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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Development of a Cost-Effective and Consumable-Free Interface for Comprehensive Two-Dimensional Gas Chromatography (GC×GC)

Panic, Ognjen 04 May 2007 (has links)
The biggest limitation to conventional gas chromatography (GC) is limited peak capacity, making the analysis of complex mixtures a difficult or even impossible task. Comprehensive two-dimensional gas chromatography (GC×GC) significantly increases peak capacity and resolution, improves sensitivity and generates structured 3D chromatograms. This is achieved by connecting two columns coated with different stationary phases through a special interface (modulator). The interface samples the first column effluent and periodically injects fractions of this material, as narrow injection pulses, onto the second column for further separation. Commercial instruments achieve this with cryogenic agents. Since this expensive approach permits only in-laboratory analysis, the development of simple, economical and field-capable GC×GC systems is in demand. This report summarizes the fundamentals governing GC×GC separations and a brief history of technological advances in the field. It also documents the construction of a simple interface, devoid of moving parts and cryogenic consumables, and hence highly suitable for field analysis and monitoring applications. Evaluation of the interface suggests on-par performance with more complicated cryogenic modulators. GC×GC separations of technical mixtures of fatty acid methyl esters (FAMEs), common environmental pollutants (EPA 8270), polychlorinated biphenyls (PCBs), pesticides (toxaphene), as well as selected essential oils and major distillation fractions of crude oil indicate very good performance. Most notably, the interface prototype was applied for the first ever time-resolved on-site analysis of the semivolatile organic fraction of urban air particulate matter (PM2.5).
2

Development of a Cost-Effective and Consumable-Free Interface for Comprehensive Two-Dimensional Gas Chromatography (GC×GC)

Panic, Ognjen 04 May 2007 (has links)
The biggest limitation to conventional gas chromatography (GC) is limited peak capacity, making the analysis of complex mixtures a difficult or even impossible task. Comprehensive two-dimensional gas chromatography (GC×GC) significantly increases peak capacity and resolution, improves sensitivity and generates structured 3D chromatograms. This is achieved by connecting two columns coated with different stationary phases through a special interface (modulator). The interface samples the first column effluent and periodically injects fractions of this material, as narrow injection pulses, onto the second column for further separation. Commercial instruments achieve this with cryogenic agents. Since this expensive approach permits only in-laboratory analysis, the development of simple, economical and field-capable GC×GC systems is in demand. This report summarizes the fundamentals governing GC×GC separations and a brief history of technological advances in the field. It also documents the construction of a simple interface, devoid of moving parts and cryogenic consumables, and hence highly suitable for field analysis and monitoring applications. Evaluation of the interface suggests on-par performance with more complicated cryogenic modulators. GC×GC separations of technical mixtures of fatty acid methyl esters (FAMEs), common environmental pollutants (EPA 8270), polychlorinated biphenyls (PCBs), pesticides (toxaphene), as well as selected essential oils and major distillation fractions of crude oil indicate very good performance. Most notably, the interface prototype was applied for the first ever time-resolved on-site analysis of the semivolatile organic fraction of urban air particulate matter (PM2.5).
3

Evaluation of HMI Development for Embedded System Control / Utvärdering av HMI utveckling för inbygda system

