Implementación de un Mecanismo de Estructuración de Decisiones.

Navarro Gatica, Christian Alejandro

January 2007

La necesidad de tomar decisiones es algo fundamental para cualquier empresa, estas decisiones deben permitir que la empresa logre un desarrollo que la lleve a crecer. Esto lleva a una inevitable serie de reuniones, donde los miembros de la empresa puedan participar y exponer sus distintos puntos de vista para encontrar respuestas a las necesidades que se presenten. El problema con esta necesidad es el uso del tiempo, que puede ser un recurso escaso en el funcionamiento de la empresa, lo que lleva a requerir reuniones que maximicen la calidad de los resultados obtenidos. Uno se los puntos clave para lograr esto es una preparación cuidadosa de estas reuniones, tanto al definir los temas a discutir en forma precisa como al generar el material necesario para la reunión. Debido a esto se necesita un modo de representar esta preparación de un modo que todos los participantes puedan comprender y utilizar para comunicar sus aportes a la preparación de la reunión. Existen distintos modelos para representar esta información, que definen en forma clara esta estructura, lo que obliga a los usuarios a comprender esta estructura y a la inevitable necesidad de aprender a expresar sus ideas con los elementos que presenta el modelo para este proceso. Esto provoca un problema, ya que obliga a los usuarios a salir de la forma usual de comunicación que se utiliza entre personas, que es rico al momento de comprender y expresar ideas, pero complejo al momento de ordenarlo. Un sistema de reuniones distribuido presenta el beneficio de guardar información y tener acceso a ésta sin las barreras de la disponibilidad de tiempo, pero para ello se debe ahondar en los aspectos de la construcción de decisiones. Esto implica la necesidad de contar con un modelo de discusión, en el cual se pueda estructurar el proceso de construcción de decisiones. Dentro de los modelos disponibles, IBIS es simple pero con una gran capacidad para expresar de manera sencilla distintas ideas utilizando solo tres tipos de elementos (PreguntasRespuestas-Argumentos), pero el problema sigue siendo la rigidez que se presenta a los usuarios. El mecanismo que se presenta en este trabajo evita este problema y guía a las personas en el proceso de convertir sus ideas a una estructura que siga el modelo IBIS y así lograr un material útil para la realizar la reunión. A través de etapas, y la guía de personas entendidas en este modelo de discusión, se logra transformar la información del leguaje que utilizan las personas para expresar sus posiciones, a una presentación de ideas en una forma organizada que puede ser útil para otras personas, utilizando los elementos del modelo IBIS.

Computación

IBIS

JavaServer Faces

Estructuración de decisiones

Mapeo de diálogo

Memoria grupal

Awareness

Framework RichFaces / The RichFaces Framework

Kořistková, Barbora

January 2013

The thesis is concerned with an in-depth analysis and evaluation of the JBoss RichFaces component framework with regards to its particular strengths and weaknesses. The framework is examined both from the theoretical and practical point of view and also subjected to comparative analysis with other similar products on the market. Apart from the theoretical background and profound subject explanation, the practical part of the thesis offers a full-fledged referential application with fragments of commented code and thorough exploration of the framework's professional usage.

Avalia??o de reusabilidade de aplica??es web baseadas em frameworks orientados a a??es e a componentes: estudo de Caso sobre os Frameworks Apache Struts e JavaServer Faces

