- 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.
Search results
Showing 21 to 26 of 26 (0.049 seconds)Spelling suggestions: "subject:"converted""
| 21 |
Carbon assimilation, herbage accumulation, nutritive value, and grazing efficiency of Mulato II brachiariagrass under continuous stocking / Assimilação de carbono, acúmulo de forragem e eficiência de pastejo do Capim Mulato II sob lotação contínuaSilva, Valdson José da 25 May 2016 (has links)
Grazed pastures are the backbone of the Brazilian livestock industry and grasses of the genus Brachiaria (syn. Urochloa) are some of most used tropical forages in the country. Although the dependence on the forage resource is high, grazing management is often empirical and based on broad and non-specific guidelines. Mulato II brachiariagrass (Convert HD 364, Dow AgroSciences, São Paulo, Brazil) (B. brizantha × B. ruziziensis × B. decumbens), a new Brachiaria hybrid, was released as an option for a broad range of environmental conditions. There is no scientific information on specific management practices for Mulato II under continuous stocking in Brazil. The objectives of this research were to describe and explain variations in carbon assimilation, herbage accumulation (HA), plant-part accumulation, nutritive value, and grazing efficiency (GE) of Mulato II brachiariagrass as affected by canopy height and growth rate, the latter imposed by N fertilization rate, under continuous stocking. An experiment was carried out in Piracicaba, SP, Brazil, during two summer grazing seasons. The experimental design was a randomized complete block, with a 3 x 2 factorial arrangement, corresponding to three steady-state canopy heights (10, 25 and 40 cm) maintained by mimicked continuous stocking and two growth rates (imposed as 50 and 250 kg N ha-1 yr-1), with three replications. There were no height × N rate interactions for most of the responses studied. The HA of Mulato II increased linearly (8640 to 13400 kg DM ha-1 yr-1), the in vitro digestible organic matter (IVDOM) decreased linearly (652 to 586 g kg-1), and the GE decreased (65 to 44%) as canopy height increased. Thus, although GE and IVDOM were greatest at 10 cm height, HA was 36% less for the 10- than for the 40-cm height. The leaf carbon assimilation was greater for the shortest canopy (10 cm), but canopy assimilation was less than in taller canopies, likely a result of less leaf area index (LAI). The reductions in HA, plant-part accumulation, and LAI, were not associated with other signs of stand deterioration. Leaf was the main plant-part accumulated, at a rate that increased from 70 to 100 kg DM ha-1 d-1 as canopy height increased from 10 to 40 cm. Mulato II was less productive (7940 vs. 13380 kg ha-1 yr-1) and had lesser IVDOM (581 vs. 652 g kg-1) at the lower N rate. The increase in N rate affected plant growth, increasing carbon assimilation, LAI, rates of plant-part accumulation (leaf, stem, and dead), and HA. The results indicate that the increase in the rate of dead material accumulation due to more N applied is a result of overall increase in the accumulation rates of all plant-parts. Taller canopies (25 or 40 cm) are advantageous for herbage accumulation of Mulato II, but nutritive value and GE was greater for 25 cm, suggesting that maintaining ∼25-cm canopy height is optimal for continuously stocked Mulato II. / As pastagens são o elemento central da pecuária brasileira, sendo as gramíneas do gênero Brachiaria (sin. Urochloa) as plantas forrageiras tropicais mais utilizadas. O capim Mulato II (Convert HD 364, Dow AgroSciences, São Paulo, Brazil) (B. brizantha × B. ruziziensis × B. decumbens) foi lançado como uma opção para diversas condições ambientais e de manejo. Entretanto não existem informações de práticas de manejo específicas para o capim Mulato II sob lotação contínua no Brasil. Os objetivos desse estudo foram descrever e explicar variações na assimilação de carbono, acúmulo de forragem (AF), acúmulo de componentes morfológicos no dossel, valor nutritivo e eficiência de pastejo (EP) do capim Mulato II em resposta a alturas do dossel mantidas constantes e taxas de crescimento impostas por doses de nitrogênio sob lotação contínua. Um experimento foi