[ecoop-info] Last days!, July 25: ICSEA 2012 || November 18-23, 2012 - Lisbon, Portugal

Cristina Pascual cris.pascual.gonzalez at gmail.com
Wed Jul 25 20:21:38 CEST 2012


INVITATION:

=================

The submission deadline has been extended to July 25, 2012.

Please consider to contribute to and/or forward to the appropriate groups the following opportunity to submit and 
publish original scientific results to ICSEA 2012.

In addition, authors of selected papers will be invited to submit extended article versions to one of the IARIA 
Journals: http://www.iariajournals.org

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============== ICSEA 2012 | Call for Papers ===============

CALL FOR PAPERS, TUTORIALS, PANELS

ICSEA 2012, The Seventh International Conference on Software Engineering Advances
November 18-23, 2012 - Lisbon, Portugal

General page: http://www.iaria.org/conferences2012/ICSEA12.html

Call for Papers: http://www.iaria.org/conferences2012/CfPICSEA12.html

- regular papers
- short papers (work in progress)
- posters

Submission page: http://www.iaria.org/conferences2012/SubmitICSEA12.html

Submission deadline: July 25, 2012

Sponsored by IARIA, www.iaria.org

Extended versions of selected papers will be published in IARIA Journals: http://www.iariajournals.org

Please note the Poster and Work in Progress options.

The topics suggested by the conference can be discussed in term of concepts, state of the art, research, 
standards, implementations, running experiments, applications, and industrial case studies.
Authors are invited to submit complete unpublished papers, which are not under review in any other conference or 
journal in the following, but not limited to, topic areas.

All tracks are open to both research and industry contributions, in terms of Regular papers, Posters, Work in 
progress, Technical/marketing/business presentations, Demos, Tutorials, and Panels.

Before submission, please check and comply with the Editorial rules: http://www.iaria.org/editorialrules.html

ICSEA 2012 Topics (topics and submission details: see CfP on the site)

Advances in fundamentals for software development
Fundamentals in software development; Software architecture, patterns, frameworks; Software analysis and model 
checking; Software architectural scalability; Requirements engineering and design; Software design (methodologies, 
patterns, experiences, views, design by contract, design by responsibilities, etc.); Software modeling (OO, 
non-OO, MDA, SOA, patterns, UML, etc.); Software process and workflow; Software validation and verification; 
Software testing and testing tools; Software implementation; Software project management (risk analysis, 
dependencies, etc.)

Advanced mechanisms for software development
Software composition; Process composition and refactoring; Co-design and codeplay; Software dependencies; 
Plug&play software; Adaptive software; Context-sensitive software; Policy-driven software design; Software 
rejuvenation; Feature interaction detection and resolution; Embedded software; Parallel and distributed software

Advanced design tools for developing software
Formal specifications in software; Programming mechanisms (real-time, multi-threads, etc.); Programming techniques 
(feature-oriented, aspects-oriented, generative programming, agents-oriented, contextual-oriented, incremental, 
stratified, etc.); Requirement specification languages; Programming languages; Automation of software design and 
implementation; Software design with highly distributed resources (GRID); Web service based software; 
Scenario-based model synthesis; Merging partial behavioral models; Partial goal/requirement satisfaction

Advanced facilities for accessing software
Information modeling; GUI related software; Computer-aided software design; Hierarchical APIs; APIs roles in 
software development; Ontology support for Web Services; Rapid prototyping tools; Embedded software quality; 
Thread modeling; Flexible Objects; Use cases; Visual Modeling

Software performance
Software performance modeling; Software performance engineering (UML diagrams, Process algebra, Petri nets, etc.); 
Software performance requirements; Performance forecast for specific applications; Performance testing; 
Web-service based software performance; Performance of rule-based software; Methods for performance improvements; 
Software performance experience reports; Program failures experiences; Error ranking via correlation; Empirical 
evaluation of defects

Software security, privacy, safeness
Security requirements, design, and engineering; Software safety and security; Security, privacy and safeness in 
software; Software vulnerabilities; Assessing risks in software; Software for online banking and transactions; 
Software trace analysis; Software uncertainties; Dynamic detection of likely invariants; Human trust in 
interactive software; Memory safety; Safety software reuse; High confidence software; Trusted computing; Next 
generation secure computing

Advances in software testing
Formal approaches for test specifications; Advanced testing methodologies; Static and dynamic analysis; Strategies 
for testing nondeterministic systems; Testing software releases; Generating tests suites; Evolutionary testing of 
embedded systems; Algorithmic testing; Exhaustive testing; Black-box testing; Testing at the design level; Testing 
reactive software; Empirical evaluation

Specialized software advanced applications
Database related software; Software for disaster recovery applications; Software for mobile vehicles; 
Biomedical-related software; Biometrics related software; Mission critical software; Real-time software; E-health 
related software; Military software; Crisis-situation software; Software for Bluetooth and mobile phones; 
Multimedia software applications

Open source software
Open source software (OSS) methodologies; OSS development and debugging; Security in OSS; Performance of OSS; OSS 
roles and responsibilities; OSS incremental development; Division of labor and coordination mechanisms; 
Distribution of decision-making; Operational boundaries; Experience reports and lessons learned; Versioning 
management; Towards generalizing the OSS methodologies and practices; Open source licensing; Industrial movement 
towards open source

Agile software techniques
Agile software methodologies and practices (extreme programming, scrum, feature-driven, etc.); Agile modeling 
(serial in the large, iterative in the small); Agile model driven design; Agile methodologies for embedded 
software; Software metrics for agile projects; Lifecycle for agile software development; Agile user experience 
design; Agility via program automation; Testing into an agile environment; Agile project planning; Agile unified 
process

Software deployment and maintenance
Software in small and large organizations; Deploying and maintaining open source software; Software maintenance; 
Software assurance; Patching; Run-time vulnerability checking; Software rejuvenation; Software updates; Partial or 
temporary feature deprecation; Multi-point software deployment and configuration; On-line software updates

Software engineering techniques, metrics, and formalisms
Software reuse; Software quality metrics (complexity, empiric metrics, etc.); Software re-engineering (reverse 
engineering); Software composition; Software integration; Consistency checking; Real-time software development; 
Temporal specification; Model checking; Theorem provers; Modular reasoning; Petri Nets; Formalisms for behavior 
specification; Advanced techniques for autonomic components and systems

Business technology
Enterprise Content Managements (ECMs); Business Intelligence (BI); Enterprise Portals; Business Process Management 
(BPM); Corporate Performance Management (CPM); Enterprise Data Warehouse; Web Publishing; Cloud Computing; 
Virtualisation; Data Mining; Workflows; Business Rules Management (BRM); Data Capturing

Software economics, adoption, and education
Patenting software; Software licensing; Software economics; Software engineering education; Academic and 
industrial views on software adoption and education; Good-to-great in software adoption and improvement; Software 
knowledge management

Improving productivity in research on software engineering
Developing frameworks to support research; Methods and tools to improving the research environment; Supporting 
domain specific research needs; Teaching research skills in Computer Science; Experience reports on well developed 
research processes; Experience reports on empirical approaches to software engineering research; Approaches to 
supporting higher degree students in their research; Approaches to enlarge the research / teaching nexus to 
improve academics productivity; Approaches to integration between university research and industry research; Tools 
to support the research process

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IARIA Publicity Board
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