Scientists Create Fully Autonomous Micro Robots That Can THINK, Swim, Swarm In Groups and Survive For Months On Light
Humanity is getting another step closer to the Technocratic Transhumanist Agenda, in which nano and microrobots will not only perform sensing functions but would have the goal according to Ray Kurzweil, to replace humans Atom by Atom.
What is so special about these new robots? They are fully autonomous, have a full computer system within them and can think for themselves! We know that science in covert military DARPA projects is much more advanced then we are led to believe. In fact, if you consider testimony of US government whistleblowers like deceased engineer Phil Schneider, for each year after 1944, the black projects have made an estimated progress of 45 years per year. So the secret government is about 3690 years advanced in knowledge compared to us. Schneider revealed in the early 2000’s that the periodic table of those secret governments contains 140 elements - ours currently has 118. How would science change if all that information was released?
I am mentioning this since the futurists have been predicting what will happen in our future for decades. This is no longer science fiction, but even government leaders admit that they can manipulate time, i.e time travel.
White House Says It Has Tech That Can ‘Manipulate Time and Space’
My point is that what is being revealed in civilian scientific literature is decades, if not centuries behind what technologies are really available. The fact that AUTONOMOUS THINKING MICROROBOTS have made it to the mainstream literature, should give us food for thought.
I have been showing highly advanced microrobots deployed in COVID19 unvaccinated human blood for several years now - they are fully autonomous, communicate through light and have swarming capabilities:
These robots in the blood have been predicted for decades:
Here is the article:
Scientists create robots smaller than a grain of salt that can think
Researchers have created microscopic robots so small they’re barely visible, yet smart enough to sense, decide, and move completely on their own. Powered by light and equipped with tiny computers, the robots swim by manipulating electric fields rather than using moving parts. They can detect temperature changes, follow programmed paths, and even work together in groups. The breakthrough marks the first truly autonomous robots at this microscopic scale.
Researchers at the University of Pennsylvania and the University of Michigan have built the smallest fully programmable autonomous robots ever created. These microscopic machines can swim through liquid, sense their surroundings, respond on their own, operate for months at a time, and cost about one penny each to produce.
Each robot is barely visible without magnification, measuring roughly 200 by 300 by 50 micrometers. That makes them smaller than a grain of salt. Because they function at the same scale as many living microorganisms, the robots could one day help doctors monitor individual cells or assist engineers in assembling tiny devices used in advanced manufacturing.
Powered entirely by light, the robots contain microscopic computers that allow them to follow programmed paths, detect local temperature changes, and adjust their movement in response.
The work was reported in Science Robotics and Proceedings of the National Academy of Sciences (PNAS). Unlike previous tiny machines, these robots do not rely on wires, magnetic fields, or external controls. This makes them the first truly autonomous and programmable robots at such a small scale.
“We’ve made autonomous robots 10,000 times smaller,” says Marc Miskin, Assistant Professor in Electrical and Systems Engineering at Penn Engineering and the papers’ senior author. “That opens up an entirely new scale for programmable robots.”
Why shrinking robots has been so difficult
Electronics have steadily become smaller over the past several decades, but robotics has not followed the same trajectory. According to Miskin, independence at sizes below one millimeter has remained an unsolved challenge. “Building robots that operate independently at sizes below one millimeter is incredibly difficult,” he says. “The field has essentially been stuck on this problem for 40 years.”
At everyday scales, motion is shaped by forces such as gravity and inertia, which depend on an object’s volume. At microscopic sizes, however, surface-related forces dominate instead. Drag and viscosity become overwhelming, dramatically changing how movement works. “If you’re small enough, pushing on water is like pushing through tar,” says Miskin.
Because of this shift in physics, conventional robotic designs fail. Small arms or legs tend to break easily and are extremely difficult to manufacture. “Very tiny legs and arms are easy to break,” Miskin explains. “They’re also very hard to build.”
To overcome these limitations, the researchers developed a completely new way for robots to move that works with the physics of the microscopic world rather than fighting against it.
