Scientific Engineering of Distributed Java Applications. Third International Workshop, FIDJI 2003, Luxembourg-Kirchberg, Luxembourg, November 27-28, 2003, Revised Papers /
Scientific Engineering of Distributed Java Applications. Third International Workshop, FIDJI 2003, Luxembourg-Kirchberg, Luxembourg, November 27-28, 2003, Revised Papers / [electronic resource] :
edited by Nicoals Guelfi, Egidio Astesiano, Gianna Reggio.
- 1st ed. 2004.
- X, 158 p. online resource.
- Lecture Notes in Computer Science, 2952 1611-3349 ; .
- Lecture Notes in Computer Science, 2952 .
A Framework for Resolution of Deployment Dependencies in Java-Enabled Service Gateways -- A Framework for Resolution of Deployment Dependencies in Java-Enabled Service Gateways -- A Java Package for Class and Mixin Mobility in a Distributed Setting -- Streaming Services: Specification and Implementation Based on XML and JMF -- Hard Real-Time Implementation of Embedded Software in JAVA -- Experiment on Embedding Interception Service into Java RMI -- BANip: Enabling Remote Healthcare Monitoring with Body Area Networks -- Structural Testing of Mobile Agents -- A Model of Error Management for Financial Systems -- Software Model Engineering and Reuse with the Evolution and Validation Environment -- Distributed Composite Objects: A New Object Model for Cooperative Applications -- A Java-Based Uniform Workbench for Simulating and Executing Distributed Mobile Applications -- Seamless UML Support for Service-Based Software Architectures -- Model Generation for Distributed Java Programs -- Keynote Talks -- Software Inspections We Can Trust -- Tutorials -- J2EE and .NET: Interoperability with Webservices.
FIDJI 2003 was an international forum for researchers and practitioners in- rested in the advances in, and applications of, software engineering for distri- ted applicationdevelopment. Concerningthe technologies,the workshopfocused on “Java-related” technologies. It was an opportunity to present and observe the latest research, results, and ideas in these areas. Allpaperssubmittedtothisworkshopwerereviewedbyatleasttwomembers of the International Program Committee. Acceptance was based primarily on originality and contribution. We selected, for these post-workshop proceedings, 14 papers, amongst 29 submitted, two tutorials, and one keynote talk. FIDJI2003aimedatpromotingascienti?capproachtosoftwareengineering. The scope of the workshop included the following topics: – design of distributed Java applications – Java-related technologies – software and system architecture engineering and development methodo- gies – development methodologies for UML – development methodologies for reliable distributed systems – component-based development methodologies – managementofevolutions/iterationsintheanalysis,design,implementation, and test phases – dependability support during system life-cycles – managing inconsistencies during application development – atomicity and exception handling in system development – software architectures, frameworks, and design patterns for developing d- tributed systems – integration of formal techniques in the development process – formal analysis and grounding of modeling notation and techniques (e. g. , UML, metamodeling) – supporting the security requirements of distributed applications in the - velopment process – refactoring methods – industrial and academic case studies – development and analysis tools Theorganization of such a workshop represents an important amount of work.
9783540246398
10.1007/b95352 doi
Computer programming.
Software engineering.
Computer networks .
Information storage and retrieval systems.
Application software.
Programming Techniques.
Software Engineering.
Computer Communication Networks.
Information Storage and Retrieval.
Computer and Information Systems Applications.
QA76.6-76.66
005.11
A Framework for Resolution of Deployment Dependencies in Java-Enabled Service Gateways -- A Framework for Resolution of Deployment Dependencies in Java-Enabled Service Gateways -- A Java Package for Class and Mixin Mobility in a Distributed Setting -- Streaming Services: Specification and Implementation Based on XML and JMF -- Hard Real-Time Implementation of Embedded Software in JAVA -- Experiment on Embedding Interception Service into Java RMI -- BANip: Enabling Remote Healthcare Monitoring with Body Area Networks -- Structural Testing of Mobile Agents -- A Model of Error Management for Financial Systems -- Software Model Engineering and Reuse with the Evolution and Validation Environment -- Distributed Composite Objects: A New Object Model for Cooperative Applications -- A Java-Based Uniform Workbench for Simulating and Executing Distributed Mobile Applications -- Seamless UML Support for Service-Based Software Architectures -- Model Generation for Distributed Java Programs -- Keynote Talks -- Software Inspections We Can Trust -- Tutorials -- J2EE and .NET: Interoperability with Webservices.
FIDJI 2003 was an international forum for researchers and practitioners in- rested in the advances in, and applications of, software engineering for distri- ted applicationdevelopment. Concerningthe technologies,the workshopfocused on “Java-related” technologies. It was an opportunity to present and observe the latest research, results, and ideas in these areas. Allpaperssubmittedtothisworkshopwerereviewedbyatleasttwomembers of the International Program Committee. Acceptance was based primarily on originality and contribution. We selected, for these post-workshop proceedings, 14 papers, amongst 29 submitted, two tutorials, and one keynote talk. FIDJI2003aimedatpromotingascienti?capproachtosoftwareengineering. The scope of the workshop included the following topics: – design of distributed Java applications – Java-related technologies – software and system architecture engineering and development methodo- gies – development methodologies for UML – development methodologies for reliable distributed systems – component-based development methodologies – managementofevolutions/iterationsintheanalysis,design,implementation, and test phases – dependability support during system life-cycles – managing inconsistencies during application development – atomicity and exception handling in system development – software architectures, frameworks, and design patterns for developing d- tributed systems – integration of formal techniques in the development process – formal analysis and grounding of modeling notation and techniques (e. g. , UML, metamodeling) – supporting the security requirements of distributed applications in the - velopment process – refactoring methods – industrial and academic case studies – development and analysis tools Theorganization of such a workshop represents an important amount of work.
9783540246398
10.1007/b95352 doi
Computer programming.
Software engineering.
Computer networks .
Information storage and retrieval systems.
Application software.
Programming Techniques.
Software Engineering.
Computer Communication Networks.
Information Storage and Retrieval.
Computer and Information Systems Applications.
QA76.6-76.66
005.11