Artificial Life

Artificial life, also known as computer simulation of life, life, life, is often used to study the fundamental properties of life systems (such as evolution and adaptive behavior). Artificial life has become a recognized field in the 1980s. This is one of the first international conferences on integrated systems of life systems and simulation, or artificial life organized in 1987, by American computer scientist Christopher Langton. . Los Angeles National Laboratory, New Mexico State Langton expresses artificial life as "the position of life in life - life of life". This is the concept of gathering people who are interested in not only organisms but also adaptive self-organizing systems of computer models. In addition to learning, I also study economics, social science, and physics chemistry.

Artificial life simulates every aspect of life through computer, robot, biochemistry. Artificial life research imitates traditional biology by reconstructing certain aspects of biological phenomena. Scientists research the logic of the life system by creating an artificial environment - trying to understand complex information processing that defines such a system. Life is defined to be alive, but artificial life is often referred to as digital environment and limited data to existence.

Artificial life studies the basic process of a living system in an artificial environment to gain a deeper understanding of complex information processing that defines such a system. These topics are extensive, but often include questions about dynamics of evolution, new attributes of collective systems, bionics, and life - life philosophy and real life attributes in art. The traditional biological system model focuses on capturing those most important parameters. In contrast, the alife modeling approach usually solves the simplest and most common principles of life and tries to implement them in simulation. Then the simulation offers the possibility to analyze new and different realistic systems.