Scientists from Salk Institute (U.S.), Skoltech (Russia), and the Riken Center for Brain Science (Japan) investigated a theoretical model of how populations of neurons in the visual cortex of the brain may recognize and process faces and their expressions, and how they are organized. The research was recently published in Neural Computation and highlighted on its cover.
Humans have amazing capacity to recognize a huge number of individual faces and interpret facial expressions. These abilities play a key role in human social interactions. However, how the human brain processes and stores such complex visual information is still poorly understood.
Skoltech scientists Anh-Huy Phan and Andrzej Cichocki, with their colleagues from the U.S. and Japan, Sidney Lehky and Keiji Tanaka, sought to better understand how the visual cortex processes and stores information related to face recognition. Their approach was based on the idea that a human face can be conceptually represented as a collection of parts or components, including eyes, eyebrow, nose, mouth, etc. Using a machine learning approach, they applied a novel tensor algorithm to decompose faces into a set of components or images called tensorfaces, as well as their associated weights, and represented faces by linear combinations of those components. In this way, they built a mathematical model describing the work of the neurons involved in face recognition.
“We used novel tensor decompositions to represent faces as a set of components with specified complexity, which can be interpreted as model face cells and indicate that human face representations consist of a mixture of low- and medium-complexity face cells,” said Skoltech Professor Andrzej Cichocki.
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Sidney R. Lehky et al. Face Representations via Tensorfaces of Various Complexities, Neural Computation (2019). DOI: 10.1162/neco_a_01258
AI and machine learning help scientists understand human face recognition (2020, March 2)
retrieved 2 March 2020
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