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Dec 11, 2021

Shape Shifting Liquid Metal Could Revolutionize Robotics

Posted by in categories: materials, robotics/AI

https://youtube.com/watch?v=tcjmJavrOvI

From self-healing robots to reconfigurable electronic circuits, the applications of liquid metal are only limited by the imaginations of the scientists working with them. Let’s take a look at some of the latest revolutions, discoveries, and innovations in this material.

2D morphing metal

Continue reading “Shape Shifting Liquid Metal Could Revolutionize Robotics” »

Dec 11, 2021

New salt-grain sized micro camera takes images on par with a full size camera’s

Posted by in category: electronics

Researchers have created a salt-grain sized micro camera capable of taking images almost on par with a regular camera.

Dec 11, 2021

Finding That Connection: Watch Two Neurons in a Petri Dish Sense Each Other and Connect

Posted by in category: neuroscience

In this video, Dr. Lila Landowski shares footage of two neurons connecting in a dish. Here’s what Lila had to say about the footage:

You’re watching two neurons that I saw under the microscope sensing one another and connecting.

Continue reading “Finding That Connection: Watch Two Neurons in a Petri Dish Sense Each Other and Connect” »

Dec 11, 2021

IBM’s Revolutionary Artificial Intelligence Simulates the Real World

Posted by in categories: futurism, robotics/AI

IBM has announced a new type of Simulation Software which is meant to train Artificial Intelligence Robots interact with the real environment in a rapid and cost effective manner. This type of AI Model Training is potentially going to be the future of training going forward.

TIMESTAMPS:
00:00 A playground for Robots.
02:10 How these Virtual Worlds are made.
05:25 How Simulations improve Artificial Intelligence.
09:06 Last Words.

#ai #simulation #elonmusk

Dec 11, 2021

All-in-One POGO Automatic Glucose Meter Finally Available

Posted by in category: biotech/medical

The all-in-one POGO Automatic glucose meter from Intuity Medical is finally available to people with diabetes in the United States.

Dec 11, 2021

A new super-cooled microwave source boosts the scale-up of quantum computers

Posted by in categories: computing, quantum physics

Researchers in Finland have developed a circuit that produces the high-quality microwave signals required to control quantum computers while operating at temperatures near absolute zero. This is a key step towards moving the control system closer to the quantum processor, which may make it possible to greatly increase the number of qubits in the processor.

One of the factors limiting the size of quantum computers is the mechanism used to control the qubits in quantum processors. This is normally accomplished using a series of pulses, and because quantum processors operate at temperatures near absolute zero, the control pulses are normally brought into the cooled environment via broadband cables from room temperature.

As the number of qubits grows, so does the number of cables needed. This limits the potential size of a quantum , because the refrigerators cooling the qubits would have to become larger to accommodate more and more cables while also working harder to cool them down—ultimately a losing proposition.

Dec 11, 2021

Findings Challenge Previous Theories About the Relationship Between Two Elements of Consciousness

Posted by in category: neuroscience

When the perception of bodily self-consciousness is distorted… See more.


Summary: When the perception of bodily self-consciousness is distorted, the recovery of body ownership can be predicted by different kinds of memories.

Source: University of Tsukuba

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Dec 11, 2021

New Artificial Intelligence System Enables Machines That See the World More Like Humans Do

Posted by in categories: robotics/AI, transportation

A new “common-sense” approach to computer vision enables artificial intelligence that interprets scenes more accurately than other systems do.

Computer vision systems sometimes make inferences about a scene that fly in the face of common sense. For example, if a robot were processing a scene of a dinner table, it might completely ignore a bowl that is visible to any human observer, estimate that a plate is floating above the table, or misperceive a fork to be penetrating a bowl rather than leaning against it.

Move that computer vision system to a self-driving car and the stakes become much higher — for example, such systems have failed to detect emergency vehicles and pedestrians crossing the street.

Dec 11, 2021

‘Human-like’ brain helps robot out of a maze

Posted by in categories: biotech/medical, health, robotics/AI

A maze is a popular device among psychologists to assess the learning capacity of mice or rats. But how about robots? Can they learn to successfully navigate the twists and turns of a labyrinth? Now, researchers at the Eindhoven University of Technology (TU/e) in the Netherlands and the Max Planck Institute for Polymer Research in Mainz, Germany, have proven they can. Their robot bases its decisions on the very system humans use to think and act: the brain. The study, which was published in Science Advances, paves the way to exciting new applications of neuromorphic devices in health and beyond.

Machine learning and neural networks have become all the rage in recent years, and quite understandably so, considering their many successes in image recognition, medical diagnosis, e-commerce and many other fields. Still though, this software-based approach to machine intelligence has its drawbacks, not least because it consumes so.

Dec 11, 2021

Visualizing the propagation path of electromagnetic waves from space to ground

Posted by in categories: particle physics, satellites

Using data on electromagnetic (EM) waves and plasma particles measured simultaneously via multiple satellites, an international collaborative research group has discovered the existence of invisible “propagation path” of EM waves and elucidated the mechanism by which EM waves propagate to the ground.

It is known that various kinds of EM occur naturally in geospace and cause variations in the plasma environment that surrounds the Earth via a known as wave–particle interaction. In particular, when geospace storms occur due to disturbances of sun and solar wind, EM waves become more active, and variations of geospace environment sometimes, may cause damage to spacecrafts, expose astronauts to radiation, and cause terrestrial power grid failures. To understand variation in the plasma environment caused by EM waves in , in-situ measurement has been performed in space using spacecrafts, such as the Japanese geospace satellite Arase.

As EM waves in space propagate far away from their origin, to correctly understand the effects of EM waves, it is crucial to understand where in space the EM waves are generated and how they are propagated. However, it has been difficult to unravel the origin of EM waves and the mysteries of how EM waves spread spatially using only single-point observation. “Electromagnetic ion cyclotron waves (EMIC waves),” which are the focus of this study, are an important class of EM wave in geospace that control variations in the geospace plasma environment. The source region of ion mode waves has a finite spatial extent, and generated EMIC waves are considered to propagate north to south along the geomagnetic field lines. The specific spatial size of the EMIC wave source region and the 3D aspect of how the propagation path is formed from space to ground are yet to be elucidated.