Introducing ceLLM to Explain Non-Thermal Biological Effects of Wireless Radiation

The thermal-only perspective on radiofrequency radiation (RFR) fails to account for various observed non-thermal biological effects. To facilitate research and replication within the scientific community, it is essential to develop new theories that can explain these phenomena. This paper introduces the cellular Latent Learning Model (ceLLM) as a theoretical framework to understand how entropic waste, such as wireless radiation, may impact cellular function and contribute to conditions like ADHD and autism. The ceLLM posits that DNA operates as a large language model (LLM) for cellular sensors, with cells acting as autonomous environmental sensors that do not directly communicate but exhibit emergent bioelectric communication. Entropic waste is proposed to disrupt the latent space created by the atomic structure of DNA, leading to epigenetic effects and altered cellular outputs. This theory aims to lift the veil of ignorance surrounding non-thermal effects of RFR and provides a direction for scientific investigation.


Introduction

The Importance of Theoretical Frameworks in Scientific Research

Advancements in science often require the development of new theories to explain observations that existing models cannot. In the context of radiofrequency radiation (RFR) exposure, the traditional thermal-only view does not adequately explain the non-thermal biological effects reported in various studies. To foster research that can be replicated and validated, it is crucial to propose theoretical frameworks that address these gaps.

Introducing ceLLM: A New Perspective

The cellular Latent Learning Model (ceLLM) is a theoretical approach suggesting that DNA functions similarly to a large language model (LLM) for cellular sensors. According to this model:

Objective of the Theory

This theory seeks to explain how entropic waste, particularly from wireless radiation, can disrupt cellular function by interfering with the latent space in DNA. By proposing a mechanism for these non-thermal effects, the ceLLM framework provides a foundation for scientific research aimed at validating and expanding upon these ideas.


Entropic Waste and Its Impact on Cellular Function

Understanding Entropic Waste

Effects on DNA and Latent Space

Consequences for Cellular Outputs


The ceLLM Framework Explained

Cells as Autonomous Sensors

Emergent Bioelectric Communication

Latent Space and Higher-Dimensional Geometry


Potential Implications and Observations

Linking Theory to Real-World Observations

Predictions for Future Research


Conclusion

The Need for New Theories in Scientific Progress

The inability of the thermal-only view to explain non-thermal biological effects of wireless radiation highlights the necessity for new theoretical frameworks. The ceLLM offers a plausible mechanism by which entropic waste affects cellular function, providing a direction for future research.

Call to Action for the Scientific Community

Appendix

Further Exploration of ceLLM Concepts


Disclaimer:
The ceLLM is a theoretical framework intended to inspire scientific inquiry into the non-thermal effects of wireless radiation on biological systems modeled from what we do understand about AI. While it offers a novel perspective, it requires empirical validation through rigorous scientific research.


Note to Researchers:
Your expertise and critical evaluation are invaluable in advancing this theory. Collaborative efforts can help refine the ceLLM framework and determine its applicability in explaining observed biological effects.

https://www.rfsafe.com/articles/cell-phone-radiation/introducing-cellm-to-explain-non-thermal-biological-effects-of-wireless-radiation.html