- 15 Oct 2016 05:26
#14726633
"We may regard the present state of the universe as the effect of its past and the cause of its future. An intellect which at a certain moment would know all forces that set nature in motion, and all positions of all items of which nature is composed, if this intellect were also vast enough to submit these data to analysis, it would embrace in a single formula the movements of the greatest bodies of the universe and those of the tiniest atom; for such an intellect nothing would be uncertain and the future just like the past would be present before its eyes." - Pierre-Simon Laplace, (Essai philosophique sur les probabilités, 1814)
Nikola Tesla and the electric universe.
The World Wireless System was a turn of the 19th century proposed telecommunications and electrical power delivery system designed by inventor Nikola Tesla based on his theories of using Earth and its atmosphere as electrical conductors. He claimed this system would allow for "the transmission of electric energy without wires" on a global scale as well as point-to-point wireless telecommunications and broadcasting.
But what if we can build some kind of continuous information loop which feeds a quantum computer data for virtual representation, providing us with an ongoing realtime parallel construction of planet earth in the form of a virtual hologram?
Can the military use Tesla's vision to create one planetary surveillance grid?The technology exists, and if we can harness the right frequencies/waves, we may be able to track and trace all living things in realtime. My theory is simple, I want to build one realtime parallel representation of planet earth, by continuously monitoring organic material ('live agents') which may be cross referenced with inorganic material ('dead agents'). These data points will be virtually constructed using a quantum computer; the quantum computer can build realtime holograms and mathematically formulate parallel potentiality within static & dynamic relationships. The question is: how can we track and trace all living organisms? My approach: seed earth's atmosphere with conductive biodegradable polymeric nanoparticles (seed the water supply, food, plants, people, etc).
Concept: Tagging all living organisms using Biodegradable polymeric nanoparticles. Consider the Wired Flower...
http://www.the-scientist.com/?articles. ... ed-Flower/
Why polymeric nanoparticles? They're compatible with organic tissue and plant life. Also, they can be observed through a process called photoacoustic imaging. The military could seed biodegradable polymeric nanoparticles and 'chip' human populations without disclosure.
http://pubs.rsc.org/en/content/articleh ... c4cs00014e
In our case, screening of them for various intelligence applications. We need to research & develop military grade polymeric nanoparticles that can be compatible with sophisticated remote satellite echo-location. Questions to consider- can we modify the half-lives of these nanoparticles (how often must we re-seed), do we include unique identification pins (like RFID) or use realtime quantum 3D computer modeling techniques to analyze the movement of 'live agents?'
Our satellites must continuously 'beam' information, forcing the polymeric nanoparticles to conduct each transmission and refract 'feedback,' enabling virtual visualization of all organic/living agents.
Imagine a human specimen instead of rat
Organic/living agents must be cross-referenced with our geo-spatial contextual awareness systems that track and trace inorganic/dead agents (buildings, geological formations, etc). Anyway, I'm bored so here is a quick illustration of my concept.
Thoughts?
EDIT: 1. Let's fund a POC study in the laboratory, setting up an underground control experiment. We'll need to simulate earth's atmosphere and ecological cycle, by studying how our conductive biodegradable PNPs interact with the environment. We need to determine what kind of half-lives are desirable for real-world application. Furthermore, can we isolate and study natural & unnatural variables which may disturb the distribution and absorption of our PNPs? Lastly, can we go 'live' with our POC and test on densely populated areas, like a metropolitan area?
2. Seeding must be automated by a task force of high altitude jetcraft, powered by solar energy.
3. Realtime monitoring and active measurements must be automated by fusion centers with an operational command center anchored by cutting edge artificial intelligence.
4. R&D new LEO satellites designed specifically for echo-location and advanced long-distance photoacoustic imaging.
Nikola Tesla and the electric universe.
The World Wireless System was a turn of the 19th century proposed telecommunications and electrical power delivery system designed by inventor Nikola Tesla based on his theories of using Earth and its atmosphere as electrical conductors. He claimed this system would allow for "the transmission of electric energy without wires" on a global scale as well as point-to-point wireless telecommunications and broadcasting.
