Saturday, December 30, 2023

Monday, November 27, 2023

Tiny, Wireless, Injectable Chips Use Ultrasound to Monitor Body Processes

 See here, herehere, here, and here for past articles with ultrasound. 


Date:
 May 11, 2021
Source:
 Columbia University School of Engineering and Applied Science
Summary:
 Researchers report that they have built what they say is the world's smallest single-chip system, consuming a total volume of less than 0.1 mm3. The system is as small as a dust mite and visible only under a microscope. In order to achieve this, the team used ultrasound to both power and communicate with the device wirelessly.
Click Here to Learn More

Wireless Mind Control: Neural “Smart” Dust Will Now Connect Human Brain To a Computer

See a past article on this topic here

By Nicholas West
Neural Dust – “Smart Dust” – has entered the mainstream via the Independent’s article: “Tiny implant could connect humans and machines like never before.”  This new technology can wirelessly link a human brain to a computer via the implantation of a device the size of a grain of sand. This invention is clearly nothing new; but when the mainstream media begins highlighting something that is literally wireless mind control, it’s worth taking note. It is also worth noting that, as more people learn about science fiction becoming science reality, they are becoming increasingly hesitant about the lack of ethical boundaries for what is emerging.
Some people might have heard about Smart Dust; nanoparticles that can be employed as sensor networks for a range of security and environmental applications. Now, however, literal Smart Dust for the brain is being proposed as the next step toward establishing a brain-computer interface.
The system is officially called “neural dust” and works to “monitor the brain from the inside.” Inventors are attempting to overcome the hurdle of how to best implant sensors that can remain over the course of one’s life. Researchers at Berkeley Engineering believe they have found a novel way to achieve this:
This paper explores the fundamental system design trade-offs and ultimate size, power, and bandwidth scaling limits of neural recording systems.
A network of tiny implantable sensors could function like an MRI inside the brain, recording data on nearby neurons and transmitting it back out. The smart dust particles would all contain an extremely small CMOS sensor capable of measuring electrical activity in nearby neurons. The researchers envision a piezoelectric material backing the CMOS capable of generating electrical signals from ultrasound waves. The process would also work in reverse, allowing the dust to beam data back via high-frequency sound waves. The neural dust would also be coated with polymer. (Source)
The investment in neuroscience has received a $100 million dollar commitment via Obama’s BRAIN project, while Europe has committed $1.3 billion to build a supercomputer replica of the brain in a similarly comprehensive and detailed fashion as the Human Genome Project mapped DNA.
Concurrently, there is massive long-term investment in nanotech applications via the 60-page National Nanotechnology Initiative 2011 Strategic Plan (now updated to 88 pages in 2014 – Ed.) This document lays out a projected future “to understand and control matter” for the management of every facet of human life within the surveillance matrix of environment, health and safety. Twenty-five U.S. Federal agencies are participating.
The concept of Smart Dust has been applied and/or proposed for use in the following ways, just to name a few:
  • Nano sensors for use in agriculture that measure crops and environmental conditions.
  • Bomb-sniffing plants using rewired DNA to detect explosives and biological agents.
  • “Smart Dust” motes that wirelessly transmit data on temperature, light, and movement (this can also be used in currency to track cash).
However, this is the first time that there is a working plan to apply Smart Dust to the human brain. Researchers claim it will be some time before (if ever) this is workable. One aspect that is interesting to note, is that once these particles are sent into the brain, it will be ultrasound that activates the system for full monitoring. This is an area of research that also has been looked at by DARPA as one of the future methods of mind control.
Their idea is to sprinkle electronic sensors the size of dust particles into the cortex and to interrogate them remotely using ultrasound. The ultrasound also powers this so-called neural dust.
Each particle of neural dust consists of standard CMOS circuits and sensors that measure the electrical activity in neurons nearby…
The neural dust is interrogated by another component placed beneath the scale but powered from outside the body. This generates the ultrasound that powers the neural dust and sensors that listen out for their response, rather like an RFID system.
The system is also tetherless–the data is collected and stored outside the body for later analysis. (source, MIT)
Read “tetherless” as “wireless” — or remote controlled analysis of the human brain, thus opening the door (theoretically) for remote mind control. As I’ve highlighted before, this is a two-way street — some people might feel content, for example, with sending their brain’s information out to a doctor for evaluation, but this sensor network could also transmit data back, as is admitted here:
That’s why Seo and co have chosen ultrasound to send and receive data. They calculate that the power required to use electromagnetic waves on the scale would generate a damaging amount of heat because of the amount of energy the body absorbs and the troubling signal-to-noise ratios at this scale.
By contrast, ultrasound is a much more efficient and should allow the transmission of at least 10 million times more power than electromagnetic waves at the same scale. (emphasis added).
In case anyone believes that this has little chance of success, MIT highlights that one of the authors of the research has already achieved this with a remote controlled beetle.
The human brain is clearly of vast, perhaps infinite, complexity — and this is without even introducing concepts such as “the mind” or “the soul.” Nevertheless, it is clear that the reductionists are doing their very best to “Solve the Brain” — measuring it, mapping it, and making sense of it.(source)
Are we to believe that “controlling it” has been left off the list for mere ethical reasons? Not likely.

