[ABELSON H., DISESSA A.A., 1982: Turtle Geometry. Cambridge, MIT Press: 512 p.]Search in Google Scholar
[ACOCK B., REYNOLDS J.F., 1997: Introduction: Modularity in plant models. Ecological Modelling, 94: 1-6.10.1016/S0304-3800(96)01923-0]Search in Google Scholar
[BORMANN F.H., LIKENS G.E., 1979: Pattern and Process in Forested Ecosystems. New York, Springer: 253 p.10.1007/978-1-4612-6232-9]Search in Google Scholar
[BRECKLING B., 1990: Singularitat und Reproduzierbarkeit in der Modellierung okologischer Systeme. Dissertation, University of Bremen, FB2: 401 p.]Search in Google Scholar
[BRECKLING B., 1996: An individual based model for the study of pattern and process in plant ecology: An application of object oriented programming. EcoSys, 4: 241-254.]Search in Google Scholar
[BUCK-SORLIN G.H., KNIEMEYER O., KURTH W., 2005: Barley morphology, genetics and hormonal regulation of internode elongation modelled by a Relational Growth Grammar. New Phytologist, 166(3): 859-867.10.1111/j.1469-8137.2005.01324.x15869647]Search in Google Scholar
[DEANGELIS D.L., GROSS L.J. (eds.), 1992: Individual-based Models and Approaches in Ecology: Populations, Communities and Ecosystems. New York, Chapman & Hall: 525 p.10.1007/978-1-4757-0869-1]Search in Google Scholar
[DEUSSEN O., HANRAHAN P., LINTERMANN B., MĕCH R., PHARR M., PRUSINKIEWICZ P., 1998: Realistic modeling and rendering of plant ecosystems. SIGGRAPH 98 (Orlando, Fl., July 19-24, 1998), Computer Graphics Proceedings, Annual Conference Series, 1998: 275-286.10.1145/280814.280898]Search in Google Scholar
[ERMENTROUT G.B., EDELSTEIN-KESHET L., 1993. Cellular automata approaches to biological modelling. Journal of Theoretical Biology, 160: 97-133.10.1006/jtbi.1993.10078474249]Search in Google Scholar
[GOSLING J., JOY B., STEELE G., BRACHNA G., 2005: The Java Language Specification. Third Edition. Reading, Addison-Wesley: 649 p. http://java.sun.com/docs/books/jls/ (last access: January 19, 2012).]Search in Google Scholar
[GRIMM V., RAILSBACK S.F., 2005: Individual-based Modeling and Ecology. Princeton, N.J., Princeton University Press: 428 p.10.1515/9781400850624]Search in Google Scholar
[HEMMERLING R., KNIEMEYER O., LANWERT D., KURTH W., BUCK-SORLIN G., 2008: The rule-based language XL and the modelling environment GroIMP illustrated with simulated tree competition. Functional Plant Biology, 35: 739-750.10.1071/FP0805232688828]Search in Google Scholar
[KNAUFT F.J., 2000: Entwicklung von Methoden zur GIS-gestutzten Visualisierung von Wald entwicklungsszenarien. Ph.D. thesis, University of Gottingen, Faculty of Forest Sciences and Forest Ecology: 127 p., <http://webdoc.sub.gwdg.de/diss/2000/knauft/>inhalt.htm.]Search in Google Scholar
[KNIEMEYER O., 2008: Design and Implementation of a Graph Grammar Based Language for Functional-structural Plant Modelling. Ph.D. thesis, University of Cottbus: 432 p., http://nbn-resolving.de/urn/resolver.pl?urn=urn:nbn:de: kobv:co1-opus-5937.]Search in Google Scholar
[KNIEMEYER O., BUCK-SORLIN G.H., KURTH W., 2004: A graph grammar approach to Artificial Life. Artificial Life, 10 (4): 413-431.10.1162/106454604176645115479546]Search in Google Scholar
[KNIEMEYER O., BUCK-SORLIN G.H., KURTH W., 2007: GroIMP as a platform for functional-structural modelling of plants. In: VOS J., MARCELIS L.F.M., DEVISSER P.H.B., STRUIK P.C., EVERS J.B. (eds.): Functional-Structural Plant Modelling in Crop Production. Dordrecht, Springer: 43-52.10.1007/1-4020-6034-3_4]Search in Google Scholar
[KURTH W., 1994: Growth Grammar Interpreter GROGRA 2.4. Berichte des Forschungs zentrums Waldokosysteme der Universitat Gottingen, Ser. B, 38: 192 p.]Search in Google Scholar
[KURTH W., 1999: Die Simulation der Baumarchitektur mit Wachstumsgrammatiken. Berlin, Wissenschaftlicher Verlag Berlin: 327 p.]Search in Google Scholar
[KURTH W., SLOBODA B., 1999a: Tree and stand architecture described by formal grammars. I. Non-sensitive trees. J. Forest Sci., 45: 16-30.]Search in Google Scholar
[KURTH W., SLOBODA B., 1999b: Tree and stand architecture described by formal grammars. II. Sensitive trees and competition. J. Forest Sci., 45: 53-63.]Search in Google Scholar
[KURTH W., 2000a: Spezifikation raumlicher Bestandes- und Populationsmodelle mit sensitiven Grammatiken. In: SABOROWSKI J., SLOBODA B. (eds.): DVFFA Sektion Forstliche Biometrie u. Informatik, 12. Tagung 1999. Ljubljana, Biotechn. Fak.: 259-278.]Search in Google Scholar
[KURTH W., 2000b: Towards universality of growth grammars: Models of Bell, Pages, and Takenaka revisited. Ann. For. Sci., 57: 543-554.10.1051/forest:2000141]Search in Google Scholar