Dantas, Andr? Medeiros

08 January 2008

Made available in DSpace on 2014-12-17T15:47:46Z (GMT). No. of bitstreams: 1 AndreMD.pdf: 5208404 bytes, checksum: 35b3883a3ba487ddd5f5627c46d41e2c (MD5) Previous issue date: 2008-01-08 / ?Over the years the use of application frameworks designed for the View and Controller layers of MVC architectural pattern adapted to web applications has become very popular. These frameworks are classified into Actions Oriented and Components Oriented , according to the solution strategy adopted by the tools. The choice of such strategy leads the system architecture design to acquire non-functional characteristics caused by the way the framework influences the developer to implement the system. The components reusability is one of those characteristics and plays a very important role for development activities such as system evolution and maintenance. The work of this dissertation consists to analyze of how the reusability could be influenced by the Web frameworks usage. To accomplish this, small academic management applications were developed using the latest versions of Apache Struts and JavaServer Faces frameworks, the main representatives of Java plataform Web frameworks of. For this assessment was used a software quality model that associates internal attributes, which can be measured objectively, to the characteristics in question. These attributes and metrics defined for the model were based on some work related discussed in the document / ?O uso de frameworks para as camadas do Controlador e Vis?o do padr?o arquitetural MVC adaptado para aplica??es Web se tornou bastante popular ao longo dos anos. Eles s?o classificados em Orientados a A??es ou Orientados a Componentes , de acordo com a estrat?gia de solu??o adotada pelas ferramentas. A escolha por uma dessas estrat?gias faz com que o design da arquitetura do sistema adquira caracter?sticas n?o-funcionais ocasionadas pela forma com que o framework leva o desenvolvedor a implementar o sistema. A reusabilidade dos componentes ? uma dessas caracter?sticas. Ela possui um papel muito importante para atividades como evolu??o e manuten??o do sistema. O trabalho desta disserta??o consiste em analisar o quanto a reusabilidade pode ser impactada de acordo com a utiliza??o de um tipo de framework Web. Com esse intuito, foram realizados estudos de caso atrav?s da implementa??o de pequenas aplica??es de controle acad?mico se utilizando das mais recentes vers?es dos frameworks Apache Struts e JavaServer Faces, os principais representantes de frameworks Web da plataforma Java. Para essa avalia??o, foi utilizado um modelo de qualidade de software respons?vel por associar atributos internos, que podem ser medidos objetivamente, ? caracter?stica em quest?o. Esses atributos e m?tricas definidos para o modelo foram baseados em alguns trabalhos relacionados discutidos no documento

Reusabilidade de Software

Frameworks Web

Struts

JavaServer Faces

Modelo de Qualidade

M?tricas de Software

Software Reusability

Web Framework

Struts

JavaServer Faces

Quality Model

Software Metrics

JSF framework pro komplexní vizualizaci dat / JSF Framework for Complex Data Visualization

Linha, Martin

January 2015

The thesis is focused on the development of JSF framework providing components for complex data visualizations. Its objective consists of the implementation of the API for creating JSF components rendering complex charts based on the JavaScript library C3.js and subsequent implementation of a set of chart components using this API. The contribution of this thesis is a library providing a tool for creating new JSF components based on C3.js together with a set of ready to use components. It begins with research of relevant JSF libraries, following with API analysis and design. Based on that is API implemented, in which a component set is then created. As a part of this work is a user guide, API reference guide and presentation web of implemented components.

Distribuovaný informační systém založený na sémantických technologiích / Distributed Information System Based on Semantic Technology

Havlena, Jan

January 2010

This master's thesis deals with the design of a distributed information system, where the data distribution is based on semantic technologies. The project analyzes the semantic web technologies with the focus on information exchange between information systems and the related terms, mainly ontologies, ontology languages and the Resource description framework. Furthermore, there is described a proposal an ontology which is used to describe the data exchanged between the systems and the technologies used to implement distributed information system. The most important of them are Java Server Faces and Sesame.

Informační systém pro sledování prezence osob na základě více zdrojů / Information System for Monitoring of a Presence State from Multiple Points

Ryšavý, Libor

January 2008

This master's thesis deals with the problem of monitoring of a presence state from multiple points. It begins with analysis of presence information propagation in various systems and also with multiple points of presence in general terms. After that follows requirements analysis and design of information system which will evaluate presence information from multiple sources with various features and than display it graphically on plans or maps. At the conclusion there is described implementation and testing of developed information system.

