Relevant bibliographies by topics / Diagram Editors

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Diagram Editors'

Author: Grafiati
Published: 8 September 2021
Last updated: 8 February 2022

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Journal articles on the topic "Diagram Editors"

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Minas, Mark. "XML-based Specification of Diagram Editors." Electronic Notes in Theoretical Computer Science 82, no. 7 (2003): 105–19. http://dx.doi.org/10.1016/s1571-0661(04)80750-3.

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Chok, Sitt Sen, and Kim Marriott. "Automatic generation of intelligent diagram editors." ACM Transactions on Computer-Human Interaction (TOCHI) 10, no. 3 (2003): 244–76. http://dx.doi.org/10.1145/937549.937553.

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Göttler, Herbert. "Diagram editors = graphs + attributes + graph grammars." International Journal of Man-Machine Studies 37, no. 4 (1992): 481–502. http://dx.doi.org/10.1016/0020-7373(92)90006-7.

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Arefi, F., and M. T. Milani. "Generating diagram editors from formal specifications." Information and Software Technology 34, no. 3 (1992): 139–46. http://dx.doi.org/10.1016/0950-5849(92)90025-k.

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Köth, Oliver, and Mark Minas. "Abstraction in Graph-Transformation Based Diagram Editors." Electronic Notes in Theoretical Computer Science 50, no. 3 (2001): 295–301. http://dx.doi.org/10.1016/s1571-0661(04)00182-3.

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Plimmer, Beryl, Peter Rodgers, and Gem Stapleton. "Special issue on diagram aesthetics and layout: Guest editors' introduction." Journal of Visual Languages & Computing 25, no. 2 (2014): 55–56. http://dx.doi.org/10.1016/j.jvlc.2013.11.008.

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MacIsaac, Dan. "Two Free Circuit Simulators and Circuit Diagram Editors for PC." Physics Teacher 46, no. 5 (2008): 319. http://dx.doi.org/10.1119/1.2909760.

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Bossuyt, Patrick M., Johannes B. Reitsma, David E. Bruns, et al. "Towards complete and accurate reporting of studies of diagnostic accuracy: the STARD initiative." Annals of Clinical Biochemistry: International Journal of Laboratory Medicine 40, no. 4 (2003): 357–63. http://dx.doi.org/10.1258/000456303766476986.

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Background: To improve the accuracy and completeness of reporting of studies of diagnostic accuracy in order to allow readers to assess the potential for bias in a study and to evaluate the generalizability of its results. Methods: The Standards for Reporting of Diagnostic Accuracy (STARD) steering committee searched the literature to identify publications on the appropriate conduct and reporting of diagnostic studies and extracted potential items into an extensive list. Researchers, editors and members of professional organizations shortened this list during a 2-day consensus meeting with the goal of developing a checklist and a generic flow diagram for studies of diagnostic accuracy. Results: The search for published guidelines regarding diagnostic research yielded 33 previously published checklists, from which we extracted a list of 75 potential items. At the consensus meeting, participants shortened the list to 25 items, using evidence on bias whenever available. A prototypical flow diagram provides information about the method of patient recruitment, the order of test execution and the numbers of patients undergoing the test under evaluation, the reference standard or both. Conclusions: Evaluation of research depends on complete and accurate reporting. If medical journals adopt the checklist and the flow diagram, the quality of reporting of studies of diagnostic accuracy should improve to the advantage of the clinicians, researchers, reviewers, journals and the public.
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Bossuyt, Patrick M., Johannes B. Reitsma, David E. Bruns, et al. "Towards Complete and Accurate Reporting of Studies of Diagnostic Accuracy: The STARD Initiative." Clinical Chemistry 49, no. 1 (2003): 1–6. http://dx.doi.org/10.1373/49.1.1.

