Ultrasound systems can also revolutionize medical work.

Ultrasound systems can also revolutionize medical work.

The ultrasound helmet can observe blood flow in the brain while a person operates in real-world situations. That kind of system can create images and help predict possible blood flow anomalies in the brain. If one system has multiple uses that makes it more effective.

3D scanning ultrasound sonar systems are tools. That can create 3D images of the inner organs. A functional ultrasound system (fUS) is used to operate as the BMI (Brain Machine Interface) sensor system. As I wrote in the last text. The use of ultrasound-based systems in the BMI cuts unnecessary data away from the control system.

If the receiving system must filter no-relevant or unnecessary data away from data flow it requires a hard operating system. That makes the system The EEG-based systems input too much data to a computer, and too accurate data makes things like welding robots slow, and the fact is, that all robots must not have the ability to work as surgeons.

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ETH Zurich researchers have shown for the first time that microvehicles can be steered through blood vessels in the brains of mice using ultrasound. They hope that this will eventually lead to treatments capable of delivering drugs with pinpoint precision.

*A technology developed at ETH Zurich over the past few years for controlling microvehicles using ultrasound also works in the brain, as researchers have now been able to show.

*These microvehicles are gas bubbles, which are harmless and dissolve once their job is done.

*In the future, these microvehicles could be equipped with medications and deliver them to specific points in the brain. This may increase the efficacy of the drugs and reduce their side effects.

(ScitechDaily.com/Brainwave Riders: How Ultrasound Microbubbles Could Change Medicine)

"Scientists have developed a novel family of polymers that effectively kills bacteria, including E. coli and MRSA, without causing antibiotic resistance. This breakthrough, involving multidisciplinary collaboration, marks a significant step in addressing the public health threat posed by superbugs. Credit: SciTechDaily.com" (ScitechDaily.com/Bacteria-Killing Marvel: Scientists Develop Polymers That Defeat Antibiotic-Resistant Superbugs) The problem is how to get those polymers near bacteria. And ultrasounds can be one of the solutions.

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But the functional ultrasound system (fUS) can also operate as the controller that drives medicals, like new nanotechnical polymers and nanobubbles to the right points. The new nanopolymers are like springs that go inside bacteria. And then the bacteria's enzymes launch that spring, which destroys the bacteria cells by cutting their protein shells. The system can drive those polymers to the right point using sound impulses.

Another tool that is mentioned is the so-called nano-and microbubbles. Researchers at the ETH Zurich, the University of Zurich, and the University Hospital Zurich have researched ultrasound-controlled micro-size gas bubbles to detect anomalies in the brain. Ultrasound systems are more effective tools than magnetic fields because those systems don't need magnetic material for interactions.

Those micrometer-sized bubbles can brought to the body from outside or the system can create them in the blood vessels. The system can adjust the size of those bubbles and that helps the use of them to open blood vessels. The nanobubbles can also destroy bacteria. In some visions, the genetically engineered bacteria carry a small ultrasound system and it can create those bubbles using fast spinning fibers. The "local" ultrasound system can control those bubbles with extremely high accuracy.

In the future, the ultrasound system can create those bubbles by shaking blood cells or some polymers that are in blood vessels. Nanobubbles can used to close blood vessels from the tumor. The system can also make nanobubbles by using the low pressure that impacting soundwaves are making. Those soundwaves can fill bacteria with nanobubbles, which makes them unable to operate.

https://scitechdaily.com/bacteria-killing-marvel-scientists-develop-polymers-that-defeat-antibiotic-resistant-superbugs/

https://scitechdaily.com/brainwave-riders-how-ultrasound-microbubbles-could-change-medicine/

Chinese innovations and space lasers are interesting combinations.

Above: "Tiangong is China's operational space station located in low Earth orbit. (Image credit: Alejomiranda via Getty Images)" (Scpace.com, China's space station, Tiangong: A complete guide) Chinese are close to making nuclear-powered spacecraft. Almost every day, we can read about Chinese technical advances. So are, the Chinese more innovative than Western people? Or is there some kind of difference in culture and morale between Western and Chinese societies? The Chinese superiority in hypersonic technology is one of the things that tells something about the Chinese way of making things. In China, the mission means. And the only thing that means is mission. That means that things like budgets and safety orders are far different from Western standards. If some project serves the Chinese communist party and PLA (People's Liberation Army) that guarantees unlimited resources for those projects. Chinese authorities must not care about the public opinion. If we th

Iron Dome is one of the most effective air defense systems.

The Iron Dome is a missile defense system whose missiles operate with highly sophisticated and effective artificial intelligence. The power of this missile defense base is in selective fire. The system calculates the incoming missile's trajectory. And it shoots only missiles that will hit the inhabited area. The system saves missiles and focuses defense on areas that mean something. The system shares the incoming missiles in, maybe two groups. Another is harmless and another is harmful. Things like killer drones are also problematic because their trajectories are harder to calculate than ballistic missiles. The thing that makes drones dangerous is that they can make masks for ballistic missiles. And even if those drones are slow, all of them must be shot down. The thing is that the cooperation between drone swarms and ballistic missiles is the next danger in conflict areas. In the film, you can see how drones make light images of the skies. The killer drones can also carry LED li

The innovative shield that protects OSIRIS-APEX can also protect the new hypersonic aircraft.

"NASA’s OSIRIS-APEX spacecraft successfully completed its closest solar pass, protected by innovative engineering solutions and showing improvements in onboard instruments. Credit: NASA’s Goddard Space Flight Center/CI Lab" (ScitechDaily, Innovative Engineering Shields NASA’s OSIRIS-APEX During Close Encounter With the Sun) The OSIRIS-APEX probe travels close to the sun. The mission plan is to research the sun. And especially find things that can warn about solar storms. Solar storms are things that can danger satellites at the Earth orbiter. And the purpose of OSIRIS-APEX is to find the method of how to predict those solar storms. Another thing is that the OSIRIS-APEX tests the systems and materials that protect this probe against heat and plasma impacts. The same technology. The researchers created for OSIRIS-APEX can used in the materials and structures. That protects satellites against nuclear explosions. That means this kind of system delivers information on how to prot

Interesting and futuristic innovations

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