{"ai_pass_count":5,"analysis_step_count":14,"confidence":0.8341514576565136,"created_at":"2026-07-19T02:18:46.532591+00:00","id":170931,"node_number":"683211","processing_time":1.8856465816497803,"recent_steps":["net.store_session","net.llm_structured_analysis","net.rules_detect","net.context_window","net.store_session"],"recording_id":175744,"text":"dropping. 40 gigahertz and above, you might have attenuation of signals by way of either scoring or absorption of EHF and UHF. It might experience effects when smoke becomes more thick. Emergency responders have sometimes reported disruption of line of sight communication and heavy smoke. Wildfire plumes, they provide what's referred to as a dielectric material for a dielectric lens effect where its permittivity becomes influence, this is the plume, it's permittivity because it's influenced by the type of quantity and temperature and the plume height. And a plume is radio sub refractive and that spreads out, I mean it spreads out radio waves. Wildfire combustion, it's really an incomplete process to drop in."}