Herpes On Your Eyelash

SUBMERGED BEAUTY ART WORKSHOP AND COMPLEXITY

AESTHETICS, ART AND COMPLEXITY (Carlos Reynoso)

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SYSTEMS L

Lindenmaier automaton model much simpler than that of Turing. Model

plants with attributes in particular, fractals, geometric shapes traits.

recursive grammars that allow the growth model.

Coding and rules for generating forms, creation of multiple iterations, codes, rules, instructions to create. Generate

from one form of a coding example of a pine seed is "encoded in a" different shapes and geometries. There

grammars sound and visual grammars using patterns.

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RECURSIVE

: A rule that is defined in terms of another body. Example

x's father is the father of z is z i. is a schedule that hints at something but does not say explicitly but implicitly. Ancestor is a recursive rule.

Constraint: Rules

GRAMMAR. Language to interpret a machine that can be recognized by automata (recognizing a text etc.

There are three types of grammars, regular grammars, context-independent grammars, Grammars context sensitive

Alan Turing machines Turing machine

manipulation of symbols, which can simulate the logic component,

providing a precise definition of algorithm or mechanical procedure.

Not only can generate grammars grammars or understand only a form or a visual structure, but it is also possible with sound.

Siromoney-Mathematical Gift of India (1932-1988)

Languages \u200b\u200b

images or matrices series, explains the Kolam.

Kolam are designs of artisans in India, are more complex iterative design of a civilization.

In

programs can generate and understand these forms and this type of Islamic art with codes. Ron Eglash

African Fractals. Nothing

invention all depends on how you understand, and manage the patterns, architecture patterns.

nonlinear system

EMERGENCY: Example water. The whole is different the sum of its parts. COMPLEXITY

: Surge of simple elements.

A

System

complex is composed of several interconnected parts

or interlaced

whose links contain additional information and hidden from the observer. As a result of interactions between elements, new properties emerge that can not be explained by the properties of individual elements. These properties are called emergent properties.

Complexity is: Number of indeterminism.

constructivism is not biological reductionism radical.

not thermodynamics quantum mechanics not

Computational Complexity: Computer resources required to solve a problem.

Resources. Time and space

Global Name

Evolutionary algorithms Evolutionary Computing.

genetic algorithm: living organisms are consumed

problem solver

cultural algorithm. Consists of a space Population, an area of \u200b\u200bcultural beliefs.

Simulation of culture as evolutionary model.

Ind.

Level Ontological Level Storage accumulated experiences.

METAEURISTICOS USES:

Find Social Networking communities within complex social networks. Locate
small communities or groups, behaviors, sects networking. Foreign

network groups. Diffusion of innovations networking.

not linear equations.

SE may also make 3D, from and inaccurate data or fragments. For example reconstructions of vessels, with only a fragment is reconstructed positions and forms of archaeological features. Concerning

John Gero

Bladimir Kasakov

Martin Hemberg

objects trance Art Gunther Bachelier

Karl Sims genetic art, Fractal Geometry

Jackson Pollock Fractal dimension

Jackson Pollock drip painting, as in nature, certain patterns are repeated over and over again at different levels

magnification

.

These fractals have different degrees of complexity (or fractal dimension)

stains on fabrics Pollock seemed to create repeating patterns at different scales of size-like fractals.

Metaeuristicas and genetic logarithms to produce fractal geometry.

FRACTALS

A fractal is a semi-geometric object whose basic structure, fragmented, or irregular, is repeated at different scales. The term was proposed by the mathematician Benoit Mandelbrot

in 1975

and fractus derived from the Latin, meaning broken or fractured. Many natural structures are fractal.

A fractal is a geometric object attribute the following characteristics is too irregular to be described in traditional geometric terms. has details on any scale of observation. There

management programs fractal Vision of Chaos.

is similar self

(exact, approximate or statistically). spheres, cubes, Euclidean objects have almost fractal dimension. An object according to its size is more or less fractal. Fractals coincide with natural elements, odd shapes, or geometric anomalies.

Fractal: Auto repeat . The same or similar to the whole. Autorepetitivos forms,

Applicable in relation to social function and social hierarchies, relationships and behaviors. Normal Distribution, for example height, generates a Gauss curve.

distribution can be measured fractal, fractal measure of a sequential series as a piece of music.

The agency are more fractal dimension fractal biomorphs.

Measuring the fractal dimension has no meaning or effect if compared to another indicator.

Lewis Fry Richardson

The mountains are not cones, clouds

are not spheres, the islands are not circles, rays are not lines.

effective dimension depends on the scale of observation, not subjective according to the observer

but deterministic function of the scale.

Fractal Analysis Dynamic multifractal Different objects with different fractal paintings of Jackson Pollock for example the works is characteristic fractal dimensions at different scales.

USES

can use the theme of fractals to model growth urban lakes grow. Studies

areas as patterns. Analysis

cities

growths.

multifractal structures, abstract art

Fractals of styles, periods, times, series.

geographic analysis, settlement patterns, trails, art etc.

