How Convolutional Neural Network Architecture Biases Learned Opponency and Color Tuning

Harris, Ethan; Mihai, Daniela; Hare, Jonathon

doi:10.1162/neco_a_01356

Cited by 3 publications

(1 citation statement)

References 85 publications

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“…Engilberge et al [2] also defined a color sensitivity index by comparing neuronal activation in color and grayscale images, but focused exclusively on quantitative metrics. Later, several methodologies for the analysis of color opponency and spatial and color tuning have been defined [4,21,22], but they use prepared datasets which are beyond the scope of our study. In all these studies, the input images provided to the models are in the RGB color system.…”

Section: Color Selectivity In Cnnsmentioning

confidence: 99%

A Long Skip Connection for Enhanced Color Selectivity in CNN Architectures

Sanchez-Cesteros,

Rincon,

Bachiller

et al. 2023

Sensors

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Some recent studies show that filters in convolutional neural networks (CNNs) have low color selectivity in datasets of natural scenes such as Imagenet. CNNs, bio-inspired by the visual cortex, are characterized by their hierarchical learning structure which appears to gradually transform the representation space. Inspired by the direct connection between the LGN and V4, which allows V4 to handle low-level information closer to the trichromatic input in addition to processed information that comes from V2/V3, we propose the addition of a long skip connection (LSC) between the first and last blocks of the feature extraction stage to allow deeper parts of the network to receive information from shallower layers. This type of connection improves classification accuracy by combining simple-visual and complex-abstract features to create more color-selective ones. We have applied this strategy to classic CNN architectures and quantitatively and qualitatively analyzed the improvement in accuracy while focusing on color selectivity. The results show that, in general, skip connections improve accuracy, but LSC improves it even more and enhances the color selectivity of the original CNN architectures. As a side result, we propose a new color representation procedure for organizing and filtering feature maps, making their visualization more manageable for qualitative color selectivity analysis.

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Section: Color Selectivity In Cnnsmentioning

confidence: 99%

A Long Skip Connection for Enhanced Color Selectivity in CNN Architectures

Sanchez-Cesteros,

Rincon,

Bachiller

et al. 2023

Sensors

View full text Add to dashboard Cite

show abstract

Parameter optimisation of the ventilation system for an underground power space using a hybrid model

Su,

Huang,

et al. 2024

Advances in Mechanical Engineering

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The ventilation system is one of the essential safety systems in underground power spaces. Over the years, active ventilation has been widely employed for heat dissipation in underground power spaces. In operation, high-power equipment generates significant heat, necessitating sufficient heat dissipation for smooth and efficient functioning. The effectiveness of the ventilation system is influenced by airflow, making aerodynamics a crucial aspect of studying underground power spaces. This study establishes a comprehensive hybrid model (a combination of physical and data-driven models) representing underground power spaces. Ansys Fluent and MATLAB are used to simulate and calculate temperature fields for various structures. The physical model employs model order reduction to achieve efficient computation without compromising accuracy. For the data-driven model, a genetic neural network is developed for multifactor nonlinear optimisation to evaluate and analyse thermal behaviour within the space. The integrated hybrid model enables efficient and high-precision calculations for the underground power space’s ventilation system. The research outcomes provide a theoretical foundation for practical construction and design schemes of underground power spaces, contributing significantly to ensuring their safety and optimal functionality in real-world applications.

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A Long Skip Connection for Enhanced Color Selectivity in CNN Architectures

Sanchez-Cesteros,

Rincon,

Bachiller

et al. 2023

Preprint

View full text Add to dashboard Cite

Some recent studies show that filters in convolutional neural networks (CNNs) have low color selectivity in datasets of natural scenes such as Imagenet. CNNs, bio-inspired in the visual cortex, are characterized by their hierarchical learning structure, which appears to gradually transform the representation space. Inspired by the direct connection between the LGN and V4, which allows V4 to handle low-level information closer to the trichromatic input in addition to processed information that comes from V2/V3, we propose the addition of a long skip connection (LSC) between the first and last blocks of the feature extraction stage to allow deeper parts of the network to receive information from shallower layers. This type of connection improves classification accuracy by combining simple-visual and complex-abstract features to create more color-selective ones. We have applied this strategy to classic CNN architectures and quantitatively and qualitatively analyzed the improvement in accuracy while focusing on color selectivity. The results show that, in general, skip connections improve accuracy, but LSC improves it even more and enhances the color selectivity of the original CNN architectures. As a side result, we propose a new color representation procedure for organizing and filtering feature maps, making their visualization more manageable.

show abstract

How Convolutional Neural Network Architecture Biases Learned Opponency and Color Tuning

Cited by 3 publications

References 85 publications

A Long Skip Connection for Enhanced Color Selectivity in CNN Architectures

A Long Skip Connection for Enhanced Color Selectivity in CNN Architectures

Parameter optimisation of the ventilation system for an underground power space using a hybrid model

A Long Skip Connection for Enhanced Color Selectivity in CNN Architectures

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