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Abstract Background: To comprehend the results of diagnostic accuracy studies, readers must understand the design, conduct, analysis, and results of such studies. That goal can be achieved only through complete transparency from authors. Objective: To improve the accuracy and completeness of reporting of studies of diagnostic accuracy to allow readers to assess the potential for bias in the study and to evaluate its generalisability. Methods: The Standards for Reporting of Diagnostic Accuracy (STARD) steering committee searched the literature to identify publications on the appropriate conduct and reporting of diagnostic studies and extracted potential items into an extensive list. Researchers, editors, and members of professional organisations shortened this list during a two-day consensus meeting with the goal of developing a checklist and a generic flow diagram for studies of diagnostic accuracy. Results: The search for published guidelines on diagnostic research yielded 33 previously published checklists, from which we extracted a list of 75 potential items. The consensus meeting shortened the list to 25 items, using evidence on bias whenever available. A prototypical flow diagram provides information about the method of patient recruitment, the order of test execution and the numbers of patients undergoing the test under evaluation, the reference standard or both. Conclusions: Evaluation of research depends on complete and accurate reporting. If medical journals adopt the checklist and the flow diagram, the quality of reporting of studies of diagnostic accuracy should improve to the advantage of clinicians, researchers, reviewers, journals, and the public.
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Hasan, Mhd Arief, Nurliana Nasution, and David Setiawan. "Game Bola Tangkis Berbasis Android Menggunakan App Inventor." Digital Zone: Jurnal Teknologi Informasi dan Komunikasi 8, no. 2 (2017): 160–69. http://dx.doi.org/10.31849/digitalzone.v8i2.641.

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Abstrak- Berkembangnya teknologi yang berbasis mobile sekarang ini sudah sangat maju dan sering dipakai untuk dunia Information Technology (IT), bisnis, pendidikan dan media pembelajaran. Teknologi handphone yang saat ini berkembang pesat salah satunya adalah sistem operasi Android mobile (Android OS). Android adalah sistem operasi berbasis Linux yang dirancang untuk perangkat mobile layar sentuh yang memungkinkan perangkat lunak bebas dimodifikasi dan didistribusikan oleh pembuat perangkat, operator nirkabel dan pengembang aplikasi. Salah satu editor dalam pemrograman android adalah APP Inventor .App Inventor merupakan aplikasi web sumber terbuka yang awalnya dikembangkan oleh Google, dan saat ini dikelola oleh Massachusetts Institute of Technology (MIT). App Inventor memungkinkan pengguna baru untuk memprogram komputer untuk menciptakan aplikasi perangkat lunak bagi sistem operasi Android. Dengan adanya kemudahan dalam pembuatan program yang disediakan oleh App Inventor yang tidak diharuskan lagi untuk menuliskan koding. Semua fasilitas itu bisa digunakan dengan menggunakan klik drag menggunakan blog diagram. Maka peneliti mengambil kasus game bola tangkis dalam penelitian ini. Kata kunci : Game Bola Tangkis, Android, App Inventor Abstract- The development of mobile-based technology is now very advanced and often used for the world of Information Technology (IT), business, education and learning media. Mobile technology is currently growing rapidly one of them is the Android mobile operating system (Android OS). Android is a Linux-based operating system designed for touch-screen mobile devices that allows free software to be modified and distributed by device makers, wireless carriers and app developers. One of the editors in android programming is APP Inventor. Appper Inventor is an open source web application originally developed by Google, and is currently managed by the Massachusetts Institute of Technology (MIT). App Inventor allows new users to program computers to create software applications for the Android operating system. With the ease of making the program provided by App Inventor that no longer required to write coding. All facilities that can be used by using click drag using blog diagram. So researchers took the case of badminton games in this study. Keywords : Badminton Games, Android, App Inventor.
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Dissertations / Theses on the topic "Diagram Editors"

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Scharf, Andreas Herbert [Verfasser]. "Dynamic Injection of Scribble Features into Graphical Diagram Editors / Andreas Herbert Scharf." Kassel : Universitätsbibliothek Kassel, 2015. http://d-nb.info/1071581813/34.

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Scharf, Andreas [Verfasser]. "Dynamic Injection of Scribble Features into Graphical Diagram Editors / Andreas Herbert Scharf." Kassel : Universitätsbibliothek Kassel, 2015. http://d-nb.info/1071581813/34.

