Cited By
View all- Vásquez-Bermúdez MSanz CZangara MHidalgo J(2021)Visualization Tools for Collaborative Systems: A Systematic ReviewTechnologies and Innovation10.1007/978-3-030-88262-4_8(107-122)Online publication date: 15-Nov-2021
Dynamic Collaboration Modeling and Visualization
Pages 93 - 100
Abstract
Collaboration has a significant impact on project schedule and process control in collaborative work, but existing project management software does not support the presentation and analysis of collaboration relationships. In view of this deficiency, taking into account the dynamic and complexity of the cooperative relationship, firstly, on the basis of the role-based modeling method, this paper adds the definition of the dynamic relationship elements such as "time unit", according to the theory of the relationship strength in sociology and the definition of role relationship is refined, puts forward the dynamic complex cooperative relation of the role-based model, which modeling the complex cooperative relationship information. And then use the Storyline visualization method to verify the model, including the basic elements and relationships of visual coding and layout algorithm to achieve, and enrich the visual metaphor and interactive means. Finally, take software development project as an example to verify, the experimental results show that, in this model, the dynamics of the cooperative relationship can be effectively visualized description.
References
[1]
Ribeiro, Fernanda C., Jano Moreira de Souza, and Melise MV de Paula. 2015. Use of information visualization techniques in a collaborative context. In Computer Supported Cooperative Work in Design (CSCWD), 2015 IEEE 19th International Conference on. IEEE, 79--84.
[2]
Therón, R., González, A., García, F. J., and Santos, P. 2007. The use of information visualization to support software configuration management. In IFIP Conference on Human-Computer Interaction. Springer Berlin Heidelberg, 317--331.
[3]
Aguirregoitia, Amaia, José Javier Dolado Cosín, and Concepción Presedo. 2010. Software project visualization using task oriented metaphors. Journal of Software Engineering and Applications 3, 11 (2010), 1015--1026.
[4]
Aigner, W., Miksch, S., Thurnher, B., and Biffl, S. 2005. PlanningLines: novel glyphs for representing temporal uncertainties and their evaluation. In Information Visualisation, 2005 Ninth International Conference on. IEEE, 457--463.
[5]
Beck, F., Burch, M., Diehl, S., and Weiskopf, D. 2017. A taxonomy and survey of dynamic graph visualization. In Computer Graphics Forum 36, 1 (2017), 133--159.
[6]
Jianu, R., Rusu, A., Hu, Y., and Taggart, D. 2014. How to display group information on node-link diagrams: an evaluation. IEEE Transactions on Visualization and Computer Graphics 20, 11 (2014), 1530--1541.
[7]
Bach, Benjamin, Emmanuel Pietriga, and Jean-Daniel Fekete. 2014. Visualizing dynamic networks with matrix cubes. In Proceedings of the 32nd annual ACM conference on Human factors in computing systems. ACM, 877--886.
[8]
Ogawa, Michael, and Kwan-Liu Ma. 2010. Software evolution storylines. In Proceedings of the 5th international symposium on Software visualization. ACM, 35--42.
[9]
Liu, S., Wu, Y., Wei, E., Liu, M., and Liu, Y. 2013. Storyflow: Tracking the evolution of stories. IEEE Transactions on Visualization and Computer Graphics 19, 12 (2013), 2436--2445.
[10]
Wu, Y., Pitipornvivat, N., Zhao, J., Yang, S., Huang, G., and Qu, H. 2016. egoslider: Visual analysis of egocentric network evolution. IEEE transactions on visualization and computer graphics 22, 1 (2016), 260--269.
[11]
Viégas, Fernanda B., Martin Wattenberg, and Kushal Dave. 2004. Studying cooperation and conflict between authors with history flow visualizations. In Proceedings of the SIGCHI conference on Human factors in computing systems. ACM, 575--582.
[12]
Ge Sheng, Sun Yinglin, Du Zongxia. 2003. A Role Based Collab-oration Modeling Method. Computer Engineering and Applications 39, 3 (2003), 14--18. (in Chinese)
[13]
Drury, Jill, and Marian G. Williams. 2002. A framework for role-based specification and evaluation of awareness support in synchronous collaborative applications. In Proceedings of Enabling Technologies: Infrastructure for Collaborative Enterprises, 2002 Eleventh IEEE International Workshops on. IEEE, 12--17.
