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   低灰度级图像 在 电信技术 分类中 的翻译结果: 查询用时:0.066秒
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低灰度级图像
相关语句
  low gray image
    A novel method and SoC implementation for improving low gray image in AC PDP
    一种新的AC PDP低灰度级图像增强方法及SoC实现
短句来源
    A novel method is proposed to improve the quality of low gray image in alternating current plasma display panel(AC PDP). In this method,after inverse Gamma correction,float gray level codes are created from gray errors between actual gray levels and binary coded gray levels.
    为增强交流等离子体显示器(AC PDP)中经过反Gamma校正后的低灰度级图像,在图像进行反Gamma校正后,根据图像原始灰度与二进制编码灰度之差建立浮动灰度编码。
短句来源
    For low gray image,the float gray level codes are combined to the binary coded gray levels by the error diffusion method.
    然后利用误差扩散方法将浮动灰度编码所包含的低灰度级图像信息融合到用于显示的子场编码中。
短句来源
    Simulation results show that,the lost details of low gray image after inverse gamma correction are compensated by the proposed method so that the quality of low gray image in AC PDP can be improved effectively. Experiment results show that,the SoC of the proposed method not only has fine capability of real time processing and upper calculation accuracy but also takes low cost.
    仿真及实验结果表明,本文提出的新方法补偿了反Gamma校正后损失的低灰度图像信息,有效地改善了AC PDP低灰度级图像质量,并且该方法的SoC实现具有良好的实时处理性及较高计算精度,且占用系统资源较少。
短句来源
  low gray image
    A novel method and SoC implementation for improving low gray image in AC PDP
    一种新的AC PDP低灰度级图像增强方法及SoC实现
短句来源
    A novel method is proposed to improve the quality of low gray image in alternating current plasma display panel(AC PDP). In this method,after inverse Gamma correction,float gray level codes are created from gray errors between actual gray levels and binary coded gray levels.
    为增强交流等离子体显示器(AC PDP)中经过反Gamma校正后的低灰度级图像,在图像进行反Gamma校正后,根据图像原始灰度与二进制编码灰度之差建立浮动灰度编码。
短句来源
    For low gray image,the float gray level codes are combined to the binary coded gray levels by the error diffusion method.
    然后利用误差扩散方法将浮动灰度编码所包含的低灰度级图像信息融合到用于显示的子场编码中。
短句来源
    Simulation results show that,the lost details of low gray image after inverse gamma correction are compensated by the proposed method so that the quality of low gray image in AC PDP can be improved effectively. Experiment results show that,the SoC of the proposed method not only has fine capability of real time processing and upper calculation accuracy but also takes low cost.
    仿真及实验结果表明,本文提出的新方法补偿了反Gamma校正后损失的低灰度图像信息,有效地改善了AC PDP低灰度级图像质量,并且该方法的SoC实现具有良好的实时处理性及较高计算精度,且占用系统资源较少。
短句来源
  “低灰度级图像”译为未确定词的双语例句
    Simulation results show that CLEAR technique enhances the capability of displaying the image with low grey level, and improves farthest the display quality of the whole image while eliminating the dynamic false contour.
    仿真结果表明,准备期动态修正CLEAR技术在消除动态假轮廓的同时,增强了对低灰度级图像的显示能力,并且最大限度地提高了整幅图像的显示质量.
短句来源
    The technology that enhances the dynamic low gray levels by the inverse-gamma relation subfields code was developed in color plasma display panel(PDP).
    开发了一种利用反γ修正子场编码增强彩色等离子体显示器(PDP)动态低灰度级图像的技术.
短句来源
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A novel preparing period dynamic correction technique is developed for alternate-current plasma display panel (PDP). It has the characteristics of high contrast, low energy addressing and reduction of false contour sequence (CLEAR). By comparing the weighted average of the grey level of the input image with the pre-settled gray level thresholds, the placement of the preparing period during one field time is dynamically adjusted such that the adjusted grey level can more closely reflect the input image grey level...

A novel preparing period dynamic correction technique is developed for alternate-current plasma display panel (PDP). It has the characteristics of high contrast, low energy addressing and reduction of false contour sequence (CLEAR). By comparing the weighted average of the grey level of the input image with the pre-settled gray level thresholds, the placement of the preparing period during one field time is dynamically adjusted such that the adjusted grey level can more closely reflect the input image grey level distribution. Meanwhile, using the technique which incorporating the preparing period dynamic correction with the different sub-field code schemes within two neighboring field, the number of the display grey scale can be increased enormously. Simulation results show that CLEAR technique enhances the capability of displaying the image with low grey level, and improves farthest the display quality of the whole image while eliminating the dynamic false contour.