Andersson, Linda January 2014 (has links)
Context:The interface development is increasing in complexity and applications with a lot of functionalities that are reliable, understandable and easy to use have to be developed. To be able to compete, the time-to-market has to be short and cost effective. The development process is important and there are a lot of aspects that can be improved. The needs of the development and the knowledge among the developers are key factors. Here code reuse, standardization and the usability of the development tool plays an important role which could have a lot of positive impact on the development process and the quality of the final product. Objectives: A framework for describing important properties for HMI development tools is presented. A representative collection of two development tools are selected, described and based on the experiences from the case study its applicability is mapped to the evaluation framework. Methods: Interviews were made with HMI developers to get information from the field. Following that, a case study of two different development tools were made to highlight the pros and cons of each tool. Results: The properties presented in the evaluation framework are that the toolkit should be open for multiple platforms, accessible for the developer, it should support custom templates, require non-extensive coding knowledge and be reusable. The evaluated frameworks shows that it is hard to meet all the demands. Conclusions: To find a well suited development toolkit is not an easy task. The choice should be made depending on the needs of the HMI applications and the available development resources. / Sammanhang: Human-Machine-Interface (HMI) utvecklingen ökar i komplexitet och behovet av att snabbt producera funktionella, intuitiva och lättanvända applikationer ökar. Det finns flera aspekter som kan öka effektiviteten av utvecklingen och det är viktigt att veta vilka behov som ställs på applikationerna och vilka begränsningar som finns bland utvecklarna. Återanvändning av kod, standardisering och hur användarvänligt utvecklingsverktyget är är viktiga faktorer som påverkar utveckling och slutproduktens kvalité. Mål: Att jämföra olika HMI utvecklingsverktyg baserat på olika kriterier som, efter intervjuer, visade sig var viktiga. Två representativa utvecklingsverktyg har valts för utvärderingen. Metod: Intervjuer hölls för att höra om erfarenheter från HMI-utveckling. Efter det så gjordes en fall studie av två olika utvecklingsverktyg för att utvärdera deras för och nackdelar. Resultat: Intervjuerna resulterade i att flera viktiga kategorier kunde tas fram. De visade att utvecklingsverktyget bör kunna användas för att utveckla applikationer för flera plattformar, vara lättillgängligt för utvecklare, tillåta egna mallar och designer, inte kräva mycket programmering och att komponenter ska kunna återanvändas. Fallstudien visade att det är svårt att till fullo uppfylla alla krav. Slutsats: Det går inte att hitta ett utvecklings verktyg som är bäst i alla situationer. Det är därför viktigt att man tar hänsyn till vad man vill utveckla och vilken kunskap som finns tillgänglig och väljer ett utvecklingsverktyg som passar behoven.
4

Expressing Interactivity with States and Constraints

Oney, Stephen William-Lucas 01 April 2015 (has links)
A Graphical User Interface (GUI) is defined by its appearance and its behavior. A GUI’s behavior determines how it reacts to user and system events such as mouse, keyboard, or touchscreen presses, or changes to an underlying data model. Although many tools are effective in enabling designers to specify a GUI’s appearance, defining a custom behavior is difficult and error-prone. Many of the difficulties developers face in defining GUI behaviors are the result of their reactive nature. The order in which GUI code is executed depends upon the order in which it receives external inputs. Most widely used user interface programming frameworks use an event-callback model, where developers define GUI behavior by defining callbacks—sequences of low-level actions—to take in reaction to events. However, the event-callback model for user-interface development has several problems, many of which have been identified long before I started work on this dissertation. First, it is disorganized: the location and order of event-callback code often has little correspondence with the order in which it will be executed. Second, it divides GUI code in a way that requires writing interdependent code to keep the interface in a consistent state. This is because maintaining a consistent state requires referencing and modifying the same state variables across multiple different callbacks, which are often distributed throughout the code. In this dissertation, I will introduce a new framework for defining GUI behavior, called the stateconstraint framework. This framework combines constraints—which allow developers to define relationships among interface elements that are automatically maintained by the system—and state machines—which track the status of an interface. In the state-constraint framework, developers write GUI behavior by defining constraints that are enforced when the interface is in specific states. This framework allows developers to specify more nuanced constraints and allows the GUI’s appearance and behavior to vary by state. I created two tools using the state-constraint framework: a library for Web developers (ConstraintJS) and an interactive graphical language (InterState). ConstraintJS provides constraints that can be used both to control content and control display, and integrates these constraints with the three Web languages—HTML, CSS, and JavaScript. ConstraintJS is designed to take advantage of the declarative syntaxes of HTML and CSS: It allows the majority of an interactive behavior to be expressed concisely in HTML and CSS, rather than requiring the programmer to write large amounts of JavaScript. InterState introduces a visual notation and live editor to clearly represent how states and constraints combine to define GUI behavior. An evaluation of InterState showed that its computational model, visual notation, and editor were effective in allowing developers to define GUI behavior compared to conventional event-callback code. InterState also introduces extensions to the state-constraint framework to allow developers to easily re-use behaviors and primitives for authoring multi-touch gestures.
5