But what if we can build some kind of continuous information loop which feeds a quantum computer data for virtual representation, providing us with an ongoing realtime parallel construction of planet earth in the form of a virtual hologram?
Can the military use Tesla's vision to create one planetary surveillance grid?The technology exists, and if we can harness the right frequencies/waves, we may be able to track and trace all living things in realtime. My theory is simple, I want to build one realtime parallel representation of planet earth, by continuously monitoring organic material ('live agents') which may be cross referenced with inorganic material ('dead agents'). These data points will be virtually constructed using a quantum computer; the quantum computer can build realtime holograms and mathematically formulate parallel potentiality within static & dynamic relationships. The question is: how can we track and trace all living organisms? My approach: seed earth's atmosphere with conductive biodegradable polymeric nanoparticles (seed the water supply, food, plants, people, etc).
Concept: Tagging all living organisms using Biodegradable polymeric nanoparticles. Consider the Wired Flower...
Researchers use a conducting polymer to construct circuits inside plant cuttings in a proof-of-concept study.
The team, led by physicist Magnus Berggren, formed the circuits using a conductive and water-soluble polymer—poly(3,4-ethylenedioxythiophene), or PEDOT. The researchers dissolved it in water and then placed a cut rose into the container. The rose took up the PEDOT in its xylem along with water, where the PEDOT then aggregated on its own into wires up to five centimeters long. The material was visible when the researchers peeled back the top layer of plant matter from the stem.
http://www.the-scientist.com/?articles. ... ed-Flower/
Why polymeric nanoparticles? They're compatible with organic tissue and plant life. Also, they can be observed through a process called photoacoustic imaging. The military could seed biodegradable polymeric nanoparticles and 'chip' human populations without disclosure.
In this review, recent progress of polymer-encapsulated organic nanoparticles using CPs and AIE fluorogens as the emitters for fluorescence and photoacoustic imaging has been summarized. The polymer encapsulation strategy has been proved to be simple and effective in quickly transforming organic soluble molecules into aqueous media, and for fast screening of them for various biological applications.
http://pubs.rsc.org/en/content/articleh ... c4cs00014e
In our case, screening of them for various intelligence applications. We need to research & develop military grade polymeric nanoparticles that can be compatible with sophisticated remote satellite echo-location. Questions to consider- can we modify the half-lives of these nanoparticles (how often must we re-seed), do we include unique identification pins (like RFID) or use realtime quantum 3D computer modeling techniques to analyze the movement of 'live agents?'
Our satellites must continuously 'beam' information, forcing the polymeric nanoparticles to conduct each transmission and refract 'feedback,' enabling virtual visualization of all organic/living agents.
Imagine a human specimen instead of rat
Organic/living agents must be cross-referenced with our geo-spatial contextual awareness systems that track and trace inorganic/dead agents (buildings, geological formations, etc). Anyway, I'm bored so here is a quick illustration of my concept.
Thoughts?
EDIT: 1. Let's fund a POC study in the laboratory, setting up an underground control experiment. We'll need to simulate earth's atmosphere and ecological cycle, by studying how our conductive biodegradable PNPs interact with the environment. We need to determine what kind of half-lives are desirable for real-world application. Furthermore, can we isolate and study natural & unnatural variables which may disturb the distribution and absorption of our PNPs? Lastly, can we go 'live' with our POC and test on densely populated areas, like a metropolitan area?
2. Seeding must be automated by a task force of high altitude jetcraft, powered by solar energy.
3. Realtime monitoring and active measurements must be automated by fusion centers with an operational command center anchored by cutting edge artificial intelligence.
4. R&D new LEO satellites designed specifically for echo-location and advanced long-distance photoacoustic imaging.
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Close encounters with ∞Infinity∞
"So much joy I cry, so much pain I laugh."
The ink of the scholar is more sacred than the blood of the martyr.
Remember, you need more than one note to make beautiful music.
Love is the missing link!
"So much joy I cry, so much pain I laugh."
The ink of the scholar is more sacred than the blood of the martyr.
Remember, you need more than one note to make beautiful music.
Love is the missing link!