conduzido em Piracicaba- SP, durante dois verões agrostológicos, utilizando o delineamento experimental de blocos completos casualizados com arranjo fatorial 3 × 2, correspondendo a três alturas (10, 25 e 40 cm) e duas doses de N (50 e 250 kg N ha-1 ano-1), com três repetições. A maior parte das variáveis estudadas não foram afetadas pela interação altura × dose de N. O AF do capim Mulato II aumentou linearmente (de 8640 para 13400 kg MS ha-1 ano-1), a digestibilidade in vitro da matéria orgânica (DIVMO) reduziu linearmente (de 652 para 586 g kg-1), e a EP foi reduzida (efeito linear e quadrático) de 65 para 44% com o aumento da altura do dossel. Com isso, embora a EP e a DIVMO tenham sido maiores em dosséis mantidos a 10 cm, o AF foi reduzido em 36% em comparação com aquele a 40 cm. As taxas de assimilação de carbono de folhas foi maior nos dosséis mantidos a 10 cm, mas a assimilação do dossel foi maior nos dosséis mais altos devido ao maior índice de área foliar (IAF). A redução do AF, do acúmulo de componentes morfológicos e do IAF não foram associados com outros sinais de deterioração do dossel. Folha foi o principal componente morfológico acumulado e a taxa de acúmulo aumentou linearmente de 70 para 100 kg DM ha-1 dia-1 quando a altura de manejo aumentou de 10 para 40 cm. O capim Mulato II foi menos produtivo (7940 vs. 13380 kg ha-1 ano-1) e apresentou menor DIVMO (581 vs. 652 g kg-1) na menor dose de N. O aumento na dose de N afetou o crescimento da planta, resultando em aumentos na assimilação de carbono, IAF, acúmulo de componentes morfológicos e AF. Os resultados indicam que o aumento nas taxas de acúmulo de material morto devido a maior dose de N foi resultado do aumento nas taxas de acúmulo de todos os componentes morfológicos do dossel. A manutenção do dossel mais alto (25 ou 40 cm) pode ser vantajosa devido ao aumento no AF do capim Mulato II, embora o valor nutritivo e EP tenha sido maior a 25 cm, sugerindo que esse capim deve ser mantido na altura de ∼25-cm quando manejado sob lotação contínua.
|
| 22 |
Carbon assimilation, herbage accumulation, nutritive value, and grazing efficiency of Mulato II brachiariagrass under continuous stocking / Assimilação de carbono, acúmulo de forragem e eficiência de pastejo do Capim Mulato II sob lotação contínuaValdson José da Silva 25 May 2016 (has links)
Grazed pastures are the backbone of the Brazilian livestock industry and grasses of the genus Brachiaria (syn. Urochloa) are some of most used tropical forages in the country. Although the dependence on the forage resource is high, grazing management is often empirical and based on broad and non-specific guidelines. Mulato II brachiariagrass (Convert HD 364, Dow AgroSciences, São Paulo, Brazil) (B. brizantha × B. ruziziensis × B. decumbens), a new Brachiaria hybrid, was released as an option for a broad range of environmental conditions. There is no scientific information on specific management practices for Mulato II under continuous stocking in Brazil. The objectives of this research were to describe and explain variations in carbon assimilation, herbage accumulation (HA), plant-part accumulation, nutritive value, and grazing efficiency (GE) of Mulato II brachiariagrass as affected by canopy height and growth rate, the latter imposed by N fertilization rate, under continuous stocking. An experiment was carried out in Piracicaba, SP, Brazil, during two summer grazing seasons. The experimental design was a randomized complete block, with a 3 x 2 factorial arrangement, corresponding to three steady-state canopy heights (10, 25 and 40 cm) maintained by mimicked continuous stocking and two growth rates (imposed as 50 and 250 kg N ha-1 yr-1), with three replications. There were no height × N rate interactions for most of the responses studied. The HA of Mulato II increased linearly (8640 to 13400 kg DM ha-1 yr-1), the in vitro digestible organic matter (IVDOM) decreased linearly (652 to 586 g kg-1), and the GE decreased (65 to 44%) as canopy height increased. Thus, although GE and IVDOM were greatest at 10 cm height, HA was 36% less for the 10- than for the 40-cm height. The leaf carbon assimilation was greater for the shortest canopy (10 cm), but canopy assimilation