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引用次数: 0
摘要
立体显示视觉受到左右眼图像色彩失真的严重影响。当人眼分别接收到特定范围的不同颜色信息时,视觉系统会通过双眼颜色融合将它们合并成单一颜色。在本研究中,我们展示了实验结果,比较了利用线性拟合和反向传播神经网络训练的普通双眼色彩融合模型的准确性。患者双眼颜色对比度测试数据由在私人眼科诊所工作的眼科专业人员收集。结果表明,反向传播神经网络预测双眼对比度的 RMSE 误差分别为 0.9819 和 0.9662,优于误差约为 0.5 的线性拟合方法。所采用的 BP 神经网络算法展示了预测能力,并减少了色彩冗余的出现。这种冗余的减少有可能在未来的应用中降低与立体成像相关的费用。
Human binocular color fusion model based on BP Neural Networks prediction
Stereoscopic display vision is significantly impacted by the color distortion of left and right eye images. When the human eye receives a specific range of dissimilar color information separately, the visual system combines them into a single color through binocular color fusion. In this study, we present experimental findings which compare the accuracy of a common binocular color-fusion model that was trained utilizing both linear fitting and back-propagation neural networks. Patient binocular color contrast test data was collected by eye care professionals working in private eye clinics. The results indicated that the back-propagation neural network produced RMSE errors of 0.9819 and 0.9662 for predicting binocular contrast, which were superior to the linear fitting method with errors of approximately 0.5. The BP neural network algorithm employed demonstrates predictive capabilities and lessens the occurrence of color redundancy. This reduction in redundancy holds the potential to decrease expenses associated with stereo imaging in future applications.
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