ILLEGAL NANO ROBOTS ARE HERE
ILLEGAL NANO ROBOTS ARE HERE
“YOU CANNOT LEGALIZE CRIME”.
Following this MUST-SEE video:
https://rumble.com/v1prv94-world-first-robotic-arms-assembling.html?
Below there is some info on those findings:
https://neurosciencenews.com/nanobots-health-8028/
Summary: An international team of researchers have created remote controlled nanobots from a biodegradable material that they believe could assist doctors in diagnosing diseases and delivering drugs to target sites.
The nanorobots can be remotely controlled within complex biological fluids with high precision using magnetic fields.
Nanobots Will Be Flowing Through Your Body by 2030 – NanoApps Medical – Official website https://www.nanoappsmedical.com/nanobots-will-be-flowing-through-your-body-by-2030/
“The idea that nanobots could one day transmit our thoughts to the cloud is probably the most far-fetched of the many proposed uses for nanobots out there. This feat would require great strides in both neuroscience and nanorobotics, along with a population willing to give Google direct access to our brains. While it may be a possibility, this functionality is probably a long way off in the future.”
Only… that they did not ask for such permission. Only… they killed and maimed millions to implement this and they must be trialed.
As Sasha Latypova said: “So, Pfizer is dictating to sovereign governments that they can no longer practice they sovereignty. How is this not treasonous, exactly? How is this not treasonous for people signing such contracts? It is unacceptable. They are violating their oath of office. They don’t have a power to give away national sovereignty. They created a legalistic framework to legalize crime. But you can't legalize crime. It is not possible.
Just that you put it on paper and put a gun to somebody’s head does not make it legal”.
YOU CANNOT LEGALIZE CRIME.
(https://rumble.com/v1pbk3m-sasha-latypova-whistleblower-covid-injections-department-of-defense-bio-wea.html)
In research published in ScienceMag, scientists with the Wyss Institute for Biologically Inspired Engineering and Department of Genetics at Harvard Medical School, stated:
"As a proof of principle, nanorobots loaded with combinations of antibody fragments were used in two different types of cell-signaling stimulation in tissue culture. Our prototype could inspire new designs with different selectivities and biologically active payloads for cell-targeting tasks."
Theoretically, nanobots could one day be used to constantly monitor our body for maladies and other symptoms, constantly transmitting this information to a cloud for close monitoring by medical staff. This could essentially turn the common cold or other types of conditions into easily stoppable problems.
RELATED: HOW HAS NANOTECHNOLOGY CHANGED OVER THE YEARS
The idea that nanobots could one day transmit our thoughts to the cloud is probably the most far-fetched of the many proposed uses for nanobots out there. This feat would require great strides in both neuroscience and nanorobotics, along with a population willing to give Google direct access to our brains. While it may be a possibility, this functionality is probably a long way off in the future.
Taking a step back for a moment, let's discuss what nanotechnology really is.
What is nanotechnology?
Nanotechnology is more than just technology for sci-fi villains, it is a burgeoning field melding engineering and science.
Nanorobotics refers to the emerging field of designing and building robots whose components are near the scale of a nanometer ((10−9 meters), or ranging in size from 0.1 to 10 micrometers and made of nanoscale or molecular components.
As for Kurzweil, he is convinced that nanotechnology holds out the promise of someday merging humans and technology. In 2019, he told Engadget:
"The scenario that I have is that we will send medical nanorobots into our bloodstream. One application of these medical nanorobots will be to extend our immune systems. ... These robots will also go into the brain and provide virtual and augmented reality from within the nervous system rather than from devices attached to the outside of our bodies. The most important application of the medical nanorobots is that we will connect the top layers of our neocortex to synthetic neocortex in the cloud."
If nanobot injection becomes an option, will you volunteer to take the first steps to becoming a cyborg? Are you open to this kind of change?
So now, since most of us don't have cancer, why are people injected with these substances, even young children?
Nanorobots are implemented by using several components such as sensors, actuators, control, power, communication and by interfacing cross-special scales between organic inorganic systems.
Biochip
The combination of nanotechnology, photo-lithography and new biomaterials, can be considered as a possible way required for designing technology to develop nanorobots for medical applications such as diagnosis and drug delivery. This realistic approach in designing nanorobots is a methodology which is used in the electronic industries.
According to the World Economic Forum, researchers are already testing out the possibility of using nanobots to fight cancer. Can you imagine how amazing it would be if we could eliminate chemotherapy and replace it with a less evasive or even non-evasive technology to destroy cancer? Imagine how many millions of lives this would impact! https://www.silist.com/what-if-we-could-use-nanobots-to-fight-disease/
“Another potential function may involve taking biometric measurements to monitor a person’s general health.”
