Digital Design of Nature

An Approach Based on Budding

Подпись: Figure 4.10 Growth simulation using buds: (a) probability of dying and sleeping greater zero; (b) probability of dying greater than zero, probability of sleeping zero An Approach Based on Budding

An approach oriented on botanical growth rules was pioneered by De Reffye et al. [34]. The authors simulated the growth of the shoot axes in discrete time steps from node to node. one internode after the other is placed along a shoot, and branching and leaves are produced. The time steps are fixed within the branches of one order. Nevertheless, branches of higher order can grow with a greater speed than those with lower order.

Each bud carries several probabilities: the probability of dying, the probability of resting, and the probability to branching out. Again, we are here dealing

with a randomized controlled model, but this time with a much stronger sphere Section 4.8

of randomness, since wide-ranging structural characteristics can be modified. An Approach Based on Budding A similar approach with larger time steps was chosen by Remphrey et al. [173,

174] for the modeling and architectonic analysis of different plants.

Figure 4.10 illustrates the progression of the randomized controlled growth simulation by De Reffye et al. for two different sets of parameters. The x-marks designate the shoots that have already died off.

Thus, for the modeling of a tree, the following parameters must be specified: the age of the tree, the growth rate of the branches of different orders, the number of possible buds per node in relation to their order, and the probabilities of dying, resting, and branching. The pseudocode for the discrete simulation can be written as follows:

Algorithm 4.2:

Procedure budtree() begin

for each time step do begin

for each bud still living do begin

if bud does not die and does not rest then begin generate internode generate apical leaf end

for each applicable bud do begin

Подпись: Figure 4.11 Results of botanically oriented growth models (Courtesy of P. de Reffye)

if bud branches then generate branching end end end end

The models are available to the user in a library of plant algorithms. The commercially distributed product includes a large number of different species, which can be parameterized by using age and growth. other than the already mentioned botanical growth simulations, the method of De Reffye et al. enables simulation of anatomical correct growth, although the

authors do not execute this in [34]. Also, animation in the presented form of the algorithm is fixed on discrete time steps and has to be synthesized with suitable interpolation methods to even permit animations.

 

Digital Design of Nature

Hydra and Wreath Components

The hydra component multiplies all components attached to the p-graph and places them in a star-shaped arrangement. With the hydra component, the user can define the number and size of …

Horn Component

The geometry produced with the horn component is used as the basis for all types of stems, branches or trunks, and it can additionally be used for the ren­dering of …

Surface of Revolution Component

This component generates an additional geometrical primitive: a surface of rev­olution. The user can edit the silhouette as a polygonal curve as well as deter­mine the resolution in the direction …

Как с нами связаться:

Украина:
г.Александрия
тел./факс +38 05235  77193 Бухгалтерия

+38 050 457 13 30 — Рашид - продажи новинок
e-mail: msd@msd.com.ua
Схема проезда к производственному офису:
Схема проезда к МСД

Партнеры МСД

Контакты для заказов оборудования:

Внимание! На этом сайте большинство материалов - техническая литература в помощь предпринимателю. Так же большинство производственного оборудования сегодня не актуально. Уточнить можно по почте: Эл. почта: msd@msd.com.ua

+38 050 512 1194 Александр
- телефон для консультаций и заказов спец.оборудования, дробилок, уловителей, дражираторов, гереторных насосов и инженерных решений.