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Archive for the ‘information science’ category: Page 196

Oct 24, 2020

IBM releases Watson supercomputer yottabyte storage into the market

Posted by in categories: information science, supercomputing

Circa 2014 o,.o.


IBM has started to flex its muscles with the Watson super computer after launching its software defined storage options for the big data era.

Oct 23, 2020

Artificial general intelligence: Are we close, and does it even make sense to try?

Posted by in categories: information science, robotics/AI

Moving from one-algorithm to one-brain is one of the biggest open challenges in AI. A one-brain AI would still not be a true intelligence, only a better general-purpose AI—Legg’s multi-tool. But whether they’re shooting for AGI or not, researchers agree that today’s systems need to be made more general-purpose, and for those who do have AGI as the goal, a general-purpose AI is a necessary first step.

Oct 22, 2020

A machine-learning algorithm that can infer the direction of the thermodynamic arrow of time

Posted by in categories: information science, robotics/AI

The second law of thermodynamics delineates an asymmetry in how physical systems evolve over time, known as the arrow of time. In macroscopic systems, this asymmetry has a clear direction (e.g., one can easily notice if a video showing a system’s evolution over time is being played normally or backward).

In the microscopic world, however, this direction is not always apparent. In fact, fluctuations in microscopic systems can lead to clear violations of the , causing the arrow of to become blurry and less defined. As a result, when watching a video of a microscopic process, it can be difficult, if not impossible, to determine whether it is being played normally or backwards.

Researchers at University of Maryland developed a that can infer the direction of the thermodynamic arrow of time in both macroscopic and microscopic processes. This algorithm, presented in a paper published in Nature Physics, could ultimately help to uncover new physical principles related to thermodynamics.

Oct 22, 2020

New MIT algorithm automatically deciphers lost languages

Posted by in categories: information science, robotics/AI

An MIT CSAIL AI system that can automatically decipher extinct languages offers hope of preserving a wealth of historical heritage.

Oct 22, 2020

Can We Trust AI Doctors? Google Health and Academics Battle It Out

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

So now, there are AI doctors.


Machine learning is taking medical diagnosis by storm. From eye disease, breast and other cancers, to more amorphous neurological disorders, AI is routinely matching physician performance, if not beating them outright.

Yet how much can we take those results at face value? When it comes to life and death decisions, when can we put our full trust in enigmatic algorithms—“black boxes” that even their creators cannot fully explain or understand? The problem gets more complex as medical AI crosses multiple disciplines and developers, including both academic and industry powerhouses such as Google, Amazon, or Apple, with disparate incentives.

Continue reading “Can We Trust AI Doctors? Google Health and Academics Battle It Out” »

Oct 21, 2020

Robot trained in a game-like simulation performs better in real life

Posted by in categories: entertainment, information science, robotics/AI

A robot controlled by a neural network algorithm that was trained in a video game-like simulation is better able to navigate difficult terrain in real life.

Oct 19, 2020

Computer Scientists Break the ‘Traveling Salesperson’ Record

Posted by in categories: computing, information science

Now Karlin, Klein and Oveis Gharan have proved that an algorithm devised a decade ago beats Christofides’ 50 percent factor, though they were only able to subtract 0.2 billionth of a trillionth of a trillionth of a percent. Yet this minuscule improvement breaks through both a theoretical logjam and a psychological one. Researchers hope that it will open the floodgates to further improvements.

“This is a result I have wanted all my career,” said David Williamson of Cornell University, who has been studying the traveling salesperson problem since the 1980s.

The traveling salesperson problem is one of a handful of foundational problems that theoretical computer scientists turn to again and again to test the limits of efficient computation. The new result “is the first step towards showing that the frontiers of efficient computation are in fact better than what we thought,” Williamson said.

Oct 18, 2020

Researchers develop new algorithm with better performance for spectral technology

Posted by in categories: information science, particle physics

Recently, researchers from the Institute of Intelligent Machines developed a new wavelength selection algorithm based on combined moving window (CMW) and variable dimension particle swarm optimization (VDPSO) algorithm.

CMW retained the advantages of the moving window algorithm, and different windows could overlap each other to realize automatic optimization of spectral interval width and number. VDPSO algorithms improved the traditional particle swarm optimization (PSO) algorithm.

This new algorithm, which is called VDPSO-CMW, could search the data space in different dimensions, and reduce the risk of limited local extrema and over fitting.

Oct 18, 2020

Using math to study paintings to learn more about the evolution of art history

Posted by in categories: evolution, information science, mathematics, media & arts

A team of researchers affiliated with a host of institutions in Korea and one in Estonia has found a way to use math to study paintings to learn more about the evolution of art history in the western world. In their paper published in Proceedings of the National Academy of Sciences, the group describes how they scanned thousands of paintings and then used mathematical algorithms to find commonalities between them over time.

Beauty, as the saying goes, is in the eye of the beholder—and so it is also with art. Two people looking at the same can walk away with vastly different impressions. But art also serves, the researchers contend, as a barometer for visualizing the emotional tone of a given society. This suggests that the study of art history can serve as a channel of sorts—illuminating societal trends over time. The researchers further note that to date, most studies of art history have been qualitatively based, which has led to interpretive results. To overcome such bias, the researchers with this new effort looked to mathematics to see if it might be useful in uncovering features of paintings that have been overlooked by human scholars.

The work involved digitally scanning 14,912 paintings—all of which (except for two) were painted by Western artists. The data for each of the paintings was then sent through a mathematical that drew partitions on the based on contrasting colors. The researchers ran the algorithm on each painting multiple times, each time creating more partitions. As an example, the first run of the algorithm might have simply created two partitions on a painting—everything on land, and everything in the sky. The second might have split the land into buildings in one partition and farmland in another.

Oct 16, 2020

DARPA Project Strives for Off-Road Unmanned Vehicles that React Like Humans

Posted by in categories: information science, robotics/AI, transportation

RACER to focus on new autonomy algorithm technologies.