Web applications using the Google Web Toolkit / Webanwendungen unter Verwendung des Google Web Toolkits

von Wenckstern, Michael

04 June 2013

This diploma thesis describes how to create or convert traditional Java programs to desktop-like rich internet applications with the Google Web Toolkit. The Google Web Toolkit is an open source development environment, which translates Java code to browser and device independent HTML and JavaScript. Most of the GWT framework parts, including the Java to JavaScript compiler as well as important security issues of websites will be introduced. The famous Agricola board game will be implemented in the Model-View-Presenter pattern to show that complex user interfaces can be created with the Google Web Toolkit. The Google Web Toolkit framework will be compared with the JavaServer Faces one to find out which toolkit is the right one for the next web project. / Diese Diplomarbeit beschreibt die Erzeugung desktopähnlicher Anwendungen mit dem Google Web Toolkit und die Umwandlung klassischer Java-Programme in diese. Das Google Web Toolkit ist eine Open-Source-Entwicklungsumgebung, die Java-Code in browserunabhängiges als auch in geräteübergreifendes HTML und JavaScript übersetzt. Vorgestellt wird der Großteil des GWT Frameworks inklusive des Java zu JavaScript-Compilers sowie wichtige Sicherheitsaspekte von Internetseiten. Um zu zeigen, dass auch komplizierte graphische Oberflächen mit dem Google Web Toolkit erzeugt werden können, wird das bekannte Brettspiel Agricola mittels Model-View-Presenter Designmuster implementiert. Zur Ermittlung der richtigen Technologie für das nächste Webprojekt findet ein Vergleich zwischen dem Google Web Toolkit und JavaServer Faces statt.

