Sinthoeconicity: A Zero-Energy Bio-Swarm Framework for Authentic Ecological Transactions
Contemporary ecological monitoring faces a fundamental paradox: the very act of observation often perturbs the observed phenomena, whilst traditional computational approaches demand unsustainable energy resources. This paper introduces Sinthoeconicity, a theoretical framework that achieves near-zero energy consumption through passive observation of natural computation processes. Through the integration of plant-based signal processing and quantum entanglement principles, the framework enables authentic detection and preservation of µ-transactions between living entities across multiple scales, from protozoan communities to human organisations, whilst maintaining their natural patterns intact. The proposed system leverages existing biological computation networks, drawing upon quantum mechanical principles to enable non-disturbing observation methodologies.
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- Community ecology (excl. invasive species ecology)
- Ecology not elsewhere classified
- Ecosystem function
- Ecological applications not elsewhere classified
- Other environmental sciences not elsewhere classified
- Socio-economic development
- Urban community development
- Environmental sociology
- Urban sociology and community studies