How microscopic robots swim
Fish and other large swimmers move by pushing water backward, generating forward motion through Newton’s Third Law. The tiny robots take a very different approach.
Instead of bending or flexing, the robots generate an electrical field that gently pushes charged particles in the surrounding liquid. As those ions move, they drag nearby water molecules with them, effectively creating motion in the fluid around the robot. “It’s as if the robot is in a moving river,” says Miskin, “but the robot is also causing the river to move.”
By adjusting this electrical field, the robots can change direction, follow complex paths, and even coordinate their movement in groups that resemble schools of fish. They can reach speeds of up to one body length per second.
Because this swimming method uses electrodes with no moving parts, the robots are remarkably durable. According to Miskin, they can be transferred between samples repeatedly with a micropipette without damage. Powered by light from an LED, the robots are able to keep swimming for months.
Packing intelligence into a microscopic body
True autonomy requires more than movement. A robot must also be able to sense its environment, make decisions, and power itself. All of those components must fit onto a chip that is only a fraction of a millimeter across. This challenge was taken on by David Blaauw’s team at the University of Michigan.
Blaauw’s lab already holds the record for creating the world’s smallest computer. When Blaauw and Miskin met at a Defense Advanced Research Projects Agency (DARPA) presentation five years ago, they quickly realized their technologies complemented each other. “We saw that Penn Engineering’s propulsion system and our tiny electronic computers were just made for each other,” says Blaauw. Even so, turning that idea into a working robot required five years of development.
One of the biggest obstacles was power. “The key challenge for the electronics,” Blaauw says, “is that the solar panels are tiny and produce only 75 nanowatts of power. That is over 100,000 times less power than what a smart watch consumes.” To make the system work, the team designed specialized circuits that operate at extremely low voltages, cutting power consumption by more than 1000 times.
Space was another major constraint. The solar panels take up most of the robot’s surface, leaving very little room for computing hardware. To solve this, the researchers redesigned how the robot’s software works. “We had to totally rethink the computer program instructions,” Blaauw explains, “condensing what conventionally would require many instructions for propulsion control into a single, special instruction to shrink the program’s length to fit in the robot’s tiny memory space.”
Robots that sense and communicate
Together, these advances produced what the researchers believe is the first sub-millimeter robot capable of real decision-making. To their knowledge, no one has previously placed a complete computer with a processor, memory, and sensors into a robot this small. That achievement allows the robots to sense their environment and respond independently.
The robots include electronic temperature sensors that can detect changes as small as one third of a degree Celsius. This capability allows them to move toward warmer regions or report temperature values that can serve as indicators of cellular activity, offering a way to monitor individual cells.
Communicating those measurements required an inventive solution. “To report out their temperature measurements, we designed a special computer instruction that encodes a value, such as the measured temperature, in the wiggles of a little dance the robot performs,” says Blaauw. “We then look at this dance through a microscope with a camera and decode from the wiggles what the robots are saying to us. It’s very similar to how honey bees communicate with each other.”
The same light that powers the robots is also used to program them. Each robot has a unique address, allowing researchers to upload different instructions to different units. “This opens up a host of possibilities,” Blaauw adds, “with each robot potentially performing a different role in a larger, joint task.”
A platform for future microscopic machines
The current robots are only the starting point. Future versions could carry more advanced programs, move faster, include additional sensors, or function in harsher environments. The researchers designed the system as a flexible platform, combining a robust propulsion method with electronics that can be manufactured cheaply and adapted over time.
“This is really just the first chapter,” says Miskin. “We’ve shown that you can put a brain, a sensor and a motor into something almost too small to see, and have it survive and work for months. Once you have that foundation, you can layer on all kinds of intelligence and functionality. It opens the door to a whole new future for robotics at the microscale.”
Robots are NOT Sentient Beings.......and, therefore, CANNOT 'THINK'!
Robots can ONLY.......'COMPUTE'!
MACHINES CANNOT THINK!
Full on insane and satanic! When will HUMAN beings realize this and put a STOP to it???!!!!