提出了基于散焦图像深度测量的一种新方法。
A new method for depth measurement based on defocus images was proposed.
获得匹配点后,根据摄像机透射投影模型恢复图像深度信息。
After that, the depth information can be easily recovered according to the camera transmission projection model.
不确定的原因在于这些光学幻象并没有透露任何图像深度的线索以助我们有所意识。
And the reason for the uncertainty is because these kinds of optical illusions do not reveal any clues about the image's depth to help us make sense of it.
深度1保存此页面、它的图像及样式信息。
A depth of 1 saves this page, its graphics, and style information.
多个线条的聚合表示深度范围和距离。栅栏或马路向远方的延伸会聚成一点,给人们造成扁平的二维图像有着三维的深度这样的假象。
Lines that converge imply depth, scale and distance - a fence or roadway converges into the distance provides the illusion that a flat two-dimensional image has three-dimensional depth.
你从不同角度照了这些照片,送到我们的系统中,它会通过测量图像中的像素后的3d深度来自动生成3d模型。
You take these pictures from different viewpoints, send them to our system, and it automatically figures out a 3-d model by measuring the 3-d depth behind the pixels in the images.
在将目标图像绑定到Graphics3D时,可启用深度缓冲,也可不启用。
You enable or disable the depth buffer test when you bind the target graphics to Graphics3D.
FocusBlur:通过亮度和深度使图像失焦。
FocusBlur: Makes an image out of focus with luminosity and depth.
图像颜色种类和深度的丰富变化揭示出,土星在层层叠叠的云雾笼罩之下惊人的活跃。
The great variety of cloud shapes and sizes reveals a surprisingly active planet below the overlying sun-scattering haze.
下表说明了不同的图像类型位(位深度),可用的总的色彩,和常见的名称。
The following table illustrates different image types in terms of bits (bit depth), total colors available, and common names.
更高的位深度的图像,可以更多的色调或颜色进行编码,因为有更多的0和1的可用组合。
Images with higher bit depths can encode more shades or colors since there are more combinations of 0's and 1's available.
我们将演示如何呈现深度图像内部核以及如何把任何图像变成一个深刻的形象。
We'll demonstrate how to render deep images inside NUKE as well as how to turn any image into a deep image.
您可以将深度缓存想象成那些对您不可见的图像但保存着与摄像机保持一定距离的像素位置的数据。
You can think of depth buffer as of another image that is hidden from you and that stores the information about how far from the camera each pixel is located.
立体视觉-人类的左右眼接收有着细微差别的图像能够让大脑察觉到深度的存在。
Stereoscopic Vision - Human's left and right eyes receive slightly different images that allow the brain to perceive depth.
我们将讨论从不同深度图像格式与大量深工作效率。
We'll discuss everything from different deep image formats to working efficiently with large deep volumes.
神经网络与深度学习现在为解决许多问题提供了最佳解决方案,例如图像识别、语音识别和自然语言分析。
Neural networks and deep learning currently provide the best solutions to many problems in image recognition, speech recognition, and natural language processing.
色调分离发生时,图像的明显的位深度已经下降,以至于它具有视觉冲击力。
Posterization occurs when an image's apparent bit depth has been decreased so much that it has a visual impact.
对于灰度图像,位深度量化有多少独特的色调。
For a grayscale image, the bit depth quantifies how many unique shades are available.
函数使用指定位深度的源图像将其源值转换为8位范围。
The VI shifts the source value to the 8-bit range using the specified bit depth of the source image.
如果源图像具有指定的位深度,该函数使用指定位深度在执行此转换时。
If the source image has a specified bit depth, the VI USES the bit depth when performing this conversion.
所以本文在这部分将结合数字图像处理中深度图和动态图像方面的知识对其进行深入的分析和探索。
So this paper gives the analyzing and exploration making use of combination of depth map and the knowledge of dynamic image.
位深度量化有多少独特的颜色是在图像的调色板可在0和1,或“位”,这是用来指定每种颜色的数量。
Bit depth quantifies how many unique colors are available in an image's color palette in terms of the number of 0's and 1's, or "bits," which are used to specify each color.
重建后的膜层结构图像的深度分辨率提高了一个数量级,图像也取得了更好的锐化、去噪的效果。
The depth resolution of reconstructed image was enhanced by one order of magnitude and the image became sharper and cleaner.
当无人驾驶汽车上路时,最重要的道路基础设施是车道标志线,这种画在路面上的东西没有什么技术含量,但是这些线将为汽车上的深度学习软件提供关键的图像信息。
When driverless cars take the road, the most important road infrastructure will be the low-tech painted-on lane markers that provide critical visual information for the car's deep - learning software.
从运动恢复三维形状是通过序列图像获取物体深度信息的一种技术。
Shape from motion is the technology of obtaining the depth information of scene from image sequences.
在3d超声、技术收集我们的宝贝的图像,并让他们深度,3的三维效果。
In 3d ultrasound, the technique collects images of our baby and gives them depth for a 3 dimensional effect.
在3d超声、技术收集我们的宝贝的图像,并让他们深度,3的三维效果。
In 3d ultrasound, the technique collects images of our baby and gives them depth for a 3 dimensional effect.
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