[KURTH W., 2002: Spezifikation der Simulation der Struktur und Dynamik von Pflanzenbestanden und Tierpopulationen mit senlesnik2012sitiven Wachstumsgrammatiken. In: WITTMANN J., GNAUCK A. (ed.): Simulation in Umwelt- und Geowissenschaften. Workshop Cottbus, 7.-8. 3. 2002. Aachen, Shaker: 37-51.]Search in Google Scholar
[KURTH W., 2007: Specification of morphological models with Lsystems and Relational Growth Grammars. Image - Journal of Interdisciplinary Image Science, 5 / Special Issue.]Search in Google Scholar
[KURTH W., KNIEMEYER O., BUCK-SORLIN G.: Relational Growth Grammars - a graph rewriting approach to dynamical systems with a dynamical structure. In: BANATRE J.-P., FRADET P., GIAVITTO J.-L., MICHEL O. (eds.): Unconventional Programming Paradigms. Lecture Notes in Computer Science, 3566, Berlin, Springer: 56-72.]Search in Google Scholar
[KURTH W., LANWERT D., 2011: Grammar-based models and fractals. In: JOPP F., REUTER H., BRECKLING B. (eds.): Modelling Complex Ecological Dynamics. Berlin, Springer: 147-161.10.1007/978-3-642-05029-9_11]Search in Google Scholar
[KURTH W., SLOBODA B., 2011: Sensitive growth grammars specifying models of forest structure, competition and plant-herbivore interaction. In: RENNOLLS K. (ed.): Pro ceedings of the IUFRO 4.11 Congress “Forest Biometry, Modelling and Information Science”, Greenwich, UK (25.-29. 6. 2001), online publication, http://www.uni-forst.gwdg.de/~wkurth/cb/html/gree_tx.pdf (last access: May 6, 2012).]Search in Google Scholar
[LEWANDOWSKI A., VON GADOW K., 1997: Ein heuristischer Ansatz zur Reproduktion von Wald bestanden. Allg. Forst- u. Jagdzeitg., 168: 170-174.]Search in Google Scholar
[LINDENMAYER A., 1968: Mathematical models for cellular interactions in development. Journal of Theoretical Biology, 18: 280-299, 300-315.10.1016/0022-5193(68)90079-9]Search in Google Scholar
[LUKE S., CIOFFI-REVILLA C., PANAIT L., SULLIVAN K., BALAN G., 2005: MASON: A multi-agent simulation environment. Simulation, 82: 517-527.10.1177/0037549705058073]Search in Google Scholar
[NORTH M.J., TATARA E., COLLIER N.T., OZIK J., 2007: Visual agentbased model development with Repast Simphony. In: Agent 2007 Conference: Complex Interaction and Social Emergence, 15-17 Nov. 2007, Evanston, IL: 173-192.]Search in Google Scholar
[PENTTINEN A., STOYAN D., HENTTONEN H.M., 1994: Marked point processes in forest statistics. For. Sci., 38: 806-824.]Search in Google Scholar
[PFREUNDT J., SLOBODA B., 1996: The relation of local stand structure to photosynthetic capacity in a spruce stand: A model calculation. Lesnictvi / Forestry, 42: 149-160.]Search in Google Scholar
[PRETZSCH H., 1992a: Kronenformen und ihre Veranderung unter Konkurrenz. In: Jahrestagung 1992 d. Sekt. Ertragskunde des Dt. Vb. Forstl. Forschungsanstalten, Grillenburg: 40-61.]Search in Google Scholar
[PRETZSCH H., 1992b. Modellierung der Kronenkonkurrenz von Fichte und Buche in Rein- und Mischbestanden. Allg. Forst- u. Jagdzeitg., 163: 203-213.]Search in Google Scholar
[PRETZSCH H., 2001: Modellierung des Waldwachstums. Berlin, Parey: 341 p.]Search in Google Scholar
[PRETZSCH H., 2009: Forest Dynamics, Growth and Yield. Berlin, Springer: 664 p.10.1007/978-3-540-88307-4]Search in Google Scholar
[PRUSINKIEWICZ P., LINDENMAYER A., 1990: The Algorithmic Beauty of Plants. New York, Springer: 228 p.10.1007/978-1-4613-8476-2]Search in Google Scholar
[PRUSINKIEWICZ P., HAMMEL M., HANAN J., MĚCH R., 1997: Visual models of plant development. In: ROZENBERG G., SALOMAA A. (eds.): Handbook of Formal Languages. Vol. 3: Beyond Words. Berlin, Springer: 535-597.10.1007/978-3-642-59126-6_9]Search in Google Scholar
[RAILSBACK S.F., GRIMM V., 2011: Agent-Based and Individual-Based Modeling: A Practical Introduction. Princeton, Princeton University Press: 352 p.]Search in Google Scholar
[SLOBODA B., 1983. Moglichkeiten der mathematischen Vorhersage der Holzproduktion im Wirtschaftswald. Forstarchiv, 54: 134-142.]Search in Google Scholar
[THIELE J.C., KURTH W., GRIMM V., 2011: Agent- and individual-based modeling with NetLogo: Introduction and new NetLogo extensions. In: ROMISCH K., NOTHDURFT A., WUNN, U. (eds.): Die Grune Reihe 22. Tagung der Sektion Forstliche Biometrie und Informatik des Deutschen Verbandes Forstlicher Forschungsanstalten und der Arbeits gemeinschaft Okologie und Umwelt der Internationalen Biometrischen Gesellschaft - Deutsche Region, 20-21 September 2010 in Gottingen (Germany): 68-101.]Search in Google Scholar
[WILENSKY U., RAND W., (in press): An Introduction to Agent-Based Modeling: Modeling Natural, Social and Engineered Complex Systems with NetLogo. Cambridge, MIT Press.]Search in Google Scholar