Reading Minds and Influencing Human Behavior With Neural Dust

See similar articles to this one here, here, and here. This is technology that intelligence agencies and organized crime currently have and are using against the public. For other articles on this topic, please see here. See here for more about DARPA smart dust. See here for more about the DARPA Artificial Intelligence Control Grid. Also see here and here for biowarfare. 

============================================================================

 Robert Sanders

UC Berkeley engineers have built the first dust-sized, wireless sensors that can be implanted in the body, bringing closer the day when a Fitbit-like device could monitor internal nerves, muscles or organs in real time.

Wireless, battery-less implantable sensors could improve brain control of prosthetics, avoiding wires that go through the skull. (UC Berkeley video by Roxanne Makasdjian and Stephen McNally)
Because these batteryless sensors could also be used to stimulate nerves and muscles, the technology also opens the door to “electroceuticals” to treat disorders such as epilepsy or to stimulate the immune system or tamp down inflammation.

The so-called neural dust, which the team implanted in the muscles and peripheral nerves of rats, is unique in that ultrasound is used both to power and read out the measurements. Ultrasound technology is already well-developed for hospital use, and ultrasound vibrations can penetrate nearly anywhere in the body, unlike radio waves, the researchers say.


“I think the long-term prospects for neural dust are not only within nerves and the brain, but much broader,“ said Michel Maharbiz, an associate professor of electrical engineering and computer sciences and one of the study’s two main authors. “Having access to in-body telemetry has never been possible because there has been no way to put something super tiny super-deep. But now I can take a speck of nothing and park it next to a nerve or organ, your GI tract or a muscle, and read out the data.“

The sensor, 3 millimeters long and 1×1 millimeters in cross section, attached to a nerve fiber in a rat. Once implanted, the batteryless sensor is powered and the data read out by ultrasound. (Ryan Neely photo)


Maharbiz, neuroscientist Jose Carmena, a professor of electrical engineering and computer sciences and a member of the Helen Wills Neuroscience Institute, and their colleagues will report their findings in the August 3 issue of the journal Neuron.

The sensors, which the researchers have already shrunk to a 1 millimeter cube – about the size of a large grain of sand – contain a piezoelectric crystal that converts ultrasound vibrations from outside the body into electricity to power a tiny, on-board transistor that is in contact with a nerve or muscle fiber. A voltage spike in the fiber alters the circuit and the vibration of the crystal, which changes the echo detected by the ultrasound receiver, typically the same device that generates the vibrations. The slight change, called backscatter, allows them to determine the voltage.

