Call for Papers topics
Original papers of the following topics that have not been published
nor submitted elsewhere are welcome to submit to CDVE2012.
Cooperative Engineering (CE)
• Total life cycle support: from design to
manufacturing and construction
• Collaborative process planning, scheduling,
control, conformance testing and interoperability checking, cooperative
decision making.
• Human-machine interfaces, frameworks, reference
models, architectures, tools and systems for CE
• Concurrent prototyping, manufacturing and
engineering.
• Concurrent process modeling, product modeling,
reference models, business models, data representations and
standards.
• Integration and interoperability, intelligent
infrastructures and automated methods for integrating systems,
multi-level integration, enterprise integration
• Long-term large scale project data archiving,
access, concurrent data control for CE
• Industrial scenarios, case studies of CE: in
mechanical engineering, aero-space engineering, AEC (architecture,
engineering and construction), automobile, microelectronics, and others
Basic Theories, methods and technologies that support
CDVE (BT)
• Distributed systems, grid systems, real time
systems, groupwares
• Cloud computing for cooperative work
• Algorithms, architectures, frameworks, platforms
for CDVE
• Data consistency, concurrent processing,
middleware, agent based methods
• Collaborative and multimode working environment
• Design patterns, reusability and component-based
methods
• Communication, transport, application protocols for
CDVE
• Internet computing, web environment for
collaborative working
• Knowledge management, information systems, large
databases, data-mining
• Semantic Technologies for Information-Integrated Collaboration
• Ontology for information sharing, cooperative applications
• Security for CDVE
• Human machine interaction for CDVE
Cooperative Design (CD)
• Multiple user, multiple location collaborative
design applications
• Concurrent design, collaborative editing, real time
user interactions
• Demonstrating feasibility and applicability in CD
• Design for total life cycle support: from design to
manufacturing or construction
• Cooperative design analysis, verification,
integration and interoperability, standards
• Scenarios, case studies of cooperative design in
mechanical engineering, aero-space engineering, building architecture,
engineering and construction, automobile, microelectronics, software
engineering, entertainment and other areas
• Special issues in cooperative design
Cooperative visualization (CV)
• Multiple user, multiple location
visualization, concurrent visualization,
• System architecture, prototypes, user interfaces
for CV: web applications, textual and multimedia 2D, 3D desktop
interfaces, 3D virtual world environments, and multiple user embedded
systems.
• Large scale, massive data storage, access,
exploration, and manipulation, for cooperative visualization
• Multi-resolution and other efficient computer
graphics, visualization algorithms for cooperative visualization
• Visualization in multiple user games, networked
games, simulation visualization for multiple users
Cooperative Applications (CA)
• Cooperative learning
• Multiple user gaming
• Cooperative decision making
• Social networks
• Information integration in sensor networks
• Collaborations in emergency response and disaster management
• Collaborative mobile systems
• Collaborative robots and human robot interaction
• Collaboration technologies and systems for healthcare
• Web based cooperation tools, cooperative web design such as Wiki's
• Other cooperative applications
Topics NOT
under call for papers - your paper can be rejected
• Only design, visualization, engineering and applications themselves
NOT cooperative
We emphasize the cooperative aspect of the applications, not themselves.
• Basic theories, methods and applications with no direct relationship
with cooperative design, visualization and engineering, nor any
cooperative aspects