[14]
Zhu Jun, Tang Yong. 2007. Collaborative Research on Hierarchical Awareness Model for Role-Based Group Collaborative. Journal of Software, (2007). (in Chinese)
[15]
Liu Tingting, Zhang Youliang. 2004. Design of extended Role- based access Control Model. Journal of Computer-Aided Design and Computer Graphics 16, 6 (2004), 838--844. (in Chinese)
[16]
Wang Xiaodong, Sun Haiyan, Zhou Xingming, Xu Ming. 2000. A New Model of Cooperation: The Dynamical Cooperation Systems Model. Computer Engineering and Science 22, 5 (2000), 43--47. (in Chinese)
[17]
Liu Zhen, Wu Xiangyang, Zheng Qiuhua. 2016. A Survey of Dynamic Network Visualization and Visual Analysis. Journal of Computer-Aided Design and Computer Graphics 28, 5 (2016), 693--701. (in Chinese)
[18]
Arendt, Dustin L., and Leslie M. Blaha. 2014. SVEN: informative visual representation of complex dynamic structure. arXiv preprint arXiv:1412.6706.
[19]
Tanahashi, Yuzuru, and Kwan-Liu Ma. 2012. Design considerations for optimizing storyline visualizations. IEEE Transactions on Visualization and Computer Graphics 18, 12 (2012), 2679--2688.
[20]
Tanahashi, Yuzuru, Chien-Hsin Hsueh, and Kwan-Liu Ma. 2015. An efficient framework for generating storyline visualizations from streaming data. IEEE transactions on visualization and computer graphics 21, 6 (2015), 730--742.
[21]
Bryan, Chris, Kwan-Liu Ma, and Jonathan Woodring. 2017. Temporal summary images: An approach to narrative visualization via interactive annotation generation and placement. IEEE transactions on visualization and computer graphics 23, 1 (2017), 511--520.
[22]
Lu Qiang, Zhu Xiangyuan, Liu Li, and Cao Shubo. 2014. An effective demonstration for group collaboration based on storyline visualization technology. In Computer Supported Cooperative Work in Design (CSCWD), Proceedings of the 2014 IEEE 18th International Conference on. IEEE, 47--52.
[23]
Zheng Qinghua, Li Renhou. 1998. A Modeling and Implementing Method of CSCW. Chinese Journal of Computers 21, s1 (1998), 270--276. (in Chinese)
[24]
Zhang Daochun, Liu Hong. 2006. Research on an Object-Oriented Multi-Hierarchy Cooperation Model. Information Technology and Informatization, 1 (2006), 111--113. (in Chinese)
[25]
Liebowitz, Jay. 2005. Linking social network analysis with the analytic hierarchy process for knowledge mapping in organizations. Journal of knowledge management 9, 1 (2005), 76--86.
[26]
Gramazio, Connor C., David H. Laidlaw, and Karen B. 2017. Colorgorical: Creating discriminable and preferable color palettes for information visualization. IEEE transactions on visualization and computer graphics 23, 1 (2017), 521--530.
Index Terms
- Dynamic Collaboration Modeling and Visualization
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Published In
September 2017
269 pages
ISBN:9781450353526
DOI:10.1145/3127404
- General Chairs:
- Zili Zhang,
- Ning Gu,
- Program Chairs:
- Shaozi Li,
- Tun Lu,
- Li Li
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Association for Computing Machinery
New York, NY, United States
Publication History
Published: 22 September 2017
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- Research-article
- Research
- Refereed limited
Funding Sources
- Natural Science Foundation of Anhui Province
- The Natural Science Foundation of China
- National Key R&D Plan
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ChineseCSCW '17
ChineseCSCW '17: Chinese Conference on Computer Supported Cooperative Work and Social Computing
September 22 - 23, 2017
Chongqing, China
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ChineseCSCW '17 Paper Acceptance Rate 21 of 84 submissions, 25%;
Overall Acceptance Rate 21 of 84 submissions, 25%
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View all- Vásquez-Bermúdez MSanz CZangara MHidalgo J(2021)Visualization Tools for Collaborative Systems: A Systematic ReviewTechnologies and Innovation10.1007/978-3-030-88262-4_8(107-122)Online publication date: 15-Nov-2021
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