with voice chat. To the end of designing collaborative communication tools for remote labs involving automation equipment, the results of this work points to making voice chat the default method of communication; but the webcam video with voice chat option should be included.
Standards are only beginning to be developed for the design of remote lab systems. Research, design and innovation involving collaboration and presence should be included.
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Remote Laboratory Web-Application Design and DevelopmentGhassemi Rezaei, Amin, Fattahi, Saeid January 2015 (has links)
The basis of this thesis is a deep featured analysis and a workflow of Web Application Development, attaining to a Remote Laboratory Platform based on .Net Web Application. This thesis has been written for the Bachelor degree in Electrical Engineering held at Blekinge Tenaska Högskola Karlskrona, Sweden.While the main goal is developing a Remote Laboratory access platform. Main objective parameter considerations are, Web Applications interface Design and its programming Methods. Although a feasible deployment brings other technical concerns. Such as Web Server Structures, Database Systems and Security Implementations. All mentioned aspects have been deeply researched and their statistical analysis are based upon world’s leading technology research companies.The thesis conclusion is a neat guide for developing a .Net Web Application in comparison to its rivals and the prototype of the Remote Lab Web Application itself.Targets of the project are Universities, companies and any other organization which are enthusiastic to implement remote access to their laboratories over internet, alongside to any individual whom interested in web application development as the project provides a coherent guide.
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Laboratório remoto de qualidade da energia elétrica em ambiente virtual /Ortega, Alcides. January 2011 (has links)
Orientador: Júlio Borges de Souza / Banca: Luís Carlos Origa de Oliveira / Banca: Aguinaldo Lenine Alves / Resumo: Este trabalho apresenta um portal de educação à distância que integra várias funcionalidades direcionadas ao aperfeiçoamento do ensino de Engenharia Elétrica. Possui ambiente para videoconferência, acesso a webcam robótica e demais recursos tradicionalmente utilizados em aplicações similares bastante difundidas. Destaca-se a concepção e implantação de um Laboratório de Qualidade de Energia para acesso remoto via Internet, LRQEE. O Laboratório dispõe de vários recursos visando-se flexibilidade e agilidade na integração entre diferentes instituições de ensino. Contribui, assim, para a evolução do aprendizado e racionalização de recursos financeiros, evitando-se duplicidade de equipamentos, sobretudo aqueles mais específicos e de maior custo. Permite acesso a diversos equipamentos, como fontes harmônicas programáveis, sistemas de aquisição de dados, sensores e configuração e acionamento de cargas elétricas. Todos os procedimentos são realizados remotamente sob uma interface gráfica amigável constituindo-se, assim, um importante instrumento para apoio ao ensino colaborativo, com práticas experimentais realizadas à distância, visando consolidar o aprendizado / Abstract: This work presents a distance learning portal that integrates several functionalities addressed to the improvement of the teaching of Electric Engineering. It possesses a video conference environment, access to a robotics webcam and other resources traditionally used in widespread similar applications. It can be stands out the conception and implantation of a Laboratory of Quality of Energy for remote access through Internet, LRQEE. The Laboratory has several resources aiming the flexibility and agility in the integration among different teaching institutions. It contributes, therefore, for the evolution of the learning and rationalization of financial resources, avoiding duplicity of equipments, mainly the more specific ones and of greater cost. It allows access to several equipments, such as programmable harmonic sources, data acquisition systems, sensors and configuration and electric loads drive. All of the procedures are carried out remotely under a friendly graphic interface performing an important instrument for supporting the teaching, seeking to consolidate the learning / Mestre
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Laboratório remoto de qualidade da energia elétrica em ambiente virtualOrtega, Alcides [UNESP] 24 May 2011 (has links) (PDF)
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ortega_a_me_ilha.pdf: 6144730 bytes, checksum: 1624729d424ab4361470744afb25a05e (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Este trabalho apresenta um portal de educação à distância que integra várias funcionalidades direcionadas ao aperfeiçoamento do ensino de Engenharia Elétrica. Possui ambiente para videoconferência, acesso a webcam robótica e demais recursos tradicionalmente utilizados em aplicações similares bastante difundidas. Destaca-se a concepção e implantação de um Laboratório de Qualidade de Energia para acesso remoto via Internet, LRQEE. O Laboratório dispõe de vários recursos visando-se flexibilidade e agilidade na integração entre diferentes instituições de ensino. Contribui, assim, para a evolução do aprendizado e racionalização de recursos financeiros, evitando-se duplicidade de equipamentos, sobretudo aqueles mais específicos e de maior custo. Permite