GWT

Google Web Toolkit

Entwicklung des World Wide Web

Hypertext Markup Language

Cascading Style Sheets

JavaScript

Asynchrones JavaScript und XML

GWT Entwicklungswerkzeug und Compiler

GWT im Einsatz

JSNI

JavaScript Native Interface

Java Runtime Environment Emulation

GWT Widgets

Übersicht der GWT Widgets

Ereignisbehandlung in GWT Widgets

Remote Procedure Calls

Browserverlauf verwalten

Client Bundle

Model-View-Presenter Architektur

Vergleich von MVP und MVC

e.g. Newsaktualisierung

Umfrage in beiden Technologien

Eine Webanwendung schreiben

Ein Geschwindigkeitsspiel schreiben

Tomcat herunterladen

HTTPS Verbindung in Tomcat erstellen

Pem Zertifikat erstellen

Datenbankverbindung in Tomcat erstellen

MySQL-Tabellen erstellen

Anmeldemechanismus in Tomcat

SafeHtml

SFB799 Datenbank Webanwendung

GWT

Google Web Toolkit

Development of the World Wide Web

Hypertext Markup Language

Cascading Style Sheets

JavaScript

Asynchronous JavaScript and XML

GWT toolbox and compiler

GWT in action

JSNI

JavaScript Native Interface

GWT compiler steps and optimizations

Java Runtime Environment Emulation

GWT Widgets

Overview of GWT Widgets

Event handlers in GWT Widgets

Remote Procedure Calls

History Management

Client Bundle

Model-View-Presenter Architecture

Comparison of MVP and MVC

e.g. news update

Doing a survey in both technologies

Creating a forum to show data

Writing a chat application

Writing the speed game Snake

Download Tomcat

Establish HTTPS connections in Tomcat

Create a pem certificate

Create TomcatGWT user and schema

and add the table countries

Login mechanism in Tomcat

SafeHtml

SFB799 Database Web Client

AJAX

AST

Abstract Syntax Tree

CM

Communicating Module

CSS

DOM

Document Object Model

HTML

HTML DOM

JREE

JSF

JavaServer Faces

MVC

Model-View-Controller

MVP

Model-View-Presenter

RIA

Rich Internet Application

RMI

Remote Method Invocation

RPC

Remote Procedure Call

SQL

UML

Unified Modeling Language

ECMAScript

GXT

ddc:004

World Wide Web

Anwendungssystem

Programmierung

Google Web Toolkit

Java Server Faces

Java <Programmiersprache>

JavaScript

HTML

Ajax <Informatik>

Sicherheit

Tomcat <Programm>

Digitales Zertifikat

MySQL

Web applications using the Google Web Toolkit

von Wenckstern, Michael

05 June 2013

This diploma thesis describes how to create or convert traditional Java programs to desktop-like rich internet applications with the Google Web Toolkit. The Google Web Toolkit is an open source development environment, which translates Java code to browser and device independent HTML and JavaScript. Most of the GWT framework parts, including the Java to JavaScript compiler as well as important security issues of websites will be introduced. The famous Agricola board game will be implemented in the Model-View-Presenter pattern to show that complex user interfaces can be created with the Google Web Toolkit. The Google Web Toolkit framework will be compared with the JavaServer Faces one to find out which toolkit is the right one for the next web project.:I Abstract II Contents III Acronyms and Glossary III.I Acronyms III.II Glossary IV Credits 1 Introduction 2 Basics 2.1 Development of the World Wide Web 2.2 Hypertext Markup Language 2.3 Cascading Style Sheets 2.4 JavaScript 2.5 Hypertext Markup Language Document Object Model 2.6 Asynchronous JavaScript and XML 3 GWT toolbox and compiler 3.1 GWT in action 3.2 A short overview of the toolkit 3.3 GWT compiler and JSNI 3.3.1 Overview of GWT compiler and JSNI 3.3.2 Deferred binding and bootstrapping process 3.3.3 GWT compiler steps and optimizations 3.4 Java Runtime Environment Emulation 3.5 Widgets and Panels 3.5.1 Overview of GWT Widgets 3.5.2 Event handlers in GWT Widgets 3.5.3 Manipulating browser’s DOM with GWT DOM class 3.5.4 GWT Designer and view optimization using UiBinder 3.6 Remote Procedure Calls 3.6.1 Comparison of Remote Procedure Calls with Remote Method Invocations 3.6.2 GWT’s RPC service and serializable whitelist 3.7 History Management 3.8 Client Bundle 3.8.1 Using ImageResources in the ClientBundle interface 3.8.2 Using CssResources in the ClientBundle interface 4 Model-View-Presenter Architecture 4.1 Comparison of MVP and MVC 4.2 GWT Model-View-Presenter pattern example: Agricola board game 4.3 Extending the Agricola web application with mobile views 4.4 Introducing activities in the Agricola Model-View-Presenter pattern enabling browser history 5 Comparison of the two web frameworks: GWT and JSF 5.1 Definitions of comparison fields 5.2 Comparison in category 1: Nearly completely static sites with a little bit of dynamic content, e.g. news update 5.3 Comparison in category 2: Doing a survey in both technologies 5.4 Comparison in category 3: Creating a forum to show data 5.5 Comparison in category 4: Writing a chat application 5.6 Comparison in category 5: Writing the speed game Snake 5.7 Summary 6 Security 6.1 