Internet of Bio-Nano Things- IoBNT== short summary
One of the data security goals of IoBNT technology is to use the human body as a channel for secure data storage until secure signals or light-based retrieval happens in-body (IB);- that there is an implicit 1x use for cells and molecules in the data traffic retrieval instance. One of the complications is that the channel is compromised when information is released into the environment. However, it seems that the use of nano-machines and IoBNT have a partial goal of changing cells and molecules to create a cell or molecule recognition failure for any secondary data retrieval attempts from those same cells used for initial data storage and retrieval.
This type of changing of cells' shape and molecules occurs after data retrieval so that the system is secure and contained- once the data or information has been initially extracted to achieve secure transmission. In commonly accepted ethical theory or "assumed" morality of researchers, on a nanoscale- this type of technology and data traffic event seems like it should be non-lethal.
How Does Cell shape change?
One obvious way may be cellular dehydration. Another way is conjoining infection-like technology with a bio-toxin, secondary nano-tech, or bio-nano machine.
4. Red blood cells -- take a hexagonal shape-- probably from a lack of oxygen and/or cellular death in close proximity to the presence of a bio-toxin.
.JPG) |
| Sample of Angela "Kikuchi" Kneale's live blood during the 2014 microscopy session. |
Essentially the concept is that there is a "data traffic flow" that may disable cell function for data security in the Body Area Network.
This may happen practically simultaneously by the use of light speed and latency- Latency rates are frequently not stated in research papers and show a lack of the researchers' ability to collect proper measurements. There are many types of measurement equipment for signals and nano-technologies that only exist in classified or top-secret government or defense facilities which may be attributed to the lack of measurements. Yet, a lack of this data does not inhibit or exempt researchers and patents from the acquisition of the funding or sale of technologies to defense or government for use "AS IS".
There are also several blaring, missing comparisons for quantified cell or molecular data;
1. How many cells are used and recruited for signal transmission is not mentioned as a finite number. Rather, the amount of "data traffic" is quantified.
ie,. using the 2nd live blood microscopy pic above of a web of dead red blood cells in a singular drop of a blood specimen can be quantified by counting individual cells on a portion of the slide.
The problem with reading data retrieval research conducted in cadavers is that the "consumption of flesh" during signal use is cited in a variety of ways. So it leaves the reader questioning if:
1. the destruction of cellular materials is external and/or internal to the cadaver.
2. the destruction of cellular structures is from literal heat, UV, microwave, or other signals destruction as a directed energy burn or from the pulsed microwave or other signals,
2a. If other signals include those pertaining to genetic data transmitted into a cell such as mRNA.
2b. If this type of data transmission is intended for the assassination of the target as a non-channel.
2c. If nano-technologies carry cell shape change or molecule shape change genetic data that has a time-release or light-based release transfer to cells, that it creates backup storage in other cells or molecules.
2d. If this type of data transmission is intended to cause harm, death, or injury to the same or a different human channel as a human channel or human person.
3. the destruction of cellular structures is caused by toxicity or a chain of cascading reactions linked to toxicity.
Suggestion: Researchers could attempt to do their experiments in smaller LIVE human blood samples and provide quantitative data of cellular destruction and shape changes before proceeding in a very large cadaver. This should work unless the toxicological effects of their nano-tech cause damage before being able to run the data experiment.
2. There is no apparent correlation between the change of cell shape in a timeframe during or after data traffic events.
3. To what extent are bio-nano-occupied cells identified by a light retrieval method of communication, and is that light from a particular type of irradiation or wavelength.
4. Smart cities technology research has picosecond data packet download rates and other latency rates that can be used for arbitrary comparable latency rates for speed of data retrieval.
Additionally, I was only able to find one example indication of live human testing that is confirmed in publicly available research articles. That example was from a Chinese university and was published in 2019. These IoBNT types of technologies are frequently tested on cadavers and execute their purpose of data transmission through signals transmission via cadaver(s). The cadavers typically used are human or porcine (pig) and include animal experimentation on primates, rodents, etc.
It seems that researchers are indifferent
that the human aka channel is alive for the data or signals transmission during live human tests that fall outside the scope of "medical practice". In 2021, public interest journalists, whistleblowers, medical professionals, and researchers revealed to the public that the injections of nano-technologies in live humans, fall outside the scope of medicine and consent factors and ingredients listed.
Maybe, someone in this line of IoBNT research will attempt to prevent a section of cells from dying at once in the human channel during signal propagation and could find some way to direct the secure channel to a more receptive connection requiring less "light". The purpose is to suggest having a less severe light retrieval method due to distance;- since cells are noted to die and weaken the signal strength. It seems unlikely to use intense radar signals for HBC, even with current electronic warfare capabilities of radar being nearly equal to or surpassing microwave capabilities.
*note: The language of using "light" broadly speaking overlaps with new religions- ie, Aurelian technologies - used with spirituality. Some of these light-based religions may use scalar and irradiation technology as forms of light, in addition to the photonic light of raising a hand. Photonic light naturally occurs from the hands' fingertips and also feet. These are supposed to be scientific research papers and describe the signals propagated rather than using a new age religious spiritual light language. ET in the military language is generally known to be an Electronics Technician. Yet ET is used in Aurelian spirituality as Extra Terrestrial or "Alien" in defining their 'technologies of spirituality' and use of light.