acesso a diversos equipamentos, como fontes harmônicas programáveis, sistemas de aquisição de dados, sensores e configuração e acionamento de cargas elétricas. Todos os procedimentos são realizados remotamente sob uma interface gráfica amigável constituindo-se, assim, um importante instrumento para apoio ao ensino colaborativo, com práticas experimentais realizadas à distância, visando consolidar o aprendizado / This work presents a distance learning portal that integrates several functionalities addressed to the improvement of the teaching of Electric Engineering. It possesses a video conference environment, access to a robotics webcam and other resources traditionally used in widespread similar applications. It can be stands out the conception and implantation of a Laboratory of Quality of Energy for remote access through Internet, LRQEE. The Laboratory has several resources aiming the flexibility and agility in the integration among different teaching institutions. It contributes, therefore, for the evolution of the learning and rationalization of financial resources, avoiding duplicity of equipments, mainly the more specific ones and of greater cost. It allows access to several equipments, such as programmable harmonic sources, data acquisition systems, sensors and configuration and electric loads drive. All of the procedures are carried out remotely under a friendly graphic interface performing an important instrument for supporting the teaching, seeking to consolidate the learning
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Proposta para uma abordagem de Ambiente Remoto para estudo de superposição de cores / A proposal for a aproach of Remote Environment to study of color superpositionAlmeida Junior, José Neres de 01 December 2016 (has links)
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Previous issue date: 2016-12-01 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / This dissertation aims to present the Remote Automated Spectrophotometry project, an experiment
executed remotely, within the structure and context of the use of a Remote Laboratory with multipurpose
applications, that is, a remote sensing laboratory that is developed in PUC / SP, called
Webduino, the WebLab of PUC-SP. This experiment presents interdisciplinary characteristics, in
the sense of mixing physics contents with areas of Biology, Arts and Photography, given the study
of topics such as colorimetric synthesis, color patterns, physiological diseases associated with
colors, as well as topics of Physics, referring to the development of the presented experiment, such
as diffraction, constructive interference, among others, all presented in a way that is
understandable to the target public, that is, high school students and also the common public. In
this case, the experiment in question is defined in the study of the chromatic synthesis, based on
the spectrometry, be the theoretical part and operation, or in obtaining results of the different
intensities of irradiance for the different colors, diffracted by the diffraction grating, which form the
original color, coming from LED lamp. To this purpose, this study, and the implementation of the
experiment, were carried out with a prototype construction approach, based on the idea of the
development methodology, emphasized by Van den Ayken, aiming at a later implementation and
verification, with tests of functionality and adequacy to possible user needs, for use in the future
project of the Remote Laboratory and verification of possible improvements to the intended target
public. In addition, we intend that the methodology behind the environment in which the remote
laboratory is located, in the future, will be characterized by a inquiry based learning (IBL)
methodology (DIKKE et al, 2015); (DE JONG et al, 2013); (ZACHARIAS et al., 2015), with the
contents of the remote environment being oriented towards an idea that guides the user to the
understanding of the subject, through scientific method (conceptualization, theory, hypothesis,
experiment, conclusion), for the future PhD project . Thus, initially research was carried out to
survey the state of art and to survey the theoretical basis of the proposed theme, and according to
current needs, the prototype of the experiment was assembled, as well as the adaptation of the
network architecture structure created in the past years, to the suitability of the laboratory with
remote access, within an environment that is compatible with the intentions of the experiment,
aiming at exploring the topics related to the study of colors, especially regarding chromatic
synthesis, for this experiment, as well as the possible requirements of professionals in the area, for
future projects. Also, in the environment elaborated, the remote laboratory intends to develop
didactic resources that allow to use the Arduino board applied to Science Teaching, particularly, in
Physics Teaching, in High School. The development platform selected to manage the experiments
is WebLab-Deusto, for its intelligibility, functionality and security. Due to the structural issues of a
Remote Laboratory, and as pointed out in the researched literature (LIMA et al., 2013), (SILVA,
2007), (NETO, 2012), it is also necessary that the development and the access platform is inserted
in the Remote environment of the experiment, affording to parameters that allow the user to learn
the concepts studied and the experiences that he will control and collect the data for later analysis.