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Maier, Sonja [Verfasser], Mark [Akademischer Betreuer] Minas, and Paolo [Akademischer Betreuer] Bottoni. "A Pattern-based Approach for the Combination of Different Layout Algorithms in Diagram Editors / Sonja Maier. Universität der Bundeswehr München, Fakultät für Informatik. Gutachter: Mark Minas ; Paolo Bottoni. Betreuer: Mark Minas." Neubiberg : Universitätsbibliothek der Universität der Bundeswehr, 2012. http://d-nb.info/1028336713/34.

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REIS, ANDRE LUIZ CASTRO DE ALMEIDA. "DIAGRAM EDITOR DRIVEN BY METAMODELS." PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 2011. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=18627@1.

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COORDENAÇÃO DE APERFEIÇOAMENTO DO PESSOAL DE ENSINO SUPERIOR<br>O uso de editores de diagramas tem se mostrado muito útil para a elaboração de soluções de design na área de Interação Humano-Computador. Eles facilitam o uso da linguagem e o controle sobre os seus elementos, evitando que o usuário utilize itens lexicais que não pertençam ao vocabulário da linguagem. Esses elementos estão definidos em um metamodelo, que basicamente consiste em um conjunto de conceitos dentro de um determinado domínio. Com isso, o usuário ganha agilidade e confiabilidade no processo de criação. Porém, muitos editores não garantem que a solução concebida obedeça à sintaxe da linguagem. Para isso, torna-se necessário um editor que, além de ter controle sobre os símbolos da linguagem, forneça também apoio gramatical para o uso de modelos, de forma não apenas gráfica, mas também fazendo uso das regras de sintaxe de cada metamodelo. Com esse conjunto de regras que define as combinações válidas dos elementos da linguagem, o usuário pode ser alertado sobre possíveis infrações que estejam acontecendo durante a elaboração da solução. As regras descrevem a sintaxe da linguagem através de uma gramática. Analisar sintaticamente diagramas significa tentar encontrar uma sequência de aplicações de regras que derivam de uma gramática ou de alguma representação dela. Levando em consideração essa abordagem, este trabalho apresenta um estudo sobre editores de diagramas dirigidos por metamodelos e uma ferramenta que possibilita ao usuário, a partir da definição de um metamodelo, acoplá-lo a um editor de diagramas genérico para linguagens visuais, em que se possa controlar tanto o vocabulário quanto a gramática dos diagramas criados. Desta forma, o objetivo da atual pesquisa é propor uma ferramenta que englobe estas soluções e que seja focada nas linguagens visuais comuns na área de Interação Humano-Computador como MoLIC, CTT e Statecharts.<br>The use of diagram editors has been very useful for creating design solutions in the area of Human-Computer Interaction. They facilitate the use of modeling languages and provide control over the elements of the solution space, preventing the user from using an invalid lexical item of the chosen language. These elements are defined in a metamodel, which basically consists of a set of concepts with-in a given domain. As a result, users gain speed and reliability in the process of creation. However, many editors do not guarantee that designed solution meets the language syntax. For this, we need an editor that, in addition to having control over the language symbols, also provides support for the use of models, going beyond graphical editing and also making use of the syntax rules defined in each metamodel. With this set of rules that define the form of language, the user may be warned of possible rule violations while building the solution. The rules describe the syntax of the language through its grammar. To parse a diagram means to try to find a sequence of applications of rules that derive from a grammar or some representation of it. Considering this approach, this dissertation presents a study on diagram editors, and a metamodel-driven tool that allows the user to, by defining a metamodel, make use of a generic diagram editor for visual languages that can control the vocabulary and grammar of the created diagrams. Thus, the goal of current research is to propose a tool that encompasses these solutions and is focused on visual languages common in the area of Human- Computer Interaction, such as MoLIC, CTT and Statecharts.
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Fiala, Martin. "Vytvořte editor kopenogramů." Master's thesis, Vysoká škola ekonomická v Praze, 2012. http://www.nusl.cz/ntk/nusl-150064.