Motes sprinkled thoughout the body

In their experiment, the UC Berkeley team powered up the passive sensors every 100 microseconds with six 540-nanosecond ultrasound pulses, which gave them a continual, real-time readout. They coated the first-generation motes – 3 millimeters long, 1 millimeter high and 4/5 millimeter thick – with surgical-grade epoxy, but they are currently building motes from biocompatible thin films which would potentially last in the body without degradation for a decade or more.

The sensor mote contains a piezoelectric crystal (silver cube) plus a simple electronic circuit that responds to the voltage across two electrodes to alter the backscatter from ultrasound pulses produced by a transducer outside the body. The voltage across the electrodes can be determined by analyzing the ultrasound backscatter.
(Ryan Neely photo)


While the experiments so far have involved the peripheral nervous system and muscles, the neural dust motes could work equally well in the central nervous system and brain to control prosthetics, the researchers say. Today’s implantable electrodes degrade within 1 to 2 years, and all connect to wires that pass through holes in the skull. Wireless sensors – dozens to a hundred – could be sealed in, avoiding infection and unwanted movement of the electrodes.

“The original goal of the neural dust project was to imagine the next generation of brain-machine interfaces, and to make it a viable clinical technology,” said neuroscience graduate student Ryan Neely. “If a paraplegic wants to control a computer or a robotic arm, you would just implant this electrode in the brain and it would last essentially a lifetime.”

In a paper published online in 2013, the researchers estimated that they could shrink the sensors down to a cube 50 microns on a side – about 2 thousandths of an inch, or half the width of a human hair. At that size, the motes could nestle up to just a few nerve axons and continually record their electrical activity.

“The beauty is that now, the sensors are small enough to have a good application in the peripheral nervous system, for bladder control or appetite suppression, for example,“ Carmena said. “The technology is not really there yet to get to the 50-micron target size, which we would need for the brain and central nervous system. Once it’s clinically proven, however, neural dust will just replace wire electrodes. This time, once you close up the brain, you’re done.“

The team is working now to miniaturize the device further, find more biocompatible materials and improve the surface transceiver that sends and receives the ultrasounds, ideally using beam-steering technology to focus the sounds waves on individual motes. They are now building little backpacks for rats to hold the ultrasound transceiver that will record data from implanted motes.

Diagram showing the components of the sensor. The entire device is covered in a biocompatible gel.



They’re also working to expand the motes’ ability to detect non-electrical signals, such as oxygen or hormone levels.

“The vision is to implant these neural dust motes anywhere in the body, and have a patch over the implanted site send ultrasonic waves to wake up and receive necessary information from the motes for the desired therapy you want,” said Dongjin Seo, a graduate student in electrical engineering and computer sciences. “Eventually you would use multiple implants and one patch that would ping each implant individually, or all simultaneously.”

Ultrasound vs radio

Maharbiz and Carmena conceived of the idea of neural dust about five years ago, but attempts to power an implantable device and read out the data using radio waves were disappointing. Radio attenuates very quickly with distance in tissue, so communicating with devices deep in the body would be difficult without using potentially damaging high-intensity radiation.

A sensor implanted on a peripheral nerve is powered and interrogated by an ultrasound transducer. The backscatter signal carries information about the voltage across the sensor’s two electrodes. The ‘dust’ mote was pinged every 100 microseconds with six 540-nanosecond ultrasound pulses.


Marharbiz hit on the idea of ultrasound, and in 2013 published a paper with Carmena, Seo and their colleagues describing how such a system might work. “Our first study demonstrated that the fundamental physics of ultrasound allowed for very, very small implants that could record and communicate neural data,” said Maharbiz. He and his students have now created that system.

