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=== Techniques 技术===
 
=== Techniques 技术===
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=== Techniques ===
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*[[cellular automaton|Cellular automata]] were used in the early days of artificial life, and are still often used for ease of [[scalability]] and [[parallelization]].  Alife and cellular automata share a closely tied history.
 
*[[cellular automaton|Cellular automata]] were used in the early days of artificial life, and are still often used for ease of [[scalability]] and [[parallelization]].  Alife and cellular automata share a closely tied history.
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*[[Artificial neural network]]s are sometimes used to model the brain of an agent.  Although traditionally more of an [[artificial intelligence]] technique, neural nets can be important for simulating [[population dynamics]] of organisms that can ''learn''.  The symbiosis between learning and evolution is central to theories about the development of instincts in organisms with higher neurological complexity, as in, for instance, the [[Baldwin effect]].
 
*[[Artificial neural network]]s are sometimes used to model the brain of an agent.  Although traditionally more of an [[artificial intelligence]] technique, neural nets can be important for simulating [[population dynamics]] of organisms that can ''learn''.  The symbiosis between learning and evolution is central to theories about the development of instincts in organisms with higher neurological complexity, as in, for instance, the [[Baldwin effect]].
 
     元胞自动机最早用于人工智能研究,至今仍常用于简化可扩展性和并行化的研究。人工生命与细胞自动机在早期有着相当紧密的联系。
 
     元胞自动机最早用于人工智能研究,至今仍常用于简化可扩展性和并行化的研究。人工生命与细胞自动机在早期有着相当紧密的联系。
·      人工神经网络有时被用来代替大脑建模。尽管传统上它更多地是一种人工智能技术,但是神经网络对于模拟可以学习的生物的种群动态非常重要。学习与进化之间的共生关系是对具有更高神经系统复杂性的生物(例如鲍德温效应)本能发展研究的核心。
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*人工神经网络有时被用来代替大脑建模。尽管传统上它更多地是一种人工智能技术,但是神经网络对于模拟可以学习的生物的种群动态非常重要。学习与进化之间的共生关系是对具有更高神经系统复杂性的生物(例如鲍德温效应)本能发展研究的核心。
 
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=== Notable simulators 著名的模拟器===
 
=== Notable simulators 著名的模拟器===
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