Proceeding Publisher & Sponsor
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CDVE2020 Call for Paper Themes
The call for paper themes are centered on the
aspect of "cooperative". The is the special point
of our conference. Therefore please take this
aspect into account when writing your papers.
Basically all the application areas concerning
multiple users, multiple locations, multiple
units, multiple sensors are within our attention.
The major areas are the following but not limited
to the following:
Cooperative Design (CD)
• Concurrent design, collaborative editing, real
time user interactions
• Multiple user, multiple location collaborative
design applications
• Cooperative User Experience (UX) design
• Demonstrating feasibility and applicability in
CD
• Design for total life cycle support: from design
to manufacturing or construction
• Cooperative design using interactive tabletops
and surfaces
• 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)
• 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.
• Vusualization for multiple user, multiple
location, concurrent visualization
• Cooperative visual analytics and communication
• Large scale, big 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 Engineering (CE)
• 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
• Smart grids
• Industrial scenarios, case studies of CE: in
mechanical engineering, aero-space engineering,
AEC (architecture, engineering and construction),
automobile, microelectronics, and others
• Method, applications for total life cycle
support: from conceptual design to manufacturing
and construction
Cooperative Applications (CA)
• Human computer interface for cooperative working
• Cooperation between humans and autonomous
Systems
• Social networks
• Crowd sourcing
• Collective intelligence
• Cooperative learning
• Multiple user gaming
• Multiple platform payment systems
• Multimodal user interface for cooperation
• Cooperative decision making
• Cooperative Internet of Things (IoT)
• Nono networks, nano-commmunication, nano sensors
• Collaborative Information seeking
• Information integration in sensor networks
• Collaborations in emergency response and
disaster management
• Collaborative mobile systems, group interaction
in mobile system and mobility communities
• Collaborative simulation
• 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
Basic Theories, methods and technologies that
support CDVE (BT)
• Modeling of group behavior
• Distributed systems, grid systems, real time
systems, groupware
• Cloud computing, edge computing for cooperative
work
• Fog computing for cooperative storage,
cooperative working
• Big data processing, fusion
• Multi-sensor data processing, fusion
• Neural networks for CDVE
• Block chains, distributed ledger technology
• 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
• Artificial intelligence for CDVE
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