was less than in taller canopies, likely a result of less leaf area index (LAI). The reductions in HA, plant-part accumulation, and LAI, were not associated with other signs of stand deterioration. Leaf was the main plant-part accumulated, at a rate that increased from 70 to 100 kg DM ha-1 d-1 as canopy height increased from 10 to 40 cm. Mulato II was less productive (7940 vs. 13380 kg ha-1 yr-1) and had lesser IVDOM (581 vs. 652 g kg-1) at the lower N rate. The increase in N rate affected plant growth, increasing carbon assimilation, LAI, rates of plant-part accumulation (leaf, stem, and dead), and HA. The results indicate that the increase in the rate of dead material accumulation due to more N applied is a result of overall increase in the accumulation rates of all plant-parts. Taller canopies (25 or 40 cm) are advantageous for herbage accumulation of Mulato II, but nutritive value and GE was greater for 25 cm, suggesting that maintaining ∼25-cm canopy height is optimal for continuously stocked Mulato II. / As pastagens são o elemento central da pecuária brasileira, sendo as gramíneas do gênero Brachiaria (sin. Urochloa) as plantas forrageiras tropicais mais utilizadas. O capim Mulato II (Convert HD 364, Dow AgroSciences, São Paulo, Brazil) (B. brizantha × B. ruziziensis × B. decumbens) foi lançado como uma opção para diversas condições ambientais e de manejo. Entretanto não existem informações de práticas de manejo específicas para o capim Mulato II sob lotação contínua no Brasil. Os objetivos desse estudo foram descrever e explicar variações na assimilação de carbono, acúmulo de forragem (AF), acúmulo de componentes morfológicos no dossel, valor nutritivo e eficiência de pastejo (EP) do capim Mulato II em resposta a alturas do dossel mantidas constantes e taxas de crescimento impostas por doses de nitrogênio sob lotação contínua. Um experimento foi conduzido em Piracicaba- SP, durante dois verões agrostológicos, utilizando o delineamento experimental de blocos completos casualizados com arranjo fatorial 3 × 2, correspondendo a três alturas (10, 25 e 40 cm) e duas doses de N (50 e 250 kg N ha-1 ano-1), com três repetições. A maior parte das variáveis estudadas não foram afetadas pela interação altura × dose de N. O AF do capim Mulato II aumentou linearmente (de 8640 para 13400 kg MS ha-1 ano-1), a digestibilidade in vitro da matéria orgânica (DIVMO) reduziu linearmente (de 652 para 586 g kg-1), e a EP foi reduzida (efeito linear e quadrático) de 65 para 44% com o aumento da altura do dossel. Com isso, embora a EP e a DIVMO tenham sido maiores em dosséis mantidos a 10 cm, o AF foi reduzido em 36% em comparação com aquele a 40 cm. As taxas de assimilação de carbono de folhas foi maior nos dosséis mantidos a 10 cm, mas a assimilação do dossel foi maior nos dosséis mais altos devido ao maior índice de área foliar (IAF). A redução do AF, do acúmulo de componentes morfológicos e do IAF não foram associados com outros sinais de deterioração do dossel. Folha foi o principal componente morfológico acumulado e a taxa de acúmulo aumentou linearmente de 70 para 100 kg DM ha-1 dia-1 quando a altura de manejo aumentou de 10 para 40 cm. O capim Mulato II foi menos produtivo (7940 vs. 13380 kg ha-1 ano-1) e apresentou menor DIVMO (581 vs. 652 g kg-1) na menor dose de N. O aumento na dose de N afetou o crescimento da planta, resultando em aumentos na assimilação de carbono, IAF, acúmulo de componentes morfológicos e AF. Os resultados indicam que o aumento nas taxas de acúmulo de material morto devido a maior dose de N foi resultado do aumento nas taxas de acúmulo de todos os componentes morfológicos do dossel. A manutenção do dossel mais alto (25 ou 40 cm) pode ser vantajosa devido ao aumento no AF do capim Mulato II, embora o valor nutritivo e EP tenha sido maior a 25 cm, sugerindo que esse capim deve ser mantido na altura de ∼25-cm quando manejado sob lotação contínua.
|
| 23 |
Conversion to Judaism in South AfricaZekry, Pinchas 12 1900 (has links)
Amidst the decisive events of the 20th century - the Holocaust and the rebirth of the Jewish homeland - which impacted heavily on Jewish attitudes, emerged a broadening of religious doctrines creating diversity within Judaism.