“Ultrasound is much more efficient when you are targeting devices that are on the millimeter scale or smaller and that are embedded deep in the body,” Seo said. “You can get a lot of power into it and a lot more efficient transfer of energy and communication when using ultrasound as opposed to electromagnetic waves, which has been the go-to method for wirelessly transmitting power to miniature implants”

“Now that you have a reliable, minimally invasive neural pickup in your body, the technology could become the driver for a whole gamut of applications, things that today don’t even exist,“ Carmena said.

Other co-authors of the Neuron paper are graduate student Konlin Shen, undergraduate Utkarsh Singhal and UC Berkeley professors Elad Alon and Jan Rabaey. The work was supported by the Defense Advanced Research Projects Agency of the Department of Defense.

Wednesday, November 22, 2023

Dropped Over 29,000 Bombs On a Place the Size of Las Vegas With 3 Times the Population

This is not about right or left, don't be stupid, face the truth. Your countries are supporting terrorism.  Learn the history of what is going on there. Our whole world is connected to this, remember, many of the people that support the WEF strongly support the state of Israel. WHY? Why is Israel allowed to flaunt all international law?  Who else could get away with this? 



Tuesday, November 21, 2023

One of the Greatest Allies of Canada and the USA

See here and here for more about this craziness. (Be sure to scroll down to old posts.) How stupid is the world to believe these people? Many of them are entitled psychopaths

DARPA's Control Grid

This is an important document that everyone MUST read. It was written about Eben Moglen, see his lecture in this must see video about "The Inevitable Problems of Technology: World Surveillance and the Totalitarian Technocracy." 

Everything in the video below is from government documents. You might want to pause it every once in a while to read it all. 

Wednesday, November 1, 2023

This One Is Going Out to the Ambassadors of Israel, the "Distinguished" Ambassador Homo Erectus, Ambassador Neanderthal and Ambassador Homo Habilis




Here is One of These Advanced Specimens Below
Thank God for Evolution! Ya Ambassador Neanderthal!

Was He Supposed to Be Showing Up At
The WWE (Wrestling) Rather Than the UN? 
Watch the Whole Presentation, He Even Has "Props" Like Carrot Top,
He Learns From the Best of Them. (The Struggling Artist!)
Apparently, defenseless woman and children and a people without a country, a state,
tanks, planes, helicopters, aircraft carriers or submarines, or a military are comparable to one of the most ferocious military war machines the world has ever seen! (the Nazi's.) This is not just Ambassador Neanderthal saying this.  (Many Israeli's say this because they think you are morons.) 
Hitler will rise up from limbless 8 and 9 year old children without a military or a state
who have been deprived food, water and proper medical facilities or equipment. 



For Another Opinion on This Situation, See This Guy:

Civil War And More Slaughter: Israel's Dark Future

Itamar Ben Gvir is the Minister of National Security in Israel. He is the one being referred to in the first video about handing out machine guns to the Israeli people. Imagine if he was at the head of Homeland Security or Public Safety in Canada.  I don't think people understand how insane this is, he was supporting terrorism and terrorists in the past. See these connections between Israel, Canada, and the USA in Public Safety Canada and Homeland Security. 






Friday, October 13, 2023

Watch Losers This is You Part 2: With Complete Lowlife Stalking Psychopath


See part one here. See here for the Israeli government following me.

Learn from the master himself, the great human waste scumbag Sam Vaknin, a diagnosed narcissistic psychopath.  

Former criminal and Israeli citizen. He is probably still working for the Mossad because he still follows me around and reads my blog all the time. He also know about this, and of course, he will not talk about it like many psychologists and psychiatrists. One of the first people to put up videos regarding narcissists, gaslighting, gang stalking, stalking by proxy, smearing campaigns, torture etc. His earliest info is the best.  See here for my list about narcissism. 



Thursday, October 12, 2023

The Truth .... Two Israeli's I Have Some Respect For - It is Very Hard to Tell the Truth Today- We Also Need More People to Speak Up About Corruption in North America

Our world is drowning in lies. --- and because of that, it lacks order and meaning.  



I am still looking for the complete video,
it is not easy to find anymore