In order to do so, it was re-elaborated and readapted, besides the experiment that specifies the
remote laboratory, the environment to contemplate the requirements for the teaching of Sciences,
as well as for the learning of the physical concepts of the experience that the user performs / Esta dissertação visa apresentar o projeto Espectrofotometria Remota Automatizada, um
experimento executado remotamente, dentro da estrutura e contexto do uso de um Laboratório
Remoto com aplicações variadas, isto é, um laboratório de sensoriamento remoto que se
desenvolve na PUC/SP, denominado Webduino, o WebLab da PUC-SP. Este experimento
apresenta características interdisciplinares, no sentido de mesclar conteúdos de Física com áreas
da Biologia, Artes e Fotografia, dado o estudo de temas como síntese colorimétrica, padrões de
cores, deficiências cromáticas, além de tópicos de Física, referentes ao desenvolvimento do
experimento apresentado, como a difração, interferência construtiva, entre outros, todos eles
apresentados de forma que seja compreensível ao público-alvo, ou seja, alunos do ensino médio
e também o público leigo. No caso, o experimento em questão, se define no estudo da síntese
cromática, com base na espectrometria, seja a parte teórica e funcionamento, seja na obtenção
de resultados das diferentes intensidades de irradiância para as diferentes cores, difratadas pela
rede de difração, e que formam a cor original, vinda da lâmpada de LED. Para tanto, este estudo,
e a implementação do experimento, foram realizados com uma abordagem de construção de
protótipo, com base na ideia da metodologia de desenvolvimento, ressaltada por Van den Ayken,
visando uma implementação posterior e verificação, com testes de funcionalidade e adequação a
possíveis necessidades de usuários, para utilização em projeto futuro do Laboratório Remoto e
verificação de possíveis melhorias frente ao público-alvo pretendido. Além disso, pretendemos que
a metodologia por trás do ambiente em que o laboratório remoto se encontra, futuramente se
caracterize por uma metodologia de aprendizagem baseada em investigação (DIKKE et al, 2015);
(DE JONG et al, 2013); (ZACHARIAS et al, 2015), com os conteúdos do ambiente remoto se
orientando para uma ideia que guie o usuário para a compreensão do tema, via método científico
(conceitualização, teoria, hipótese, experimento, conclusão), para o projeto futuro de doutorado.
Sendo assim, inicialmente foram realizadas pesquisas de levantamento do estado da arte e do
levantamento da fundamentação teórica do tema proposto, e conforme as necessidades atuais,
procedeu-se à montagem do protótipo do experimento, bem como a adaptação da estrutura de
arquitetura de rede criada para a adequação do laboratório com acesso remoto, dentro de um
ambiente que seja condizente com as necessidades do experimento, visando exploração dos
tópicos relacionados ao estudo das cores, principalmente no que se refere à síntese cromática,
para este experimento, bem como à possíveis necessidade pedagógicas dos profissionais da área,
esta última para projeto futuro. Ainda, no ambiente elaborado, o laboratório remoto pretende
desenvolver recursos didáticos que permitam utilizar a placa Arduino aplicada ao Ensino de
Ciências, em particular no Ensino de Física, no Ensino Médio. A plataforma de desenvolvimento
selecionada para gerenciar os experimentos é o WebLab-Deusto, por sua inteligibilidade,
funcionalidade e segurança. Devido às questões estruturais de um Laboratório Remoto, e como
apontado na literatura pesquisada (LIMA et. al., 2013), (SILVA, 2007), (NETO, 2012), também é
necessário que a plataforma de desenvolvimento e acionamento esteja inserida no ambiente
remoto do experimento, conforme parâmetros que possibilitem ao usuário a aprendizagem dos
conceitos estudados e das experiências que ele venha a controlar e coletar os dados para posterior
análise. Para tanto, foi reelaborado e readaptado, além do experimento que especifica o
laboratório remoto, o ambiente para contemplar as necessidades para o ensino de Ciências, bem
como para a aprendizagem dos conceitos físicos, da experiência que o usuário realiza
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Development and Implementation of an Advanced Remotely Controlled Vibration LaboratorySharafi, Amir January 2015 (has links)
Term of remote-lab is certain types of laboratories which practical experiments are directedfrom a separate area by remote controller devices. This study is part of developing andupgrading advanced vibration remote laboratory. In the new remote lab, users have theability to measure the dynamic characteristics of the test object similar to the current existingremote lab. But in addition to current existing remote lab, they are capable to modifydynamic properties of the test object remotely by attaching vibration test instruments; such asa block of mass, spring-mass or non-linear spring. Doing several accurate experimental testsremotely on the test object are the toughest issues we faced as designers. In creating anddeveloping of this remote-lab, number of different approaches was adopted for producingwell-defined tests. Also, instead of implementing routine devices and techniques for regularvibration laboratories, the new prototypes were designed by finite elements method (FEM)and LABVIEW. For instance, the desirable test object, the attachment mechanism, usefulapplications, and proper software for managing via internet were prepared.
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