Previous insularist tendencies were replaced by revised outlooks on
proselytisation, blending with the unique characteristics of South African
Jewry. Clearly, local Jewish society and the Rabbinate have placed these
updated perceptions high on its agenda. The inevitable mixed reactions
have been reviewed in this work, which looks at the long road travelled by
the convert from the viewpoint of current motivations, acceptance by the
community and post conversion levels of observance.
My own theory is a model encompassing the respective components of local proselytism looking at categories of converts, their motives, demands to be met and obstacles. To comprehend the contemporary position, a historical survey delved into the issue from its Biblical origins via the influences of centuries, reaching the South African scene. This inquiry investigated the development of conversion policies drawn from an evolvement of energetic Halakhic debate.
These attitudes manifest themselves in archival sources from 1924, of which my analysis is the first of its kind. From these records, together with those of my own community and data available from the Cape Beth Din, the interpretative statistics thus compiled identified characteristics and motivations of applicants and procedural mechanics.
This work proceeded a step further. Focus on the Durban model provided
an ideal observation point for the post conversion stages. Personal
knowledge of the candidates gained from my service to Durban Jewry
enabled me to assess their respective adherences and absorption into the community. Furthermore, responses to a questionnaire sent to the local Jewry and interviews revealed attitudes both of Jews by birth and the
converts themselves whilst added perceptions were obtained from a
questionnaire sent to the Rabbis of South Africa.
In the final chapter I submitted proposals and recommendations, some of
which are radical. Covering the entire process of conversion this model
attempts to address the future of conversions in South Africa as this is
expected to remain a pivotal issue of immense momentum. / Religious Studies & Arabic / D. Litt. et Phil. (Religious Studies)
|
| 24 |
Conversion to Judaism in South AfricaZekry, Pinchas 12 1900 (has links)
Amidst the decisive events of the 20th century - the Holocaust and the rebirth of the Jewish homeland - which impacted heavily on Jewish attitudes, emerged a broadening of religious doctrines creating diversity within Judaism.
Previous insularist tendencies were replaced by revised outlooks on
proselytisation, blending with the unique characteristics of South African
Jewry. Clearly, local Jewish society and the Rabbinate have placed these
updated perceptions high on its agenda. The inevitable mixed reactions
have been reviewed in this work, which looks at the long road travelled by
the convert from the viewpoint of current motivations, acceptance by the
community and post conversion levels of observance.
My own theory is a model encompassing the respective components of local proselytism looking at categories of converts, their motives, demands to be met and obstacles. To comprehend the contemporary position, a historical survey delved into the issue from its Biblical origins via the influences of centuries, reaching the South African scene. This inquiry investigated the development of conversion policies drawn from an evolvement of energetic Halakhic debate.
These attitudes manifest themselves in archival sources from 1924, of which my analysis is the first of its kind. From these records, together with those of my own community and data available from the Cape Beth Din, the interpretative statistics thus compiled identified characteristics and motivations of applicants and procedural mechanics.
This work proceeded a step further. Focus on the Durban model provided
an ideal observation point for the post conversion stages. Personal
knowledge of the candidates gained from my service to Durban Jewry
enabled me to assess their respective adherences and absorption into the community. Furthermore, responses to a questionnaire sent to the local Jewry and interviews revealed attitudes both of Jews by birth and the
converts themselves whilst added perceptions were obtained from a
questionnaire sent to the Rabbis of South Africa.
In the final chapter I submitted proposals and recommendations, some of
which are radical. Covering the entire process of conversion this model
attempts to address the future of conversions in South Africa as this is
expected to remain a pivotal issue of immense momentum. / Religious Studies and Arabic / D. Litt. et Phil. (Religious Studies)
|
| 25 |
Web applications using the Google Web Toolkit / Webanwendungen unter Verwendung des Google Web Toolkitsvon Wenckstern, Michael 04 June 2013 (has links) (PDF)
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.
|
| 26 |
Web applications using the Google Web Toolkitvon Wenckstern, Michael 05 June 2013 (has links)
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
|
Page generated in 0.0729 seconds