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The goal of this thesis is the analysis of ways of graphic form of algorithms and their editors, design of editor for making kopenograms from source code and implementation of this editor what will work as part of plugin made for the NetBeans IDE. In the beginning of the thesis will be described a principles of structured programing, enlisted used ways of visualization of source code -- modeling language UML and other possibilities of graphic form of algorithm like flowchart diagrams, Nassi-Shneiderman diagrams, Jackson diagrams and especially not as well-known kopenograms. In the second part of the thesis is described creation of editor used to visualization of kopenograms. In the chapters is described structure of creating of application, the editors what are available for its creation, phase of creating editor and final testing for approve of the success. Part of the thesis is also a user guide for beginning with this program. Application what was made in this thesis is part of the plugin BJ2NB and will be used for education support of programming and algorithms on The University of Economics, Prague.
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Ulvestad, Kay Are. "A graphical diagram editor plugin for Eclipse." Thesis, Norwegian University of Science and Technology, Department of Computer and Information Science, 2005. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-9217.

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<p>This document serves the dual purpose of being the first version of the documentation for the Eclipse UIML DiaMODL and UIML Diagram plugins, as well as being the written part of my master thesis. The documentation part is the main body of the document. It covers the background of the project, and describes each of the plugins in detail, in terms of structure and behaviour. In addition, the documentation features a relatively detailed practical guide on how the UIML Diagram plugin can be extended with other language specific plugins. As this is part of my master thesis, there is also a short summary of my personal experiences working on the project.</p>
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Jeet, E. J. "A relationship-based interactive graphical diagram editor." Thesis, University of Kent, 1987. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.378580.

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Severino, Junior Osvaldo. "Smart : um editor grafico de diagramas em Xchart." [s.n.], 1996. http://repositorio.unicamp.br/jspui/handle/REPOSIP/275989.

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Orientadores: Hans Kurt Edmund Liesenberg, Luiz Eduardo Buzato<br>Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Computação<br>Made available in DSpace on 2018-07-22T02:13:23Z (GMT). No. of bitstreams: 1 SeverinoJunior_Osvaldo_M.pdf: 2671105 bytes, checksum: 0ca6f6745c9d86c36bb0846e5a39527b (MD5) Previous issue date: 1996<br>Resumo: Smart é um editor gráfico desenvolvido para o ambiente Xchart[8]. Xchart é um ambiente de programação que provê ferramentas para o projeto e implementação de sistemas interativos. Sistemas Interativos [12] são compostos por três subsistemas: (i) apresentação, (ii) diálogo e (iii) aplicação. A apresentação é responsável pela aparência do sistema interativo, organizando os aspectos visuais e físicos de uma interface homemcomputador (ícones, janelas, etc.). A aplicação é o componente responsável pelo controle da comunicação entre a apresentação e a aplicação de um sistema interativo. Xchart focaliza ferramentas para o projeto e implementação do subsistema diálogo. Smart é o resultado de um projeto e implementação de uma interface homem-computador que adere aos métodos desenvolvidos no projeto Xchart.Smart permite a manipulação (captura, edição, leiaute automático e geração de código) de programas escritos na linguagem visual Xchart. Esta linguagem permite a descrição do comportamento do diálogo de um sistema interativo. O comportamento do diálogo define o mapeamento de eventos de entrada em ações derivadas por estes eventos. O editor utiliza uma árvore de estados e um grafo de transições sobreposto à árvore para capturar e editar um Xchart. A árvore é o resultado da adaptação e implementação do algoritmo de leiaute automático para traçado de árvores. Após a captura e edição de um Xchart, o Smart permite a geração da forma usual de um Xchart, um grafo. A visualização da forma usual de um Xchart é o resultado da adaptação e implementação do algoritmo de leiaute automático para traçado de diagramas. A edição de um Xchart, também, permite ao Smart invocar o compilador de Xchart que gerará o respectivo código do Xchart.<br>Abstract: Xchart is a programming environment that provides tools for the design and implementation of interactive systems [8]. Interactive systems [12] have three main components: (i) presentation, (ii) dialog, and (iii) application. The presentation is responsible for the look and feel of an interactive system, it organizes the visual and physical aspects of the human-computer interface (icons, windows, device drivers, etc). The application is the component that implements the functionality of the interactive system. The dialog component is responsible for the mediation of the communication between presentation and application. Xchart's focus is on tools for the design and implementation of dialog components. Smart is Xchart's tool for the editing (capturing, edition, automatic layout, and code generation) dialog specifications written in the visual language Xchart. The visual language Xchart is based on states and transitions. Smart has an object-oriented design and implementation. One of its main characteristics is the use of algorithms for the automatic layout of diagrams. A dialog specification written 'in the language Xchart can be captured and automatically drawn as a tree and as a graph. Smart also provides a Xchart compiler, that is, Xchart dialog specifications are captured as diagrams and then translated into a textual language for use by other tools of the Xchart environment. This characteristic of Smart eases significantly the design and implementation of dialogs.<br>Mestrado<br>Mestre em Ciência da Computação
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Souza, Cleidson Ronald Botelho de. "Um framework para editores de diagramas cooperativos baseados em anotações." [s.n.], 1998. http://repositorio.unicamp.br/jspui/handle/REPOSIP/275954.