Download Tomcat 6.2 Dynamic Web Application Project with GWT and Tomcat 6.3 Establish HTTPS connections in Tomcat 6.3.1 Create a pem certificate 6.3.2 Convert pem certificate into a key store object 6.3.3 Configure Tomcat’s XML files to enable HTPPS 6.4 Establish a database connection in Tomcat 6.4.1 Create TomcatGWT user and schema, and add the table countries 6.4.2 Configure Tomcat’s XML files to get access to the database connection 6.4.3 PreparedStatements avoid MySQL injections 6.5 Login mechanism in Tomcat 6.6 SafeHtml 7 Presenting a complex software application written in GWT 8 Conclusions 8.1 Summary 8.2 Future work A Appendix A 1 Configure the Google Web Toolkit framework in Eclipse A 1.1 Install the Java Developer Kit A 1.2 Download Eclipse A 1.3 Install the GWT plugin in Eclipse A 1.4 Create first GWT Java Project A 2 Figures A 3 Listings A 3.1 Source code of the Agricola board game A 3.2 Source code of GWT and JSF comparison A 4 Tables R Lists and References R 1 Lists R 1.1 List of Tables R 1.2 List of Figures R 1.3 List of Listings R 2 References R 2.1 Books R 2.2 Online resources / Diese Diplomarbeit beschreibt die Erzeugung desktopähnlicher Anwendungen mit dem Google Web Toolkit und die Umwandlung klassischer Java-Programme in diese. Das Google Web Toolkit ist eine Open-Source-Entwicklungsumgebung, die Java-Code in browserunabhängiges als auch in geräteübergreifendes HTML und JavaScript übersetzt. Vorgestellt wird der Großteil des GWT Frameworks inklusive des Java zu JavaScript-Compilers sowie wichtige Sicherheitsaspekte von Internetseiten. Um zu zeigen, dass auch komplizierte graphische Oberflächen mit dem Google Web Toolkit erzeugt werden können, wird das bekannte Brettspiel Agricola mittels Model-View-Presenter Designmuster implementiert. Zur Ermittlung der richtigen Technologie für das nächste Webprojekt findet ein Vergleich zwischen dem Google Web Toolkit und JavaServer Faces statt.:I Abstract II Contents III Acronyms and Glossary III.I Acronyms III.II Glossary IV Credits 1 Introduction 2 Basics 2.1 Development of the World Wide Web 2.2 Hypertext Markup Language 2.3 Cascading Style Sheets 2.4 JavaScript 2.5 Hypertext Markup Language Document Object Model 2.6 Asynchronous JavaScript and XML 3 GWT toolbox and compiler 3.1 GWT in action 3.2 A short overview of the toolkit 3.3 GWT compiler and JSNI 3.3.1 Overview of GWT compiler and JSNI 3.3.2 Deferred binding and bootstrapping process 3.3.3 GWT compiler steps and optimizations 3.4 Java Runtime Environment Emulation 3.5 Widgets and Panels 3.5.1 Overview of GWT Widgets 3.5.2 Event handlers in GWT Widgets 3.5.3 Manipulating browser’s DOM with GWT DOM class 3.5.4 GWT Designer and view optimization using UiBinder 3.6 Remote Procedure Calls 3.6.1 Comparison of Remote Procedure Calls with Remote Method Invocations 3.6.2 GWT’s RPC service and serializable whitelist 3.7 History Management 3.8 Client Bundle 3.8.1 Using ImageResources in the ClientBundle interface 3.8.2 Using CssResources in the ClientBundle interface 4 Model-View-Presenter Architecture 4.1 Comparison of MVP and MVC 4.2 GWT Model-View-Presenter pattern example: Agricola board game 4.3 Extending the Agricola web application with mobile views 4.4 Introducing activities in the Agricola Model-View-Presenter pattern enabling browser history 5 Comparison of the two web frameworks: GWT and JSF 5.1 Definitions of comparison fields 5.2 Comparison in category 1: Nearly completely static sites with a little bit of dynamic content, e.g. news update 5.3 Comparison in category 2: Doing a survey in both technologies 5.4 Comparison in category 3: Creating a forum to show data 5.5 Comparison in category 4: Writing a chat application 5.6 Comparison in category 5: Writing the speed game Snake 5.7 Summary 6 Security 6.1 Download Tomcat 6.2 Dynamic Web Application Project with GWT and Tomcat 6.3 Establish HTTPS connections in Tomcat 6.3.1 Create a pem certificate 6.3.2 Convert pem certificate into a key store object 6.3.3 Configure Tomcat’s XML files to enable HTPPS 6.4 Establish a database connection in Tomcat 6.4.1 Create TomcatGWT user and schema, and add the table countries 6.4.2 Configure Tomcat’s XML files to get access to the database connection 6.4.3 PreparedStatements avoid MySQL injections 6.5 Login mechanism in Tomcat 6.6 SafeHtml 7 Presenting a complex software application written in GWT 8 Conclusions 8.1 Summary 8.2 Future work A Appendix A 1 Configure the Google Web Toolkit framework in Eclipse A 1.1 Install the Java Developer Kit A 1.2 Download Eclipse A 1.3 Install the GWT plugin in Eclipse A 1.4 Create first GWT Java Project A 2 Figures A 3 Listings A 3.1 Source code of the Agricola board game A 3.2 Source code of GWT and JSF comparison A 4 Tables R Lists and References R 1 Lists R 1.1 List of Tables R 1.2 List of Figures R 1.3 List of Listings R 2 References R 2.1 Books R 2.2 Online resources

info:eu-repo/classification/ddc/004

ddc:004