Uma linguagem de definição e manipulação de interfaces com o usuário

Schubert, Edson Gellert January 1991 (has links)
Uma interface com o usuário é composta por duas "vias" de comunicação, uma que vai do usuário até o sistema e outra que vai do sistema até o usuário. Cada uma destas "vias" possui um formalismo que define a comunicação associado. Neste trabalho, estes formalismos são descritos com uma gramática de atributos. Esta gramática foi expandida de forma a permitir a definição dos elementos que compõe a interface do usuário, e da estrutura que irá controlar a seqüência de execução das tarefas oferecidas pelos sistemas de aplicação. Ao longo do trabalho são discutidas algumas técnicas de descrição do formalismo de comunicação entre interface e sistema, são abordados os estilos de interação e apresentada as expansões aplicadas sobre gramáticas de atributos. Um exemplo auxilia a compreensão do uso da linguagem proposta, e um protótipo permite a validação das definições. / A user interface is composed by two "ways" of communication, one from the user to the system and the other linking the system to the user. Each of these "ways" has it's own mechanism. In this work, these mechanisms are described through an attribute grammar. This grammar has been expanded to allow the definition of the structure of the interface elements and the control of the execution of the tasks that the application system implements. Through this work, technics that describe the communication between the interface and the system, interaction styles and the extensions made on attribute grammar are discussed. An example is given to explain the use of the proposed mechanism and a prototype validates ideas discussed.
6

Uma linguagem de definição e manipulação de interfaces com o usuário

Schubert, Edson Gellert January 1991 (has links)
Uma interface com o usuário é composta por duas "vias" de comunicação, uma que vai do usuário até o sistema e outra que vai do sistema até o usuário. Cada uma destas "vias" possui um formalismo que define a comunicação associado. Neste trabalho, estes formalismos são descritos com uma gramática de atributos. Esta gramática foi expandida de forma a permitir a definição dos elementos que compõe a interface do usuário, e da estrutura que irá controlar a seqüência de execução das tarefas oferecidas pelos sistemas de aplicação. Ao longo do trabalho são discutidas algumas técnicas de descrição do formalismo de comunicação entre interface e sistema, são abordados os estilos de interação e apresentada as expansões aplicadas sobre gramáticas de atributos. Um exemplo auxilia a compreensão do uso da linguagem proposta, e um protótipo permite a validação das definições. / A user interface is composed by two "ways" of communication, one from the user to the system and the other linking the system to the user. Each of these "ways" has it's own mechanism. In this work, these mechanisms are described through an attribute grammar. This grammar has been expanded to allow the definition of the structure of the interface elements and the control of the execution of the tasks that the application system implements. Through this work, technics that describe the communication between the interface and the system, interaction styles and the extensions made on attribute grammar are discussed. An example is given to explain the use of the proposed mechanism and a prototype validates ideas discussed.
7

Uma linguagem de definição e manipulação de interfaces com o usuário

Schubert, Edson Gellert January 1991 (has links)
Uma interface com o usuário é composta por duas "vias" de comunicação, uma que vai do usuário até o sistema e outra que vai do sistema até o usuário. Cada uma destas "vias" possui um formalismo que define a comunicação associado. Neste trabalho, estes formalismos são descritos com uma gramática de atributos. Esta gramática foi expandida de forma a permitir a definição dos elementos que compõe a interface do usuário, e da estrutura que irá controlar a seqüência de execução das tarefas oferecidas pelos sistemas de aplicação. Ao longo do trabalho são discutidas algumas técnicas de descrição do formalismo de comunicação entre interface e sistema, são abordados os estilos de interação e apresentada as expansões aplicadas sobre gramáticas de atributos. Um exemplo auxilia a compreensão do uso da linguagem proposta, e um protótipo permite a validação das definições. / A user interface is composed by two "ways" of communication, one from the user to the system and the other linking the system to the user. Each of these "ways" has it's own mechanism. In this work, these mechanisms are described through an attribute grammar. This grammar has been expanded to allow the definition of the structure of the interface elements and the control of the execution of the tasks that the application system implements. Through this work, technics that describe the communication between the interface and the system, interaction styles and the extensions made on attribute grammar are discussed. An example is given to explain the use of the proposed mechanism and a prototype validates ideas discussed.
8

Learning about user interface design through the use of user interface pattern languages : a thesis dissertation presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Computer Science at Massey University, New Zealand