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Orientador: Jacques Wainer<br>Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Computação<br>Made available in DSpace on 2018-07-24T08:15:43Z (GMT). No. of bitstreams: 1 Souza_CleidsonRonaldBotelhode_M.pdf: 3406428 bytes, checksum: 0a55e1f96683828fa960c9daa75b9abe (MD5) Previous issue date: 1998<br>Resumo: Esta dissertação apresenta um modelo de cooperação para o desenvolvimento cooperativo de software e o framework para editores de diagramas colaborativos ABCDE (Annotation Based Cooperative Diagram Editor). A cooperação entre grupos de usuários é obtida através da utilização de anotações sobre diagramas. Anotações são uma forma de comunicar idéias ou opiniões sobre um documento. Um framework é um projeto abstrato orientado a objetos que pode, ser adaptado segundo as necessidades da aplicação. Frameworks fornecem um grau de reutilização de até 80%, pois oferecem reutilização de projeto, servindo como moldes para a construção de aplicações dentro de um domínio. As aplicações instanciadas a partir do framework ABCDE são editores cooperativos de diagramas de classes da notação UML. O ponto adaptável do ABCDE é o modelo de cooperação que ele implementa, o que permite a construção de editores específicos para outras atividades do processo de desenvolvimento de software. As contribuições desta dissertação são: (i) a especificação de um modelo de cooperação que se baseia na utilização de anotações como mecanismo de auxílio a cooperação, para o desenvolvimento colaborativo de software. Ele oferece apoio à tarefa de revisão e co-autoria, sendo independente da metodologia utilizada para o desenvolvimento do software, podendo ser estendido para apoiar outras atividades do processo de desenvolvimento de software; (ii) o desenvolvimento do framework ABCDE (Annotation Based Cooperative. Diagram Editor) que permite a construção de editores de diagramas cooperativos, pois implementa o modelo de cooperação desenvolvido; e (iii) a apresentação do sistema ABCDE-Web que apóia o desenvolvimento cooperativo de software através da Internet<br>Abstract: This document presents an annotation model for cooperative software development, and an object-oriented application framework for diagram editors called ABCDE (Annotation Based Cooperative Diagram Editor). Cooperation among users is achieved by using annotations on diagrams. Annotations are used by the authors to communicate ideas or opinions about a document. A framework is an abstract object-oriented design that can be tailored according to specific applications. The framework developed in this work, ABCDE, provides support for the construction of annotation based cooperative diagram editors for class diagrams of UML methodology. The main configurable aspect of ABCDE is the annotation model used, so editors built from ABCDE can be tailored to particular needs of different tasks in software developrnent. The contributions of this work are: (i) the specification of a cooperation model for cooperative software development. This model uses annotations as a mean to support collaboration, supports the revision and co-authoring tasks, and is independent of methodology for software development. Moreover, it can be extended to support different tasks of software development process; (ii) the framework ABCDE (Annotation Based Cooperative Diagram Editor), which main hot-spot is the annotation model used, because it implements the cooperation model developed; and (iii) the ABCDE- Web system, a prototype developed from ABCDE that can be used for software development on the Web<br>Mestrado<br>Mestre em Ciência da Computação
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Yamaguti, Marcelo Hideki. "Técnicas diagramáticas para desenvolvimento de software orientado a objetos." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 1993. http://hdl.handle.net/10183/25463.

