Environmental Engineering Reference
In-Depth Information
REFERENCES
1. Booth, K.S., and Lueker, G.S. (1976). Testing for the consecutive ones property, interval graphs,
and graph planarity using PQ-tree algorithms. Journal of Computer and System Sciences, 13(3),
335-379.
2. de Fraysseix, H., de Mendez, P.O., and Rosenstiehl, P. (2006). Trémaux Trees and Planarity.
International Journal of Foundations of Computer Science, 17(1017-1030).
3. Evolving Objects (EO) , distributed under the GNU Lesser General Public License by SourceForge
(http://eodev.sourceforge.net)
4. Ghosh, I. L., Hellweger, F., and Fritch, G.T. (2006). Fractal Generation of Artificial Sewer
Networks for Hydrologic Simulations. ESRI International User Conference, San Diego,
California, August 7-11.
5. Hopcroft, J., and Tarjan, R.E. (1974). Efficient planarity testing. Journal of the Association for
Computing Machinery, 21(4), 549-568.
6. Möderl, M., Fetz, T., and Rauch, W. (2007). Stochastic approach for performance evaluation
regarding water distribution systems. Water Sci Technol., 56(9), 29-36.
7. Möderl, M., Butler, D., and Rauch, W. (2009). A stochastic approach for automatic generation of
urban drainage systems. Water Science and Technology 59(No. 6), 1137-1143.
8. Ráez, C. P. (2003). Overview of Graph Theory: Ad Hoc Networking. [Lecturer notes in Centre for
Wireless Communications (ppt), University of Oulu, Finland].
9. Rodionov, A.S., & Choo, H. (2004). On Generating Random Network Structures: Connected
Graphs, in H.-K. Kahng & S. Goto (Eds.), Information Networking (Vol. 3090, pp. 483-491):
Springer Berlin / Heidelberg.
10. Sempewo, J., Pathirana, A., and Vairavamoorthy, K. (2008). Spatial Analysis Tool for
Development of Leakage Control Zones from the Analogy of Distributed Computing. ASCE Conf.
Proc., UNESCO-IHE Institute for Water Education, DA Delft, The Netherlands
11. Sitzenfrei, R., Fach, S., Kinzel, H., and Rauch, W. (2010). A multi-layer cellular automata
approach for algorithmic generation of virtual case studies: VIBe. Water Sci. Tech., 61(1), 37-45
12. Urich, C., R, S., M, M., and W., R. (2010). An agent based approach for generating virtual sewer
systems in the software VIBe. 8th International Conference on Urban Drainage Modeling, Tokyo,
Japan, 7-11 Sep.
Previous Page
Next Page
Pattern Recognition for Reliability Assessment of Water Distribution Networks
Search WWH ::




Custom Search
Home