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Research identifies key weakness in modern computer vision systems
by Staff Writers
Providence RI (SPX) Aug 03, 2018

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Computer vision algorithms have come a long way in the past decade. They've been shown to be as good or better than people at tasks like categorizing dog or cat breeds, and they have the remarkable ability to identify specific faces out of a sea of millions.

But research by Brown University scientists shows that computers fail miserably at a class of tasks that even young children have no problem with: determining whether two objects in an image are the same or different. In a paper presented last week at the annual meeting of the Cognitive Science Society, the Brown team sheds light on why computers are so bad at these types of tasks and suggests avenues toward smarter computer vision systems.

"There's a lot of excitement about what computer vision has been able to achieve, and I share a lot of that," said Thomas Serre, associate professor of cognitive, linguistic and psychological sciences at Brown and the paper's senior author.

"But we think that by working to understand the limitations of current computer vision systems as we've done here, we can really move toward new, much more advanced systems rather than simply tweaking the systems we already have."

For the study, Serre and his colleagues used state-of-the-art computer vision algorithms to analyze simple black-and-white images containing two or more randomly generated shapes. In some cases the objects were identical; sometimes they were the same but with one object rotated in relation to the other; sometimes the objects were completely different. The computer was asked to identify the same-or-different relationship.

The study showed that, even after hundreds of thousands of training examples, the algorithms were no better than chance at recognizing the appropriate relationship. The question, then, was why these systems are so bad at this task.

Serre and his colleagues had a suspicion that it has something to do with the inability of these computer vision algorithms to individuate objects. When computers look at an image, they can't actually tell where one object in the image stops and the background, or another object, begins. They just see a collection of pixels that have similar patterns to collections of pixels they've learned to associate with certain labels. That works fine for identification or categorization problems, but falls apart when trying to compare two objects.

To show that this was indeed why the algorithms were breaking down, Serre and his team performed experiments that relieved the computer from having to individuate objects on its own. Instead of showing the computer two objects in the same image, the researchers showed the computer the objects one at a time in separate images. The experiments showed that the algorithms had no problem learning same-or-different relationship as long as they didn't have to view the two objects in the same image.

The source of the problem in individuating objects, Serre says, is the architecture of the machine learning systems that power the algorithms. The algorithms use convolutional neural networks - layers of connected processing units that loosely mimic networks of neurons in the brain. A key difference from the brain is that the artificial networks are exclusively "feed-forward" - meaning information has a one-way flow through the layers of the network. That's not how the visual system in humans works, according to Serre.

"If you look at the anatomy of our own visual system, you find that there are a lot of recurring connections, where the information goes from a higher visual area to a lower visual area and back through," Serre said.

While it's not clear exactly what those feedbacks do, Serre says, it's likely that they have something to do with our ability to pay attention to certain parts of our visual field and make mental representations of objects in our minds.

"Presumably people attend to one object, building a feature representation that is bound to that object in their working memory," Serre said. "Then they shift their attention to another object. When both objects are represented in working memory, your visual system is able to make comparisons like same-or-different."

Serre and his colleagues hypothesize that the reason computers can't do anything like that is because feed-forward neural networks don't allow for the kind of recurrent processing required for this individuation and mental representation of objects. It could be, Serre says, that making computer vision smarter will require neural networks that more closely approximate the recurrent nature of human visual processing.


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Optical fibers that can feel the materials around them
Lausanne, Switzerland (SPX) Aug 02, 2018
In recent years optical fibers have served as sensors to detect changes in temperature, like a thermometer, and pressure, like an artificial nerve. This technique is particularly useful in structures such as bridges and gas pipelines. EPFL researchers have now come up with a new method that enables optical fibers to identify whether they are in contact with a liquid or a solid. This is achieved by simply generating a sound wave with the help from a light beam within the fiber. This study was ... read more

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