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Este trabalho aborda a efetiva utilização de técnicas diagramáticas para o desenvolvimento de software orientado a objetos durante as fases de análise e projeto de sistemas. Durante o desenvolvimento de software normalmente as especificações resultantes das fases de análise e projeto possuem uma forma gráfica. A utilização de diagramas no desenvolvimento de software busca facilitar a criação de especificações de um sistema e ao mesmo tempo torná-las mais compreensíveis. A grande maioria das técnicas diagramáticas que existem atualmente são utilizadas para o apoio ao desenvolvimento de software segundo metodologias fundamentadas no paradigma tradicional de decomposição funcional. Diversas técnicas diagramáticas foram criadas ou adaptadas a fim de suportar os conceitos deste paradigma, acompanhando a própria evolução do mesmo. Neste contexto, são apresentadas as características básicas de técnicas diagramáticas tradicionais que apoiam a este paradigma. A partir da introdução dos conceitos de orientação a objetos no desenvolvimento de software, surge a necessidade de criação de novas técnicas diagramáticas ou adaptação de técnicas diagramáticas tradicionais para o suporte adequado ao desenvolvimento de sistemas sob este paradigma. Neste contexto, são abordados os conceitos envolvidos na orientação a objetos e apresentados os aspectos diferenciais no desenvolvimento de software decorrentes da utilização deste paradigma em contraposição aos paradigmas tradicionais. São também apresentadas as tarefas específicas realizadas durante o desenvolvimento de software, nas fases de análise e projeto, que estão inseridas no ciclo de vida de um software orientado a objetos. É proposto um conjunto de notações diagramáticas inter-relacionadas adequado ao apoio de um esquema de etapas básicas para o desenvolvimento de software orientado a objetos, bem como as metodologias já existentes. Durante a descrição destas notações diagramáticas, são apresentadas as suas características individuais, adaptações realizadas para o suporte a orientação a objetos, suas aplicações específicas no desenvolvimento de sistemas e o inter-relacionamento existente. Finalmente, são definidas as características de recursos e facilidades específicas para o apoio às notações propostas. Dentro dos recursos sugeridos inclui-se a definição da implementação de um editor diagramático que é descrito através das notações sugeridas neste trabalho.<br>This work tackles the effective use of diagramming techniques for object-oriented software development during analysis and design phases. During software development the specifications produced by analysis and design usually take a graphical form. The use of diagrams in software development occurs because designers and analysts like to express themselves that way to turn the specifications more understandable. Most of diagramming techniques in use nowadays support software development following methodologies based on the conventional functional decomposition paradigm. Various diagramming techniques were created or adapted in order to support the concepts of this paradigm, following its own evolution. With the introduction of object-oriented concepts new diagramming techniques were created or adapted from conventional methodologies. This work introduces the concepts of object orientation, as well as, the changes originated from the use of this paradigm in software development. Specific steps related to the analysis and design stages in the object-oriented software life cycle are also presented. A set of interrelated diagramming techniques for supporting object-oriented software development is presented. A set of interrelated diagramming techniques for supporting object-oriented software development is presented. The description of these diagramming techniques includes new features, discussion of adaptations for object-oriented techniques, specific applications and uses, and their integration. Finally, the features of specific resources and facilities for supporting the proposed notations are defined. The description of the implementation of a diagrammatic editor, using the notations presented in this work, is included.
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Books on the topic "Diagram Editors"

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Graham, Colin. HOOD diagram editor. The author], 1993.

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Bridge, S. H. A system implementation diagram editor for the cascade system. UMIST, 1995.

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Jenkins, G. R. Design of a JSD network diagram editor for the majic case tool. UMIST, 1993.

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John, Roland. ER-Easy: A user-friendly graphic ER-diagram editor for interactive database scheme design. Dept. of Computer Science, University of Illinois at Urbana-Champaign, 1987.