What is the Smart Vaccine?
Nanobot engineering is defined as the engineering of “smart” functional systems at the molecular scale. The Nanotechnology dictionary, www.nanodic.com, defines Nanotechnology as “the design, characterization, production and application of structures, devices and system by controlled manipulation of size and shape at the nanometer scale (atomic, molecular and macromolecular scale) that produces structures, devices and systems with at least one novel/superior characteristic or property.”
The SV is an intelligent nanobot, programmable to do a specific function in digital immunity. Fig. 3.1 gives you the exploded view of SV. As it is scaled at the molecular level, it can be a component of a chip, it can roam through computer cables, it can reside on a storage device, and it can communicate with other SVs. That is why it is called the “Smart” Vaccine. It is the counterpart of the B cells or T cells in the human immunity system. We can also compare it to the neurons that transfer sensory and motor signals to and from the brain. The scaling down of CEWPS/SV to the nanomolecular level is the advantage that places the system ahead of its time. In this and the following chapter, we describe in more detail the anatomy of the SV nanobot.
The Last Mile to Civilization 2.0: Technologies From Our Not Too Distant Future > Nanobots, Smart Dust, 5G Wireless and Smart Cities | TechSpot https://www.techspot.com/article/1534-civilization-20-next-gen-technologies/page2.html
However, researchers are also exploring nanobots made with electronics, such as 'neural dust,' which is perhaps best described as a Fitbit for the nervous system. Created from CMOS circuits/sensors, neural dust uses ultrasound to power a 3mm-wide implant that can wirelessly track and transmit real-time data from nerves, organs and muscles.
Development of neural dust took rise with funding from DARPA and a 2013 UC Berkeley paper (PDF) titled "Neural Dust: An Ultrasonic, Low Power Solution" conceptualizes a mature version of the technology, which could be used to create an implantable brain-machine interface with ultrasonic sensors that can stimulate specific brain areas.
Before neural dust, DARPA financed research through Berkeley in 1998 to create 'smart dust' -- technically known as 'microelectromechanical sensors' (MEMS) -- which is essentially an IoT device that can be placed anywhere in the environment to wirelessly monitor changes such as light, vibrations, temperature, humidity, magnetism or chemical signatures, acting as nerve-endings in an ad-hoc distributed network that provides full-spectrum intelligence.
5G: Enabling 'Massive IoT' and Smart Cities
Wireless virtual reality for your smart contacts
Rolling out over the next few years, 5G is expected to transform the world with ever-present wireless connectivity that will enable a smart grid of IoT devices comprised of nearly everything on earth, which could eventually facilitate an 'intelligence' that runs alongside everyday life, monitoring and reacting from a smart city's central autonomous control center.
Google, Facebook, Qualcomm, Verizon, AT&T, Nokia and Samsung are some of the companies contributing toward the 5G network, not to mention interest from governments around the globe. China, Japan and South Korea are currently leading in the deployment of 5G while the US and Europe are lagging behind, with projections for a worldwide network by the early-mid 2020s.
Planned for meeting global sustainability goals, 5G-connected cities pave the way for technologies such as autonomous drones, self-driving shuttles, always-on IoT sensors and biometric identification. Transportation could be intelligently directed in real-time according to traffic levels and environmental conditions, predictive surveillance cameras could report suspicious activity before crimes actually occur, while every morsel of data could be collected, analyzed and used for the betterment of all.
Cisco is a prime example of organizations focusing on technologies in this realm. The company has been speaking about the 'Internet of Everything' (IoE) for more than a decade and was recognized as the "#1 Smart City Supplier" in a 2017 report by Navigant Research. Since 2015, the company's IoT platform "Cisco Kinetic" has been adopted by cities including Copenhagen, Paris, Kansas City, Las Vegas, Schenectady, New York; Adelaide, Australia; Budapest, Hungary; Dubrovnik, Croatia; Trencin, Slovakia; as well as Bangalore and Jaipur India.
Cisco Kinect is one of several unified IoT platforms being purpose-built to extract, compute and move data to the right place at the right time in a given ecosystem. By actively extrapolating and applying rules to information, these platforms can provide horizontal data aggregation and act as a multi-cloud, multi-party, multi-location 'IoT data fabric,' which is useful for furthering smart city initiatives and driving better business outcomes.