开发了一种彩色等离子体显示器的新型准备期动态修正技术,具有高对比度、低能量寻址、消除动态假轮廓(CLEAR)的特点,利用输入图像灰度的加权平均值与预置的灰度阈值比较,动态地调整准备期在1场中的位置,使动态调整后的灰度值能够更加真实地反映输入图像灰度的分布情况.同时,利用相邻两场采用不同子场编码与准备期动态修正相结合的改进技术,大幅度增加了显示灰度级数目.仿真结果表明,准备期动态修正CLEAR技术在消除动态假轮廓的同时,增强了对低灰度级图像的显示能力,并且最大限度地提高了整幅图像的显示质量.

The technology that enhances the dynamic low gray levels by the inverse-gamma relation subfields code was developed in color plasma display panel(PDP).Based on the grayscales average distribution method,the inverse-gamma modified subfields code was corrected through 3 improved methods,namely,input grayscales uneven distribution,distributing low gray levels alone,and modifying the exponent of inverse-gamma function.Thus,the number of displayed dynamic low gray level is increased effectively.The displaying effect...

The technology that enhances the dynamic low gray levels by the inverse-gamma relation subfields code was developed in color plasma display panel(PDP).Based on the grayscales average distribution method,the inverse-gamma modified subfields code was corrected through 3 improved methods,namely,input grayscales uneven distribution,distributing low gray levels alone,and modifying the exponent of inverse-gamma function.Thus,the number of displayed dynamic low gray level is increased effectively.The displaying effect of the whole image is guaranteed while enhancing the display ability of color PDP for low gray level images.The enhanced grayscale range required can be dynamically specified according to the distributing characteristic of the grayscales of the input image.The flexibility of the algorithm is increased.The simulation result shows that when input image is 0255 grayscales,the image cells with grayscale below 60 to the entire image cells ratio reaches 26.8% at most by using the new technology,and it is 6.2 times higher than the one obtained by using only the inverse-gamma correction.

开发了一种利用反γ修正子场编码增强彩色等离子体显示器(PDP)动态低灰度级图像的技术.该技术基于灰度平均分配算法,通过输入灰度级的非均匀分配、低灰度级单独分配、反γ曲线低灰度级部分指数项的修正等3项改进技术对反γ修正子场编码进行校正,有效地增加了显示的动态低灰度级数目,在保证整幅图像显示效果的同时增强了彩色PDP对低灰度级图像的显示能力.该技术还可根据输入图像的灰度分布特点动态指定所要增强的灰度级范围,增强了算法的灵活性.仿真结果表明,当输入图像为0~255级灰度时,采用新技术可使输出灰度级在0~60的图像单元占全部图像单元的最高比率达到26.8%,是单纯使用反γ修正技术时的6.2倍.

A novel method is proposed to improve the quality of low gray image in alternating current plasma display panel(AC PDP).In this method,after inverse Gamma correction,float gray level codes are created from gray errors between actual gray levels and binary coded gray levels.For low gray image,the float gray level codes are combined to the binary coded gray levels by the error diffusion method.A parallel pipeline architecture is proposed to implement the proposed method in System on Chip(SoC).Simulation results...

A novel method is proposed to improve the quality of low gray image in alternating current plasma display panel(AC PDP).In this method,after inverse Gamma correction,float gray level codes are created from gray errors between actual gray levels and binary coded gray levels.For low gray image,the float gray level codes are combined to the binary coded gray levels by the error diffusion method.A parallel pipeline architecture is proposed to implement the proposed method in System on Chip(SoC).Simulation results show that,the lost details of low gray image after inverse gamma correction are compensated by the proposed method so that the quality of low gray image in AC PDP can be improved effectively.Experiment results show that,the SoC of the proposed method not only has fine capability of real time processing and upper calculation accuracy but also takes low cost.

为增强交流等离子体显示器(AC PDP)中经过反Gamma校正后的低灰度级图像,在图像进行反Gamma校正后,根据图像原始灰度与二进制编码灰度之差建立浮动灰度编码。然后利用误差扩散方法将浮动灰度编码所包含的低灰度级图像信息融合到用于显示的子场编码中。同时提出了采用并行流水线结构进行该方法的在系统芯片(SoC)实现。仿真及实验结果表明,本文提出的新方法补偿了反Gamma校正后损失的低灰度图像信息,有效地改善了AC PDP低灰度级图像质量,并且该方法的SoC实现具有良好的实时处理性及较高计算精度,且占用系统资源较少。

 
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