Because I find what she shares on her channel very important and I consider it unnecessary to repeat this information myself, I have published a piece of her content here with Dutch, Spanish, and German subtitles.
Visit her account: https://lovelee77.substack.com/”
Note: Real ID Act : https://www.congress.gov/bill/109th-congress/house-bill/418
I myself want to add the following information to this publication:
Intracorporal Network: A Scientific Analysis
In this article, we will conduct a neutral scientific analysis of the potential applications and implications of intracorporal networks.
1. TS-OOK Signal Characteristics
TS-OOK signals are highly recognizable in scientific publications on intracorporal networks due to their low energy emission cost and simple characteristics. This binary signal technology uses electrical pulses with the value "one" and silences with the value "zero." This makes it possible to transmit potential variations and pulses detected by micro/nano-sensors and nodes within the body via TS-OOK.
2. MAC Broadcast
The micro/nano-router is an important component of intracorporal networks. According to scientific literature, this device may cause "MAC broadcast" phenomena, where data sent outward is transmitted according to a medium access control (MAC) protocol.
3. Micro/Nano Interface
The micro/nano interface is a hybrid device responsible for capturing signals emitted outward and directing them inward, or the reverse process of transmitting data outward. This device plays a crucial role in transferring data across the skin barrier, and can therefore be regarded as both a repeater and a signal amplifier.
4. Gateway
The purpose of emissions from the micro/nano-router and micro/nano-interface is to send data to the gateway. In scientific publications, this gateway is described as a device with internet access, such as a smartphone, tablet, or wearable.
C) Possible Consequences, Applications, and Use Cases
In this section, we will focus on the possible implications, applications, and use cases of intracorporal networks.
Neuro-Surveillance: Implanting carbon nanotubes and graphene nano-sheets in neural tissue enables monitoring of brain activity. This data can then be transmitted to external servers for interpretation using big-data technologies.
Neuromodulation: This concept involves electrically modulating the brain according to predefined patterns to stimulate certain behaviors, feelings, or thought patterns. This technology could be applied for subliminal learning.
Neurostimulation: This technology focuses on stimulating the release of neurotransmitters in neural communications. It can influence signaling processes and receptions, thereby steering certain emotions or behaviors.
Connected Human: Intracorporal networks make it possible to oversee human activities, health status, work performance, and academic achievements through subliminal communication strategies and data streams.
Individual as Resource: With intracorporal networks, humans can be transformed into streams of information for various use cases.
Population Reduction: This concept refers to the idea that intracorporal networks could aid in determining individuals who are no longer deemed necessary in the "New Order."
Elimination: Through intracorporal networks, it may be possible to manipulate heart and brain functions, potentially leading to cardiac arrest or loss of consciousness.