Referring Fractal Cities. Miltos Manetas-

Neen Art Jackson Pollock

Iterated Function Systems

Ø is a finite set of contractive functions into a complete metric space X IFS Types

Types iterative function fractal systems

L

Systems Symmetries

Menger Sponge

Figures

SYMMETRY

repeated comparison

Art classes

Mendelbrot Artists fractal patterns in complex spirals

art art

Fracntisek Kupka

Art Psychedelic Perceptions

narcotic states altered consciousness.

Eglash-Village

modern fractal

African fractal patterns in urban settings.

construction processes.

Structure Cellular Automata in which no cells can be linear, or super hypervolumes volumes.

Von Neuman (machine to produce another more complex)

strange attractor chaotic behavior

complex objects have unpredictable behavior.

Azar. There is a natural dynamic situation that can be maintained.

A fixed-point tractor

intrined repeat as a cycle. Attractor

newspaper: two notes do I do I say predictable behavior.

complex expressions graphic version of Chaos Pro

Programs

plasma simulations and systems L.

Essentials

discover geometric art, and organizational structures of figurative art.

Authors: Ron Eglash, Paulos Gerdes, Parothy, washburn.

pattern recognition algorithm.

deterministic chaos

irregular behavior arises from the nonlinearity. So is defined as deterministic.

logistics Nonlinear Dynamics Equation

logistics, change is not linear. Used to determine if states and growth. Chaos

: If two systems have slightly different values. Chaos

is understood not as the absence of order, but as some kind of order of features unpredictable but describable in concrete and accurate. It is a system that has extreme sensitivity and newspapers but not aperiodic.

unpredictable behavior.

Lorenz. Effect of Wings.

Lorenz

A tractor

Two weather.

Although you know the rules of running a system I can not predict the long term because the logistics do not work under

linear.

complex phenomena has the same structure of the phenomena of musical art.

The bifurcation diagram is a fractal;, the party and all are equal.

Independence scale, there is no reference of who has who, self-similar.

White Noise random sequence of values, modes of chance.

algorithm that realizes a dynamic system.

Complex Analysis

fractal dimension. Trace

recurrence:

2d Correlate color image data set representing changes over time. Music File

multifractal series.

Time series: a set of records in a comunidad.Estan well such as a music file multitemporal series.

possible to compare the behavior of a system.

To clarify the impact of each parameter or variable that intervenes in a sequence.

Accents sheet music.

population behavior.

representation techniques highlighting distance correlations in a series. Images

to infer rate and irregularities.

Behavior Types: Homogeneous

White Noise

Logistic Equation Drift-Harmonic oscillations

Journal-Changes: Brownian motion.

Examples periodicity patterns in large-scale cultural events. Identifications

temporary phase and regime changes.

regularities asymmetric diagrams with the data.

complex adaptive systems

open systems can be

simple or complex

. The fundamental difference between them lies in how its elements relate to each other and their environment and the resultant systemic behavior. A simple example system is the installation of heating our homes. In this system, the room temperature by the thermostat triggers a series of routine events that lead to predictable behavior. Instead of complex systems are characterized by the richness and variability of the relations of their elements other and their environment and consequently their behavior unpredictable.

cellular automata random Boolean networks

automated agents based models Artificial Life Artificial Societies

Artificial Culture

Metaeuristicas

evolutionary cellular automata.

serves to explain patterns of behavior, social behavior Explain

-Cellular automata

Neuman Building a machine that produces and build a superior machine in terms codes, and information processing models.

emerging complexity: from simple rules emergence of a separate computer for this, a complex system.

No more complex if you add random.

If a model is so simple is unmanageable. Conceptually

will be kept of thinking about society in terms of common sense.

Conceptualization of individual agency and wholes.

ARTIFICIAL SOCIETIES AND SOCIAL SYSTEMS

agent-based models artificial life, artificial societies.

used to analyze cultures disappeared. Inferring

behaviors and complex trends. Data from

agent-based models (Esher)
encoding behavior of individuals, to derive collective patterns. Simple rules

schooling fish such as Separation, cohesion, alignment. No There is linear relationship between effects and causes.

APPLICATIONS Concept

agents, behaviors and relationships in the drug chart. Models of innovation

urban transition models.

models of behavior.

network model.

Relations and networks among parties, graph theory. Networks

random phenomena depending on the characteristics of networks and to infer actions, properties of networks.

CONNECTIVITY THRESHOLD

example a person who is related to another is nothing but weak connectivity if there are more people there are related to increased connectivity, it is useful to know the characteristics of threshold connectivity to propose, implement or infer certain things etc

.

Theory of 6 degrees of separation between one person and another with links and thanks to friends of friends around the world are known in the world.

networks of weak ties

Important to get a job, you have to get out of the social core of the plane that are, in order to establish links with other people you only have occasional contact.

- INDEPENDENT SCALE NETWORKS

scale independent scenarios

to an existing network will add new nodes and these are linked to those who are better linked.

This link is called selective effect that the rich get richer and the poor poorer.