Todd, Elisabeth-Ann Gynn January 2010 (has links)
The focus of this research is to investigate the potential of user interface (UI) pattern languages in assisting students of Human Computer Interaction (HCI) to learn the principles of UI design. A graphical representation named a UI-pattern model was developed. It arose from the evaluation of four existing pattern languages. The UI-pattern model is an enhanced form of UI pattern list that represents a specific UI. It was recognised that the UI-pattern model has the potential to help students learn about pattern language structure. It was also realised that UI-pattern modelling can be used to incrementally improve pattern languages through the generative process proposed by Alexander (1979). A UI pattern language Maturity Model (UMM) has been developed. This model can be used by educators when selecting and/or modifying existing UI pattern languages so that they are more appropriate for student use. A method for developing detailed UI designs that utilises a UI pattern language has been developed with the aim of providing students with an ‘authentic’ real-world UI design experience, as envisaged by constructivist educational theory (Jonassen 1999). This UI design method (TUIPL) guides the students’ development of user interface conceptual models. To establish the authenticity of TUIPL three case studies were undertaken out with developers who had differing levels of UI design experience. A series of studies investigated how HCI students used TUIPL to guide the development of UI-pattern models and canonical abstract prototypes. The studies also ascertained the students’ views on using three different forms of UI pattern (illustrated, narrative and diagrammed). Data was collected by observation, questionnaires and completed exercises. The results indicate that the students developed an understanding of pattern language structure, were positive about their experience building UI-pattern models and canonical abstract prototypes, and that patterns aided communication. The learning outcomes were encouraging and students responded positively to using a UI pattern language.
9

Um modelo canonico de ferramenta para desenvolvimento de interface com o usuário

Pimenta, Marcelo Soares January 1991 (has links)
Interação homem-máquina, também difundida com o nome de Interface com o Usuário (ou simplesmente interface), é uma área de pesquisa relativamente recente e evidentemente multidisciplinar. Um importante critério para projeto de interfaces é a separação de um programa interativo em seu componente computacional (aplicação) e seu componente de diálogo (que implementa a interface) • Esta separação, denominada independência de diálogo, . cr1a o papel do projetista de interfaces separado do programador da aplicação e a necessidade de novas comunicações entre os componentes do programa e o usuário. O componente de diálogo é usualmente construído usando-se alguma Ferramenta para Desenvolvimento de Interfaces com o Usuário (abreviadas FIUs) para definição e manipulação de interfaces. As FIUs comercialmente disponíveis atualmente (na sua maioria "toolboxes" como MicroSoft Windows e Macintosh Toolbox, entre outras), no entanto, não são tão facilmente utilizáveis, contendo literalmente centenas de rotinas e confundindo freqüentemente os papéis do projetista de interfaces e do programador da aplicação. Isto acarreta prejuízos à almejada independência de diálogo .Além disto, devido às idiossincrasias de cada FIU, o p r ograma interativo é desenvolvido direcionado para o uso de uma FIU específica, necessitando de uma série de reformulações em caso de mudanças de FIU. O objetivo da dissertação é a proposta de uma FIU Canônica que permite: a) uma definição de interface de maneira mais adequada aos usuários projetistas, programador da aplicação; e mais notadamente ao b) a portabilidade de programas interativos entre diferentes FIUs. O componente principal da FIU Canônica é o seu modelo representacional orientado a objetos, o Canonicus, que contém as abstrações necessárias para o uso adequado dos usuários projetistas. A portabilidade vem do fato da FIU Canônica ser, na verdade, uma camada intermediária entre a aplicação e uma FIU. Sua implementação consiste na tradução de seus objetos e operações para objetos e operações de alguma FIU subjacente. Nesta dissertação sao apresentados a arquitetura da FIU Canônica e o seu modelo representacional Canonicus assim como a sua implementação sobre duas FIUs tipo "toolbox" comerciais, o MicroSoft Windows e o Macintosh Toolbox. / Human-computer interactionf interface f lS a mul tidisciplinary and research issue. also named use r relatively recent An important criteria to user interface design is the separation of interactive program in two components: computational component (application) and dialogue component (which implements the user interface). This separationf interface named dialogue independencef independent creates the user designer role of application programmer role and new components-user communications. The dialogue component is usually constructed by using some User Interface Development Tool (abreviated FIU) to both user interface definition and manipulation. The comercial FIUs available (most of them are toolboxes like MicroSoft Windows and Macintosh Toolbox) f howeverf are often not so easily usable, since they contain literally hundreds of procedures and they confuse the interface designer and application programmer roles. Thus the desirable dialogue independence is prejudiced. Furthermore, an one interactive program is developed directed to use only one specific FIU, since each FIU has its idiosycrasies. In case o f FIU change, several reformulations are needed. The dissertation goal is the purpose of the Canonical FIU. The Canonical FIU allows: a) an user interface definition in more adequate way to its designer-users, more notably the application programmer; and b) interactive programs portability between diferent FIUs. The Canonical FIU main component is its objectoriented representational model, the Canonicus, which contains the needed abstractions to user interface designers. Portability is obtained slnce the Canonical FIU lS an intermediate level between the application and a FIU. The Canonical FIU lS implemented by a translation mechanism, mapping its objects and operations to some subjacent FIU's objects and operations. In this dissertation, the Canonical FIU architecture, its representational model Canonicus and its implementations over two FIUs (MicroSoft Windows and Macintosh Toolbox) are presented.
10

