Abstract
Previous studies have reported that directionally selective ganglion cells respond strongly in their preferred direction, but are only weakly excited by stimuli moving in the opposite null direction. Various studies have attempted to elucidate the mechanisms underlying direction selectivity with cellular basis. However, these studies have not elucidated the mechanism underlying motion direction detection. In this study, we propose the mechanism based on Barlow’s inhibitory scheme for motion direction detection. We described the local motion-sensing direction-selective neurons. Next, this model was used to construct the two-dimensional multi-directional detection neurons which detect the local motion directions. The information of local motion directions was finally used to infer the global motion direction. To verify the validity of the proposed mechanism, we conducted a series of experiments involving a dataset with a number of images. The proposed mechanism exhibited good performance in all experiments with high detection accuracy. Furthermore, we compare the performance of our proposed system and traditional Convolution Neural Network (CNN) on motion direction prediction. It is found that the performance of our system is much better than that of CNN in terms of accuracy, calculation speed and cost.
Highlights
Neurons that process the visual signals are pervasive in the retina of various organisms.The elucidation of the visual signal processing mechanism in the neurons is critical for both neurobiology and computer science
We proposed the mechanism to discribe the cooperate function of neurons in the retina system
In the rabbit retina system, some nerve cells only receive the information transmitted by the photoreceptor cells from a certain area
Summary
Neurons that process the visual signals are pervasive in the retina of various organisms.The elucidation of the visual signal processing mechanism in the neurons is critical for both neurobiology and computer science. Neurons that process the visual signals are pervasive in the retina of various organisms. The motion direction detection by the retinal ganglion cells in the cerebral cortex of cats was reported more than 60 years ago [1]. Further studies demonstrated that motion detection signals can be generated in the output neurons of the rabbit retina within two synapses of the photoreceptors [3]. Oyster and Barlow demonstrated the preferred directions of 102 direction-selective ganglion cells in the rabbit retina [4]. Barlow, Hill, and Levick demonstrated that the direction-selective ganglion cells were responsive when the object moved in the preferred direction [2,3]. In addition to the retina of rabbits [5,6,7], direction-selective responses were detected in several other species, including mice [8,9,10], flies [11,12,13,14], and cats [15,16,17,18]
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