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L, Skinner N., Wood S. T, U.S. Nuclear Regulatory Commission. Division of Safety Issue Resolution., Idaho National Engineering Laboratory, and EG & G Idaho., eds. Fault tree, event tree, and piping & instrumentation diagram (FEP) editors, version 4.0: Reference manual. Division of Safety Issue Resolution, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1992.

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Zhonghua Renmin Gongheguo wu shi nian fa zhan tu ce: The development of the People's Republic of China over the past 50 years: A collection of charts / chief editor Zhao Qizheng. 2nd ed. Shenyang chu ban she, 1999.

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Davies, Nev, Will Jackson, Andrew Price, Jonathan Rees, and Chris Lavy. FRCS Trauma and Orthopaedics Viva. 2nd ed. Oxford University Press, 2021. http://dx.doi.org/10.1093/med/9780198766247.001.0001.

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FRCS Trauma and Orthopaedics Viva includes over 95 viva topics. Completely updated to include current clinical management guidelines and exam hot topics, the book is brought to you again from the team behind the highly successful Oxford revision course. Based on the principle that viva candidates improve their technique by observing and learning from others, the editor team have created a best-practice formula for dealing with the individual scenarios. The book is set out in a simple format and every viva topic is introduced by an initial clinical photograph, radiograph, or diagram. Sets of questions follow underneath with the suggested answers. This allows the reader to work in pairs, groups, or on their own.
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Le api della Torah: Storia di una famiglia di editori ebrei livornesi = the story of a family of Jewish publishers from Livorno. Salomone Belforte, 2001.

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The constituents of medicinal plants. 3rd ed. CABI, 2021. http://dx.doi.org/10.1079/9781789243079.0000.

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Abstract This new edition is a comprehensive introduction to the main phytochemical classes found in plants that are understood to confer their therapeutic activity. A major advantage is that the book assumes only a basic understanding of chemistry, making it an ideal primer for students and practitioners alike. However, it quickly brings the reader into more sophisticated territory, without falling into the trap of being overly reductionist or technical. Key features are the many chemical diagrams and the wide-ranging discussion of pharmacological activities and safety considerations. The new third edition has been thoroughly revised to incorporate the latest research. It contains a new chapter on resins and cannabinoids, and additional content on essential oil chemotypes, the important area of mushroom polysaccharides, together with a discussion of phytochemical synergy and updates on the toxicology of plant constituents. Other chapters have been considerably expanded. For example, the polysaccharide chapter now includes more comprehensive sections on seaweeds and fungi than in previous editions, emphasizing in particular their immunomodulatory effects.
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Book chapters on the topic "Diagram Editors"

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Minas, Mark, and Oliver Köth. "Generating Diagram Editors with DiaGen." In Applications of Graph Transformations with Industrial Relevance. Springer Berlin Heidelberg, 2000. http://dx.doi.org/10.1007/3-540-45104-8_35.

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Köth, Oliver, and Mark Minas. "Structure, Abstraction, and Direct Manipulation in Diagram Editors." In Diagrammatic Representation and Inference. Springer Berlin Heidelberg, 2002. http://dx.doi.org/10.1007/3-540-46037-3_28.

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Maier, Sonja, and Mark Minas. "Specification of a Drawing Facility for Diagram Editors." In Human-Computer Interaction. Novel Interaction Methods and Techniques. Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-642-02577-8_93.

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Niebling, Florian, Daniel Schropp, Romina Kühn, and Thomas Schlegel. "Model-Based Multi-touch Gesture Interaction for Diagram Editors." In Human-Computer Interaction. Advanced Interaction Modalities and Techniques. Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-07230-2_12.

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Maier, Sonja, and Mark Minas. "Integration of a Pattern-Based Layout Engine into Diagram Editors." In Applications of Graph Transformations with Industrial Relevance. Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-34176-2_9.

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Mazanek, Steffen, and Mark Minas. "Business Process Models as a Showcase for Syntax-Based Assistance in Diagram Editors." In Model Driven Engineering Languages and Systems. Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-642-04425-0_24.

