Sciweavers
Explore
Publications
Books
Software
Tutorials
Presentations
Lectures Notes
Datasets
Labs
Conferences
Community
Upcoming
Conferences
Top Ranked Papers
Most Viewed Conferences
Conferences by Acronym
Conferences by Subject
Conferences by Year
Tools
Sci2ools
International Keyboard
Graphical Social Symbols
CSS3 Style Generator
OCR
Web Page to Image
Web Page to PDF
Merge PDF
Split PDF
Latex Equation Editor
Extract Images from PDF
Convert JPEG to PS
Convert Latex to Word
Convert Word to PDF
Image Converter
PDF Converter
Community
Sciweavers
About
Terms of Use
Privacy Policy
Cookies
Free Online Productivity Tools
i2Speak
i2Symbol
i2OCR
iTex2Img
iWeb2Print
iWeb2Shot
i2Type
iPdf2Split
iPdf2Merge
i2Bopomofo
i2Arabic
i2Style
i2Image
i2PDF
iLatex2Rtf
Sci2ools
24
click to vote
IFIP
2009
Springer
favorite
Email
discuss
report
150
views
Programming Languages
»
more
IFIP 2009
»
Collaborative Capability of Teams in Network Organizations
14 years 3 months ago
Download
www.uninova.pt
Sebastian Ulbrich, Heide Troitzsch, Fred van den A
Real-time Traffic
IFIP 2009
|
Programming Languages
|
claim paper
Related Content
»
Incorporating Wireless Technology into Virtual Organizations Supporting the Work of Health...
»
Collaborative Agents for C2 Teamwork Simulation
»
inContext A Pervasive and Collaborative Working Environment for Emerging Team Forms
»
Palantir a framework for collaborative incident response and investigation
»
Can Neurophysiologic Synchronies Provide a Platform for Adapting Team Performance
»
Adhoc Management Capabilities for Distributed Business Processes
»
Finding Experts by Link Prediction in Coauthorship Networks
»
The challenges of ambient collaboration
»
Integrating agile software development and software process improvement a longitudinal cas...
more »
Post Info
More Details (n/a)
Added
25 Jul 2010
Updated
25 Jul 2010
Type
Conference
Year
2009
Where
IFIP
Authors
Sebastian Ulbrich, Heide Troitzsch, Fred van den Anker, Adrian Plüss, Charles Huber
Comments
(0)
Researcher Info
Programming Languages Study Group
Computer Vision