Um modelo canonico de ferramenta para desenvolvimento de interface com o usuário

Pimenta, Marcelo Soares January 1991 (has links)
Interação homem-máquina, também difundida com o nome de Interface com o Usuário (ou simplesmente interface), é uma área de pesquisa relativamente recente e evidentemente multidisciplinar. Um importante critério para projeto de interfaces é a separação de um programa interativo em seu componente computacional (aplicação) e seu componente de diálogo (que implementa a interface) • Esta separação, denominada independência de diálogo, . cr1a o papel do projetista de interfaces separado do programador da aplicação e a necessidade de novas comunicações entre os componentes do programa e o usuário. O componente de diálogo é usualmente construído usando-se alguma Ferramenta para Desenvolvimento de Interfaces com o Usuário (abreviadas FIUs) para definição e manipulação de interfaces. As FIUs comercialmente disponíveis atualmente (na sua maioria "toolboxes" como MicroSoft Windows e Macintosh Toolbox, entre outras), no entanto, não são tão facilmente utilizáveis, contendo literalmente centenas de rotinas e confundindo freqüentemente os papéis do projetista de interfaces e do programador da aplicação. Isto acarreta prejuízos à almejada independência de diálogo .Além disto, devido às idiossincrasias de cada FIU, o p r ograma interativo é desenvolvido direcionado para o uso de uma FIU específica, necessitando de uma série de reformulações em caso de mudanças de FIU. O objetivo da dissertação é a proposta de uma FIU Canônica que permite: a) uma definição de interface de maneira mais adequada aos usuários projetistas, programador da aplicação; e mais notadamente ao b) a portabilidade de programas interativos entre diferentes FIUs. O componente principal da FIU Canônica é o seu modelo representacional orientado a objetos, o Canonicus, que contém as abstrações necessárias para o uso adequado dos usuários projetistas. A portabilidade vem do fato da FIU Canônica ser, na verdade, uma camada intermediária entre a aplicação e uma FIU. Sua implementação consiste na tradução de seus objetos e operações para objetos e operações de alguma FIU subjacente. Nesta dissertação sao apresentados a arquitetura da FIU Canônica e o seu modelo representacional Canonicus assim como a sua implementação sobre duas FIUs tipo "toolbox" comerciais, o MicroSoft Windows e o Macintosh Toolbox. / Human-computer interactionf interface f lS a mul tidisciplinary and research issue. also named use r relatively recent An important criteria to user interface design is the separation of interactive program in two components: computational component (application) and dialogue component (which implements the user interface). This separationf interface named dialogue independencef independent creates the user designer role of application programmer role and new components-user communications. The dialogue component is usually constructed by using some User Interface Development Tool (abreviated FIU) to both user interface definition and manipulation. The comercial FIUs available (most of them are toolboxes like MicroSoft Windows and Macintosh Toolbox) f howeverf are often not so easily usable, since they contain literally hundreds of procedures and they confuse the interface designer and application programmer roles. Thus the desirable dialogue independence is prejudiced. Furthermore, an one interactive program is developed directed to use only one specific FIU, since each FIU has its idiosycrasies. In case o f FIU change, several reformulations are needed. The dissertation goal is the purpose of the Canonical FIU. The Canonical FIU allows: a) an user interface definition in more adequate way to its designer-users, more notably the application programmer; and b) interactive programs portability between diferent FIUs. The Canonical FIU main component is its objectoriented representational model, the Canonicus, which contains the needed abstractions to user interface designers. Portability is obtained slnce the Canonical FIU lS an intermediate level between the application and a FIU. The Canonical FIU lS implemented by a translation mechanism, mapping its objects and operations to some subjacent FIU's objects and operations. In this dissertation, the Canonical FIU architecture, its representational model Canonicus and its implementations over two FIUs (MicroSoft Windows and Macintosh Toolbox) are presented.

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