Conspiracy Revelation“ 11.3.2025:
Tracking down the ieee osi wban evil down to its roots…this all paved the way for the biggest insanity plaguing this beautiful and sacred mother planet…called Chemtrails, wef, smart dust, nwo crime inc., synthetic bci dna telepathy mind gang stalking and nonstop ai invasion and remote influencing, dystopian and silent sound tyranny like remote neural monitoring 24 7 365 truman show hypergame control and skynet spying and quantum harassing of every human being and watching of every living room in the world…pathetic criminal world disorder..parasitic archontic invasion down to your basic dna.
„In 1984 the Open Systems Interconnection (OSI) model was created for ONE purpose: Computer Networking through the human body without informed consent. (= criminal)
1. The physical layer
2. The data link layer
3. The network layer
4. The transport layer
5. The session layer
6. The presentation layer
7. The application layer
When you go to school for computer networking the main thing they don’t tell you is the human body is part of the physical layer.
Converting digital data into signals that can traverse the chosen medium is part of the standard definition of the physical layer.
What happens when it’s the inverse?
Converting biochemical signals in the human body into electrical signals (RF) which can wirelessly (WBAN) be sent to a data center or the cloud. The human body becomes digital data which is then in turn is implemented into AI simulations so they can exploit us.
Our DNA becomes a commodity
tandfonline.com/doi/full/10.10…
🔸BIO CYBER INTERFACE
Advances in synthetic biology and nanotechnology have contributed to the design of tools that can be used to control, reuse, modify, and re-engineer cells‘ structure, as well as enabling engineers to effectively use biological cells as programmable substrates to realize Bio-Nano Things (biological embedded computing devices).
Bio-NanoThings are generally tiny, non-intrusive, and concealable devices that can be used for in-vivo applications such as intra-body sensing and actuation networks. Such (nano-scale) devices can be used in various healthcare settings such as continuous health monitoring, targeted drug delivery, and nano-surgeries. These services can also be grouped to form a collaborative network (i.e., nanonetwork), whose performance can potentially be improved when connected to higher bandwidth external networks such as the Internet, say via 5G.
arxiv.org/pdf/2106.14273
🔸 IEEE 802.15.6 STANDARD
IEEE 802.15.6 is an international wireless communication standard that is specifically designed for Wireless Body Area Networks (WBAN). WBAN networks support both in-body communication, and on-body communication. In-body communication is the network communication between biological sensors that are implanted/ingested/absorbed thru skin/injected inside the human body. On-body communication is the network communication between wearable devices that consist of various sensors.
standards.ieee.org/ieee/802.15.6/…
An example of on-body WBAN would be a patient equipped with biomedical sensors that can measure temperature, blood pressure, heart rate, electrocardiogram (ECG), and EEG. Fitness enthusiasts use trackers to monitor speed, pulse rate, and calories to track their performance. Hence these parameters can be seen via smartphone through a WBAN. WBAN networks are also called Body Area Network (BAN), Body Sensor Network (BSN), and Medical Body Area Network (MBAN).
everythingrf.com/community/what…
🔸HUMAN BODY COMMUNICATION (HBC)
The human body’s electrical conductivity allows signals to travel through tissues, enabling communication between devices placed on or inside the body.
Principles of HBC
Electromagnetic Coupling: HBC employs electromagnetic fields to transmit data through the body.
sciencedirect.com/topics/compute…
Conductivity of the Body: The human body’s high water content makes it a good conductor of electrical signals.
nature.com/articles/s4159…
engineering.purdue.edu/~shreyas/Sparc…
Frequency Range: HBC typically operates in the low-frequency range (below 1 MHz) to minimize interference with other wireless technologies.
Types of HBC
Capacitive HBC: Uses the body’s capacitance to transmit data between devices.
nature.com/articles/s4159…
Galvanic HBC: Transmits data through direct contact between electrodes on the body.
Magnetic HBC: Uses magnetic fields to transmit data through the body.
par.nsf.gov/servlets/purl/…
Internet of Bodies
HBC can enable a network of interconnected devices on or within the human body.
ieeexplore.ieee.org/document/94903…“
https://x.com/Ryansikorski10/status/1896638701108629880?t=Qhkz321NlRBVmFHj2_6nDw&s=19