CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

id ecaade2015_21
authors Klemmt, Christoph and Bollinger, Klaus
year 2015
title Cell-Based Venation Systems
source Martens, B, Wurzer, G, Grasl T, Lorenz, WE and Schaffranek, R (eds.), Real Time - Proceedings of the 33rd eCAADe Conference - Volume 2, Vienna University of Technology, Vienna, Austria, 16-18 September 2015, pp. 573-580
summary Venation structures in leaves fulfil both circulatory as well as structural functions within the organism they belong to. A possible digital simulation algorithm for the growth of venation patterns based on the leaf surface has been described by the Department of Computer Science at the University of Calgary.Cell-based growth algorithms to generate surface meshes have been developed by biological and medical scientists as well as artists, in order to gain an understanding of developmental biology or to generate artistic form. This paper suggests the combination of the two algorithms in order to generate the morphologies of leaves and other structures while at the same time generating the corresponding venation system.The resulting algorithm develops large non-manifold mesh structures based on local rules of division of the individual cells. The venation system develops in parallel based on the flow of the plant hormone auxin from those cells towards the start point or petiole of the leaf. Different local behaviours of the cells towards their adjacent neighbours, towards their rules of division and towards the rules of developing veins have been investigated. The eventual aim of the algorithms is their application as tools to develop architectural and structural morphologies.
wos WOS:000372316000064
series eCAADe
email christoph@orproject.com
more https://mh-engage.ltcc.tuwien.ac.at/engage/ui/watch.html?id=29c4389a-6e8f-11e5-8666-279b88fbd56c
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100%; open Benyus, J (1997) Find in CUMINCAD Biomimicry: Innovation inspired by nature , William Morrow, New York
100%; open El Ahmar, S (2011) Find in CUMINCAD Biomimicry As A Tool For Sustainable Architectural Design , Master's Thesis, Alexandria University
100%; open Evert, RF and Eichhorn, SE (2006) Find in CUMINCAD Esau's Plant Anatomy: Meristems, Cells, and Tissues of the Plant Body - Their Structure, Function, and Development , John Wiley & Sons, London
100%; open Hart, G (2009) Find in CUMINCAD Growth Forms , Proceedings of Bridges
100%; open Hensel, M and Menges, A (2007) Find in CUMINCAD Morpho-Ecologies: Towards Heterogeneous Space In Architecture Design , AA Publications, London
100%; open Hensel, M, Menges, A and Weinstock, M (2010) Find in CUMINCAD Emergent Technologies & Design: Towards a biological paradigm for architecture , Routledge, New York
100%; open Hensel, M (2006) Find in CUMINCAD Computing Self-Organisation:Environmentally Sensitive Growth Modelling , AD, Techniques and Technologies in Morphogenetic Design, pp. 12-17
100%; open Kaandorp, JA and Kübler, JE (2001) Find in CUMINCAD The algorithmic beauty of seaweeds, sponges and corals , Springer, Heidelberg
100%; open Kaandorp, JA, Sloot, PMA, Merks, RMH, Bak, RPM, Vermeij, MJA and Maier, C (2005) Find in CUMINCAD Morphogenesis of the branching reef coral Madracis mirabilis , Proceedings of the Royal Society B (2005) 272, pp. 127-133
100%; open Laguna, MF, Bohn, S and Jagla, EA (2008) Find in CUMINCAD The Role of Elastic Stresses on Leaf Venation Morphogenesis , PLoS Computational Biology, 4(4), p. e1000055
100%; open Lindenmayer, A (1986) Find in CUMINCAD Mathematical models for cellular interactions in development I. Filaments with one-sided inputs , Journal of theoretical biology, 18(3), pp. 280-299
100%; open Lomas, A (2014) Find in CUMINCAD Cellular forms: an artistic exploration of morphogenesis , ACM SIGGRAPH 2014 Studio
100%; open Panchuk, N (2006) Find in CUMINCAD An Exploration into Biomimicry and its Application in Digital & Parametric Architectural Design , Master's Thesis, University of Waterloo
100%; open Pawlyn, M (2011) Find in CUMINCAD Biomimicry in architecture , Riba Publishing, London
100%; open Prusinkiewicz, P and Lindenmayer, A (1990) Find in CUMINCAD The algorithmic beauty of plants , Springer, New York
100%; open Prusinkiewicz, P and Runions, A (2012) Find in CUMINCAD Computational models of plant development and form , New Phytologist, 193(3), pp. 549-569
100%; open Reynolds, C (1987) Find in CUMINCAD Flocks, herds and schools: A distributed behavioral model , SIGGRAPH '87: Proceedings of the 14th annual conference on Computer graphics and interactive techniques (Association for Computing Machinery), p. 25-34
100%; open Rolland-Lagan, AG and Prusinkiewicz, P (2005) Find in CUMINCAD Reviewing models of auxin canalization in the context of leaf vein pattern formation in arabidopsis , The Plant Journal, 44(5), p. 854-865
100%; open Roth-Nebelsick, A, Uhl, D, Mosbugger, V and Kerp, H (2001) Find in CUMINCAD Evolution and function of leaf venation architecture: a review , Annals of Botany, 87, p. 553-566
100%; open Runions, A, Fuhrer, M, Lane, B, Federl, P, Rolland-Lagan, AG and Prusinkiewicz, P (2005) Find in CUMINCAD Modeling and visualization of leaf venation patterns , ACM Transactions on Graphics, 24(3), p. 702-711

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