While many localities are investing in big data platforms, several projects are underway to construct new smart cities with backing from major technology partners including Alphabet, Cisco, Nvidia, Alibaba, Baidu and Bill Gates:
'Alibaba City Brain' in Hangzhou, China - Created in collaboration with more than a dozen companies including Foxconn and HTC, Alibaba's Brain 1.0 uses deep-learning and AI to track commutes, purchases, social media and other interactions for optimizing city functions such as managing Hangzhou's traffic lights to keep transportation moving and accidents down, or identifying potentially criminal behavior.
Neom in Saudi Arabia - Expected to span 10,000 square miles (25,900 square kilometers) along the coast of the Red Sea toward Jordan and Egypt, investors around the globe have committed more than $500 billion dollars to build Saudi Arabia's city of the future. Neom will have its own governmental framework and will be powered by technologies such as renewable energy, high speed wireless connectivity and artificial intelligence. The project is viewed as a new economic-development engine that will fuel innovation in bio-tech, manufacturing, and media.
Belmont, AZ - Purchased by one of Bill Gates' investment firms for $80 million, Belmont will cover 25,000 acres of Arizona that is currently unoccupied, with enough land to be allocated for 80,000 residential units as well as 3,800 acres for office, commercial and retail spaces, and 470 acres for public schools. Emphasizing high-speed networks, advanced manufacturing, self-driving vehicles and data centers, Belmont could become a hub for new technologies to thrive and a proposed I-11 freeway would connect Belmont to Las Vegas, Nevada.
https://id2020.org In September 2015, all United Nations member states adopted the 2030 Sustainable Development Goals, including their commitment to “provide legal identity for all, including birth registration” by 2030.
The ID2020 Alliance has launched a new digital identity program at its annual summit in New York, in collaboration with the Government of Bangladesh, vaccine alliance Gavi, and new partners in government, academia, and humanitarian relief.
The program to leverage immunization as an opportunity to establish digital identity was unveiled by ID2020 in partnership with the Bangladesh Government’s Access to Information (a2i) Program, the Directorate General of Health Services, and Gavi, according to the announcement.
Digital identity is a computerized record of who a person is, stored in a registry. It is used, in this case, to keep track of who has received vaccination.
“We are implementing a forward-looking approach to digital identity that gives individuals control over their own personal information, while still building off existing systems and programs,” says Anir Chowdhury, policy advisor at a2i. “The Government of Bangladesh recognizes that the design of digital identity systems carries far-reaching implications for individuals’ access to services and livelihoods, and we are eager to pioneer this approach.”
Gavi CEO Seth Berkley says that 89 percent of children and adolescents who do not have identification live in countries where the organization is active. “We are enthusiastic about the potential impact of this program not just in Bangladesh, but as something we can replicate across Gavi-eligible countries, providing a viable route to closing the identity gap,” he says.
A partnership was also formed earlier this year between Gavi, NEC, and Simprints to use biometrics to improve vaccine coverage in developing nations.
“Digital ID is being defined and implemented today, and we recognize the importance of swift action to close the identity gap,” comments ID2020 Executive Director Dakota Gruener. “Now is the time for bold commitments to ensure that we respond both quickly and responsibly. We and our ID2020 Alliance partners, both present and future, are committed to rising to this challenge.”
ID2020 also announced new partnerships and provided progress reports on initiatives launched last year. Since last year’s summit, the ID2020 Alliance has been joined by the City of Austin, UC Berkeley’s CITRIS Policy Lab and Care USA.
The City of Austin, ID2020, and several other partners are working together with homeless people and the service providers who engage with them to develop a blockchain-enabled digital identity platform called MyPass to empower homeless people with their own identity data.
A pair of inaugural pilot programs launched last year in partnership with iRespond and Everest have each made progress, ID2020 says. The iRespond program has improved continuity of care for more than 3,000 refugees receiving treatment for chronic conditions from the International Rescue Committee in Thailand, according to the announcement, while Everest has assisted with the provision of access to critical energy subsidies and a range of additional services with secure and user-centric digital identities without relying on a smartphone.
This post was updated at 4:58pm on March 26, 2020 to clarify that the program is intended to allow people to receive vaccination and prove they have received it, not to track individuals, as claimed by some conspiracy theorists.
Thanks for clarifying. I might think otherwise. Let’s read again:
ID2020 and partners launch program to provide digital ID with vaccines
Sep 20, 2019 | Chris Burt
The ID2020 Alliance has launched a new digital identity program at its annual summit in New York, in collaboration with the Government of Bangladesh, vaccine alliance Gavi, and new partners in government, academia, and humanitarian relief.
The program to leverage immunization as an opportunity to establish digital identity was unveiled by ID2020 in partnership with the Bangladesh Government’s Access to Information (a2i) Program, the Directorate General of Health Services, and Gavi, according to the announcement.
