Applied Civilization Systems Engineering: Difference between revisions
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=Applied Civilization Systems Engineering= | |||
Source - [https://chatgpt.com/share/69770b8c-9b78-8010-9b05-00bde05e60a2] | |||
Is powered by Open-Source, Integrated Systems Optimization powered by Open-Source, Integrated Systems Optimization. | |||
= Canon Definition = | = Canon Definition = | ||
'''Open-Source, Integrated Systems Optimization''' is the practice of improving civilization-scale outcomes by jointly designing and evolving technical, economic, ecological, and institutional systems through transparent, collaborative, and publicly shared processes. Rather than optimizing isolated components or proprietary subsystems, optimization occurs through open design grammars, shared artifacts, and swarm-scale collaboration that enables rapid learning, replication, and cumulative improvement. | '''Open-Source, Integrated Systems Optimization''' is the practice of improving civilization-scale outcomes by jointly designing and evolving technical, economic, ecological, and institutional systems through transparent, collaborative, and publicly shared processes. Rather than optimizing isolated components or proprietary subsystems, optimization occurs through open design grammars, shared artifacts, and swarm-scale collaboration that enables rapid learning, replication, and cumulative improvement. | ||
Latest revision as of 06:40, 26 January 2026
Applied Civilization Systems Engineering
Source - [1]
Is powered by Open-Source, Integrated Systems Optimization powered by Open-Source, Integrated Systems Optimization.
Canon Definition
Open-Source, Integrated Systems Optimization is the practice of improving civilization-scale outcomes by jointly designing and evolving technical, economic, ecological, and institutional systems through transparent, collaborative, and publicly shared processes. Rather than optimizing isolated components or proprietary subsystems, optimization occurs through open design grammars, shared artifacts, and swarm-scale collaboration that enables rapid learning, replication, and cumulative improvement.