Jan 26, 2026 #redacted #claytonmorris
A new documentary might be the most mind blowing report we’ve ever seen on the covid vaccine. If took the shot your body is acting as a transmitter. One of the most eye opening scenes from the trailer shows signals being received… and then camera pans back and you realize the signals are coming from underground… in the corpses in the graveyard… people that had taken the shot… now dead… but still sending a signal. I had a fascinating conversation with Kevin DeMeritt, Founder of Lear Capital, about gold, silver, and what investors should be paying attention to right now. If you’re curious about protecting your wealth and learning where the market is headed, you won’t want to miss this discussion.

 

related https://www.youtube.com/watch?v=_ZiaaFAdWc4

 

Foreign Interface And Synthetic Programable Material Interacting With Bloodcells

This is not just about pathology. It is about sovereignty. About the reclamation of our inner terrain. About decoding the lie and returning to truth, about hope, not fear. About truth, not distortion, and about claiming back what was always ours: the right to be whole, free, and human.

source : https://www.facebook.com/share/v/187wfEqhgT/

HUMAN HYBRIDIZATION USING K-BAND 26 GHZ

January 21, 2026

The human-machine or human-robot hybridization scheme – i.e. transhumanism – is advancing rapidly and is targeting you. The goal is to fundamentally change your humanity. The previous scheme was to chip you, but the current one is to: 1. Infuse you with nano; and 2. Fuse you with AI. Learn about the K-band, 26 Ghz and graphene.

source : https://old.bitchute.com/video/I4OuldEC3ADF/

 

LPWAN : Low Power Wireless Area Network

The K band, ranging from 18 to 27 GHz, is commonly used in short-range radar systems and vehicular speed detection.

LoRaWAN Internet of things signal relay method

Abstract
The invention discloses a LoRaWAN Internet of things signal relay method which is characterized in that LoRaWAN relay equipment and a relay server are added to realize signal relay and forwarding; the LoRaWAN relay equipment is used for completing copying and forwarding of LoRa signals; the relay server is positioned at the rear side of the network server and is responsible for completing the functions of management, frame analysis and forwarding of LoRaWAN relay equipment; the terminal data forwarding path is as follows: the mobile terminal, the LoRaWAN relay equipment, the LoRa gateway, the network server, the relay server, the network server and the application server are in data intercommunication in sequence. The method can solve the problem of blind area coverage of LoRaWAN, and realizes the signal relay of LoRaWAN based on MAC layer relay.

SOURCE : https://patents.google.com/patent/CN107769834B/

LoRaWAN Internet of Things application access method

Abstract
The present invention discloses a LoRaWAN internet of things application access method.
First, an application access party applies for registration on a LoRaWAN cloud platform; after registration is finished, an application is created; and the LoRaWAN cloud platform generates a unique application id for the application. After the application is created, a terminal number segment is applied for the application; after the terminal number segment is applied successfully, an id and a secret key of a terminal are acquired and are written into the terminal, and the terminal can transmit the data to a LoRaWAN server through a base station.
Then, the application can acquire data transmitted by the terminal timely by using an API provided by the LoRaWAN cloud platform so as to process the data, further, after processing, an instruction and data are delivered to the terminal by using the API provided by the LoRaWAN cloud platform. Through adoption of the method, a process of accessing the internet of things application to LoRaWAN is realized, and uplink and downlink data are ensured to be safe due to use of userSec.

SOURCE : https://patents.google.com/patent/CN106656700A/en

 

Wearable electronic device and system for tracking location and identifying changes in salient indicators of patient health

Abstract
A wearable electronic device, a system and methods of monitoring with a wearable electronic device. The device includes a hybrid wireless communication module with wireless communication sub-modules to selectively acquire location data from both indoor and outdoor sources, as well as a wireless communication sub-module to selectively transmit an LPWAN signal to provide location information based on the acquired data. The device may also include one or more sensors to collect one or more of environmental data, activity data and physiological data. The device may transmit some or all of its acquired data to a larger system, including a cloud-based server to, in addition to providing location-based data, be used as a part of a predictive health care protocol to correlate changes in acquired data to salient indicators of the health of a wearer of the device. In one form, the predictive health care protocol uses a machine learning model.

LoRaWAN 26GHz Radar Level Sensor WSLRW-RD26

WSLRW-RD26 is K-band radar level sensor with pulse technology for Solid or Liquid measurement.

https://daviteq.com/en/manuals/books/product-data-sheet-for-lorawan-sensors/page/lorawan-26ghz-radar-level-sensor-wslrw-rd26

 

 

Spectrum 26 GHz (Point to Point)

This page document the historic use for point-to-point radios as of 2001. This band is within the future 26 GHz 5G mobile band.

Historic overview of 26 GHz point-to-point systems

This section provides historic information on past frequency procedures for point-to-point radios:

SOURCE : https://www.rtr.at/TKP/was_wir_tun/telekommunikation/spectrum/bands/26GHz_Richtfunk/p2pradio26GHz.en.html

 

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