“We are implementing a forward-looking approach to digital identity that gives individuals control over their own personal information, while still building off existing systems and programs,” says Anir Chowdhury, policy advisor at a2i. “The Government of Bangladesh recognizes that the design of digital identity systems carries far-reaching implications for individuals’ access to services and livelihoods, and we are eager to pioneer this approach.”
Gavi CEO Seth Berkley says that 89 percent of children and adolescents who do not have identification live in countries where the organization is active. “We are enthusiastic about the potential impact of this program not just in Bangladesh, but as something we can replicate across Gavi-eligible countries, providing a viable route to closing the identity gap,” he says.
A partnership was also formed earlier this year between Gavi, NEC, and Simprints to use biometrics to improve vaccine coverage in developing nations.
“Digital ID is being defined and implemented today, and we recognize the importance of swift action to close the identity gap,” comments ID2020 Executive Director Dakota Gruener. “Now is the time for bold commitments to ensure that we respond both quickly and responsibly. We and our ID2020 Alliance partners, both present and future, are committed to rising to this challenge.”
ID2020 also announced new partnerships and provided progress reports on initiatives launched last year. Since last year’s summit, the ID2020 Alliance has been joined by the City of Austin, UC Berkeley’s CITRIS Policy Lab and Care USA.
The City of Austin, ID2020, and several other partners are working together with homeless people and the service providers who engage with them to develop a blockchain-enabled digital identity platform called MyPass to empower homeless people with their own identity data.
A pair of inaugural pilot programs launched last year in partnership with iRespond and Everest have each made progress, ID2020 says. The iRespond program has improved continuity of care for more than 3,000 refugees receiving treatment for chronic conditions from the International Rescue Committee in Thailand, according to the announcement, while Everest has assisted with the provision of access to critical energy subsidies and a range of additional services with secure and user-centric digital identities without relying on a smartphone.
Sorry, but this is more than a crime. This is why people are getting these harmful dangerous injections. It has nothing to do with virus or health, but everything to do with BLOCKCHAIN, BIOMETRICS/MICROCHIPPING, TOTAL SURVEILLANCE and POPULATION CONTROL.
THIS IS CONSPIRACY!
Multifunctional biohybrid magnetite microrobots for imaging-guided therapy
Magnetic microrobots and nanorobots can be remotely controlled to propel in complex biological fluids with high precision by using magnetic fields. Their potential for controlled navigation in hard-to-reach cavities of the human body makes them promising miniaturized robotic tools to diagnose and treat diseases in a minimally invasive manner. However, critical issues, such as motion tracking, biocompatibility, biodegradation, and diagnostic/therapeutic effects, need to be resolved to allow preclinical in vivo development and clinical trials. We report biohybrid magnetic robots endowed with multifunctional capabilities by integrating desired structural and functional attributes from a biological matrix and an engineered coating. Helical microswimmers were fabricated from Spirulina microalgae via a facile dip-coating process in magnetite (Fe3O4) suspensions, superparamagnetic, and equipped with robust navigation capability in various biofluids. The innate properties of the microalgae allowed in vivo fluorescence imaging and remote diagnostic sensing without the need for any surface modification. Furthermore, in vivo magnetic resonance imaging tracked a swarm of microswimmers inside rodent stomachs, a deep organ where fluorescence-based imaging ceased to work because of its penetration limitation. Meanwhile, the microswimmers were able to degrade and exhibited selective cytotoxicity to cancer cell lines, subject to the thickness of the Fe3O4 coating, which could be tailored via the dip-coating process. The biohybrid microrobots reported herein represent a microrobotic platform that could be further developed for in vivo imaging–guided therapy and a proof of concept for the engineering of multifunctional microrobotic and nanorobotic devices.
“Multifunctional biohybrid magnetite microrobots for imaging-guided therapy” by Xiaohui Yan, Qi Zhou, Melissa Vincent, Yan Deng, Jiangfan Yu, Jianbin Xu, Tiantian Xu, Tao Tang, Liming Bian, Yi-Xiang J. Wang, Kostas Kostarelos and Li Zhang in Science Robots. Published online November 22 2017 doi:10.1126/scirobotics.aaq1155
Identity gaps.
And the answer is multifunctional micro and nanorobotic dip-coated microswimmers...
I have a lot of work to do to try and help young people understand what freedom is and why they must not yield on one nanometer of it.
If I can reach just one and hook them up with others...
Nanotech can be used to deliver drugs to only cancer cells to cure you. It can also be used to deliver a heart-stopping drug as well to kill you. Or other chemicals to the brain to make one homicidal or suicidal.