References: Articles cited and quotations are below;
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1. Ilaria Armenia, Carlos Cuestas Ayllón, Beatriz Torres Herrero, Francesca Bussolari, Gabriel Alfranca, Valeria Grazú, Jesús Martínez de la Fuente, Photonic and magnetic materials for on-demand local drug delivery, Advanced Drug Delivery Reviews, Volume 191, 2022, 114584, ISSN 0169-409X, https://doi.org/10.1016/j.addr.2022.114584. https://www.sciencedirect.com/science/article/pii/S0169409X22004744) Keywords: Nanotherapy; Magnetic nanomaterial; Photonic nanomaterial; Stimuli-responsive drug delivery
2. https://pubmed.ncbi.nlm.nih.gov/31647441/
"While most prior work has proposed the use of enzymes to catalyze the molecules' degradation, enzymes also degrade the molecules carrying the information, which drastically decreases the signal strength."
Dambri OA, Cherkaoui S. Performance Enhancement of Diffusion-Based Molecular Communication. IEEE Trans Nanobioscience. 2020 Jan;19(1):48-58. doi: 10.1109/TNB.2019.2949261. Epub 2019 Oct 24. PMID: 31647441.
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3. https://pubmed.ncbi.nlm.nih.gov/33835921/
Dissanayak MB, Ekanayake N. On the exact performance analysis of Molecular Communication via Diffusion for Internet of Bio-Nano Things. IEEE Trans Nanobioscience. 2021 Apr 9;PP. doi: 10.1109/TNB.2021.3072230. Epub ahead of print. PMID: 33835921.
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4. https://pubmed.ncbi.nlm.nih.gov/27654883/
Ahmadzadeh A, Arjmandi H, Burkovski A, Schober R. Comprehensive Reactive Receiver Modeling for Diffusive Molecular Communication Systems: Reversible Binding, Molecule Degradation, and Finite Number of Receptors. IEEE Trans Nanobioscience. 2016 Oct;15(7):713-727. doi: 10.1109/TNB.2016.2609600. Epub 2016 Sep 14. PMID: 27654883.
"We consider the diffusive molecular communication channel between a transmitter nano-machine and a receiver nano-machine in a fluid environment. The information molecules released by the transmitter nano-machine into the environment can degrade in the channel via a first-order degradation reaction and those that reach the receiver nano-machine can participate in a reversible bimolecular reaction with receiver receptor proteins. T"
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5. https://pubmed.ncbi.nlm.nih.gov/30845698/
Mokry G, Pozuelo J, Vilatela JJ, Sanz J, Baselga J. High Ampacity Carbon Nanotube Materials. Nanomaterials (Basel). 2019 Mar 6;9(3):383. doi: 10.3390/nano9030383. PMID: 30845698; PMCID: PMC6474024.
Keywords: ampacity; carbon-nanotubes; composites; current carrying capacity; diffusion; electromigration; electronics; interconnects; miniaturization.
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6. https://pubmed.ncbi.nlm.nih.gov/29028203/
Abstract Quotation:
"Molecular communication is an important tool to understand biological communications with many promising applications in Internet of Bio-Nano Things (IoBNT)."
"The data rate, channel capacity, and the group propagation delay are analyzed for a two-cell network between a pancreatic beta cell and a muscle cell that are connected through a capillary. The results point out a correlation between an increase in insulin resistance and a decrease in the data rate and channel capacity, an increase in the insulin transmission rate, and an increase in the propagation delay."
Abbasi NA, Akan OB. An Information Theoretical Analysis of Human Insulin-Glucose System Toward the Internet of Bio-Nano Things. IEEE Trans Nanobioscience. 2017 Dec;16(8):783-791. doi: 10.1109/TNB.2017.2762160. Epub 2017 Oct 11. PMID: 29028203.
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7. https://pubmed.ncbi.nlm.nih.gov/26486752/
Subramaniam C, Sekiguchi A, Yamada T, Futaba DN, Hata K. Nano-scale, planar and multi-tiered current pathways from a carbon nanotube-copper composite with high conductivity, ampacity and stability. Nanoscale. 2016 Feb 21;8(7):3888-94. doi: 10.1039/c5nr03762j. PMID: 26486752.
"Importantly, all such complex structures, ranging from 500 nm to 20 μm in width, exhibited ∼100-times higher ampacity than any known metal, with comparable electrical conductivity as Cu. In addition, CNT-Cu structures also exhibited a superior temperature stability compared to the ∼10-times wider Cu counterparts."
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8. https://pubmed.ncbi.nlm.nih.gov/2/29429334/
Search terms: ampacity; buffer layer; carbon nanotube; composite fiber; electroplating; interfacial bonding.
"...the new composite fiber with a 2 μm thick Cu layer can exhibit a superhigh effective strength >800 MPa, electrical conductivity >2 × 107 S/m, and ampacity >1 × 105 A/cm2. The composite fiber can also sustain 10 000 times of bending and continuously work for 100 h at 90% ampacity."
Zou J, Liu D, Zhao J, Hou L, Liu T, Zhang X, Zhao Y, Zhu YT, Li Q. Ni Nanobuffer Layer Provides Light-Weight CNT/Cu Fibers with Superior Robustness, Conductivity, and Ampacity. ACS Appl Mater Interfaces. 2018 Mar 7;10(9):8197-8204. doi: 10.1021/acsami.7b19012. Epub 2018 Feb 21. PMID: 29429334.
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9. https://patents.google.com/patent/US20130029333A1/en?oq=20130029333