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Oualline, Steve, and Grace Oualline. "Using Dia Diagram Editor." In Practical Free Alternatives to Commercial Software. Apress, 2018. http://dx.doi.org/10.1007/978-1-4842-3075-6_10.

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Wright, Susan J. "PLEX - A Structured Line Diagram Editor." In Automating Systems Development. Springer US, 1988. http://dx.doi.org/10.1007/978-1-4613-1033-4_10.

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Kurniawan, Budi. "Creating a UML Class Diagram Editor." In Real World .NET Applications. Apress, 2003. http://dx.doi.org/10.1007/978-1-4302-0761-0_4.

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Viehstaedt, Gerhard, and Mark Minas. "Generating editors for direct manipulation of diagrams." In Lecture Notes in Computer Science. Springer Berlin Heidelberg, 1995. http://dx.doi.org/10.1007/3-540-60614-9_2.

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Conference papers on the topic "Diagram Editors"

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Minas, Mark. "Syntax analysis for diagram editors." In the working conference. ACM Press, 2006. http://dx.doi.org/10.1145/1133265.1133300.

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Chok, Sitt Sen, and Kim Marriott. "Automatic construction of intelligent diagram editors." In the 11th annual ACM symposium. ACM Press, 1998. http://dx.doi.org/10.1145/288392.288603.

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Schenk, Christian, Sonja Schimmler, and Mark Minas. "Operating diagram editors through unistroke gestures." In 2016 IEEE Symposium on Visual Languages and Human-Centric Computing (VL/HCC). IEEE, 2016. http://dx.doi.org/10.1109/vlhcc.2016.7739659.

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Schenk, Christian, Sonja Schimmler, and Mark Minas. "Tool demo: Operating diagram editors through unistroke gestures." In 2016 IEEE Symposium on Visual Languages and Human-Centric Computing (VL/HCC). IEEE, 2016. http://dx.doi.org/10.1109/vlhcc.2016.7739698.

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Mazanek, Steffen, Sonja Maier, and Mark Minas. "Auto-completion for diagram editors based on graph grammars." In 2008 IEEE Symposium on Visual Languages and Human-Centric Computing (VL/HCC). IEEE, 2008. http://dx.doi.org/10.1109/vlhcc.2008.4639094.

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Zhao, Rui. "Incremental recognition in gesture-based and syntax-directed diagram editors." In the SIGCHI conference. ACM Press, 1993. http://dx.doi.org/10.1145/169059.169103.

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Scharf, Andreas, and Till Amma. "Dynamic injection of sketching features into GEF based diagram editors." In 2013 35th International Conference on Software Engineering (ICSE). IEEE, 2013. http://dx.doi.org/10.1109/icse.2013.6606628.

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Laue, Ralf, and Arian Storch. "Adding Visual Annotations to Model Elements in Eclipse-Based Diagram Editors." In 2016 IEEE 20th International Enterprise Distributed Object Computing Workshop (EDOCW). IEEE, 2016. http://dx.doi.org/10.1109/edocw.2016.7584343.

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Santos, André L., and Eduardo Gomes. "Xdiagram: a declarative textual DSL for describing diagram editors (tool demo)." In SLE '16: Software Language Engineering. ACM, 2016. http://dx.doi.org/10.1145/2997364.2997377.

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Schenk, Christian, Sonja Schimmler, and Mark Minas. "Investigating uni-stroke gesture input for diagram editors on large wall-mounted touchscreens." In 2017 IEEE Symposium on Visual Languages and Human-Centric Computing (VL/HCC). IEEE, 2017. http://dx.doi.org/10.1109/vlhcc.2017.8103479.

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Reports on the topic "Diagram Editors"

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McKay, M. K., N. L. Skinner, and S. T. Wood. Systems analysis programs for hands-on integrated reliability evaluations (SAPHIRE) Version 5.0. Fault tree, event tree, and piping & instrumentation diagram (FEP) editors reference manual: Volume 7. Office of Scientific and Technical Information (OSTI), 1994. http://dx.doi.org/10.2172/10173658.

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