Abstract
Visual attention is a mechanism of the visual system that can select relevant objects from a specific scene. Interactions among neurons in multiple cortical areas are considered to be involved in attentional allocation. However, the characteristics of the encoded features and neuron responses in those attention related cortices are indefinite. Therefore, further investigations carried out in this study aim at demonstrating that unusual regions arousing more attention generally cause particular neuron responses. We suppose that visual saliency is obtained on the basis of neuron responses to contexts in natural scenes. A bottom-up visual attention model is proposed based on the self-information of neuron responses to test and verify the hypothesis. Four different color spaces are adopted and a novel entropy-based combination scheme is designed to make full use of color information. Valuable regions are highlighted while redundant backgrounds are suppressed in the saliency maps obtained by the proposed model. Comparative results reveal that the proposed model outperforms several state-of-the-art models. This study provides insights into the neuron responses based saliency detection and may underlie the neural mechanism of early visual cortices for bottom-up visual attention.
Highlights
Visual attention is a mechanism of the visual system that can select relevant objects from a specific scene
In this study we proposed a novel visual attention model based on statistical properties of neuron responses to test the hypothesis that area V1 is a potential structure for bottom-up visual attention
We found that the responses of different neurons are independent and the responses for similar stimuli are approximate while those for different stimuli are distinct
Summary
Visual attention is a mechanism of the visual system that can select relevant objects from a specific scene. A bottom-up visual attention model is proposed based on the self-information of neuron responses to test and verify the hypothesis. Visual attention is an important signal processing mechanism that can selectively increase the responses of cortical neurons that represent relevant information of potentially important objects[4,5]. An integral visual attention model is proposed based on the statistical properties of neuron responses in area V1 to test the hypothesis. Afterwards, the saliency value of each pixel is obtained according to the self-information of the corresponding neuron responses. Self-information is adopted to measure the saliency value according to emergence possibilities of neuron responses. This strategy was firstly used in the model of Attention based on Information Maximization[40] (AIM). Saliency sub-maps with lower entropies are selected and combined into the final saliency map using a novel entropy-based strategy
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