This RF Safe commentary frames readers as part of a “resistance” movement seeking changes to U.S. wireless policy and RF exposure governance. It argues that current FCC RF exposure rules and related laws constrain local decision-making and rely on a “thermal-only” safety framework that the author says is outdated. The post cites a WHO-commissioned 2025 systematic review on RF-EMF and cancer in experimental animals as part of a broader WHO review effort, and advocates shifting indoor connectivity toward light-based technologies.

RF Safe argues for a transition from microwave-based wireless (cellular/Wi‑Fi/Bluetooth) to light-based communications (e.g., Li‑Fi) to reduce indoor RF exposure. The piece claims chronic, low-level RF exposure may pose health risks beyond heating and calls for a precautionary approach, while also criticizing U.S. legal and regulatory frameworks it says limit local control and rely on older, heat-focused assumptions.

This RF Safe article argues that U.S. radiofrequency (RF) exposure policy is outdated, emphasizing that FCC limits adopted in 1996 are based on preventing tissue heating and do not address alleged non-thermal biological effects. It claims responsibility for protecting public health from electronic product radiation was effectively ceded from health agencies to the FCC, and that Section 704 of the Telecommunications Act limits local governments from opposing wireless infrastructure on health grounds if FCC limits are met. The piece cites epidemiology, cell studies, and animal studies (notably the U.S. National Toxicology Program and the Ramazzini Institute) to argue that evidence has accumulated and regulation should be updated, but it presents these points in an advocacy framing rather than as a balanced review.

This exposure assessment measured personal RF electric field strength in multiple indoor and outdoor micro-environments in Malaysia using an ExpoM-RF 4 meter and modeled exposure with machine learning (FCNN, XG Boost) and linear regression. Reported exposures were usually below the stated public limit (61.4 V/m), but maximum values in dense urban areas with many base stations were reported to approach 56.7365 V/m. The authors frame near-threshold maxima in high-density areas as a potential health risk and recommend caution and monitoring.