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CASTLE Fight (Computational Adaptive Situational TaiLored Environment) is a specific variation of a category of computer simulations known as evolutionary decision theory of situational complexity. It is a branch of game theory designed to study adaptive strategic decisions of evolving interacting agents. CASTLE Fight is a user-created virtual world designed to allow experimentation of economic, military and political decisions but keeping the fundamentals simple enough to understand cause-and-effect. It was named 'CASTLE Fight' because experimentation and agent interaction involves competitive engagement.
History The utility of evolutionary decision theory of situational complexity was realized when various simulations were created by virtual environment researchers from all over the world. However, the first second-generation simulation
Pioneers Several researchers utilizing the CASTLE Fight simulation have made notable strides in strategic decision making. Donald T. Una, an independent researcher from England stumbled across a phenomenon later called, 'stochastic production lockdown' where one modifies the environment to have a high predominance of stochastic neutralization so that production of the other users become negligible. He was able to further enhance this with a 'feedback production cycle' where the discarded potential energy of the system was utilized to enhance his own production. Another independent researcher from Luxemborg, Tekkai Wallace, was able to flood the particle environment with numerous, but precise, agent modifiers. He was able to calibrate his modifying effect to enact a qualitive attribute change on the agent or a quantification reduction of the strength of the agent. These developments were shortly followed up with progress in the economic models of CASTLE Fight led by the late Dr. Richard H. Pouler. Shortly before his death, he was able to create an uncontrolled resource chain reaction by creating a cycle of reinvestment into resource-enhancing objects. Also, the reaction was fueled by the removal of the geometric resource control and by the harvesting of induced resource caches. These advancements sat relatively unrelated until they were integrated by the Greek triple-doctorate, Dr. Khan Ramolius. He had been notable for introducing the a new spatial configuration that was vastly more efficient for absorbing harmful output . However, what he became recognized for was for the combination of all these advancements into one system and even demonstrated the power of this new system by running it against four supercomputer AIs simultaneously.
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