voxels
简明释义
体元
体素
立体像素(voxel 的复数)
英英释义
A voxel is a volumetric pixel, representing a value on a regular grid in three-dimensional space. | 体素是体积像素,表示三维空间中规则网格上的一个值。 |
单词用法
三维体素 | |
体素网格 | |
基于体素的建模 | |
使用体素的体积渲染 | |
体素表示 | |
体素数据 | |
体素分辨率 | |
体素大小 |
同义词
反义词
| 像素 | 图像分辨率由像素数量决定。 | ||
| 向量 | 矢量图形可以无损缩放。 |
例句
1.When that glass is then "read" by a laser, the voxels produce tiny whirlpools of light, the properties of which have already been determined by the polarity of the laser pulse that created each voxel.
当这个玻璃通过激光进行"读取"时,体素会产生微小的光漩涡,这些光漩涡的属性是由形成每一个“体素”的激光脉冲所事先决定的。
2.The spatial sensitivity profiles are then computed in the positions of the pixels or voxels of the MR images based upon the dependence of the pixel or voxel values on the respective flip angles.
然后在所说磁共振图像的像素和体素的各个位置根据像素和体素值对于对应的激励触发角的依赖关系计算所说空间灵敏度分布。
3.Thedefault accuracy is set so that there are 3 voxels per agent radius, that is, the whole agent width is 6 voxels.
默认将寻路实体半径体素精度设置为3体素,即寻路实体精度为6体素。
4.Method Before volume rendering we transfer each slice of volume into an array indexed by the value of voxels, element in which stores the position of each voxel.
方法在体绘制前,将每个体数据的每个层片编码成以体素值为序的有序数组。
5.This method takes account of the transfer function, the data distribution and the visibility of the voxels .
该方法充分考虑了传递函数,数据分布和各个体素的可见度。
6.When that glass is then "read" by a laser, the voxels produce tiny whirlpools of light, the properties of which have already been determined by the polarity of the laser pulse that created each voxel.
当这个玻璃通过激光进行"读取"时,体素会产生微小的光漩涡,这些光漩涡的属性是由形成每一个“体素”的激光脉冲所事先决定的。
7.The resolution of a volume rendering is determined by the size of the voxels.
体积渲染的分辨率由体素的大小决定。
8.Game developers often use voxels to create detailed environments in 3D games.
游戏开发者经常使用体素来创建3D游戏中的详细环境。
9.Each voxel in a 3D grid represents a specific volume of space in a simulation.
3D网格中的每个体素代表模拟中一个特定的空间体积。
10.In medical imaging, voxels are used to represent three-dimensional data from CT or MRI scans.
在医学成像中,体素用于表示来自CT或MRI扫描的三维数据。
11.In scientific simulations, voxels can help visualize complex structures like clouds or terrain.
在科学模拟中,体素可以帮助可视化复杂的结构,如云或地形。
作文
In the realm of computer graphics and three-dimensional modeling, the term voxels (体素) plays a crucial role. A voxel, short for 'volume element,' is a unit of graphic information that defines a point in three-dimensional space. Unlike traditional pixels that represent a two-dimensional image, voxels (体素) add depth to the representation, enabling a more realistic depiction of objects and environments. This concept has gained significant traction in various fields, including medical imaging, scientific visualization, and video game design.One of the most prominent applications of voxels (体素) is in the medical field, particularly in imaging techniques such as MRI and CT scans. These technologies capture detailed images of internal structures in the body by slicing through them and representing the data as a collection of voxels (体素). Each voxel (体素) corresponds to a specific volume of tissue, allowing healthcare professionals to analyze and diagnose conditions with remarkable accuracy. By visualizing complex anatomical structures in three dimensions, doctors can better understand the relationship between different organs and tissues, leading to improved treatment planning and outcomes.In addition to medicine, voxels (体素) have become increasingly popular in the world of video games. Game developers utilize voxels (体素) to create immersive environments that players can explore. Unlike polygon-based graphics, which rely on flat surfaces to define shapes, voxels (体素) allow for more organic and fluid designs. This approach can lead to visually stunning landscapes and characters that enhance the gaming experience. Popular games like Minecraft have embraced this technology, using voxels (体素) to construct their distinctive blocky worlds, where players can manipulate and interact with the environment in creative ways.The versatility of voxels (体素) extends beyond just graphics and gaming. In scientific research, voxels (体素) are used to model complex phenomena, such as fluid dynamics or weather patterns. Researchers can simulate these processes by dividing space into a grid of voxels (体素), each containing data about the physical properties at that location. This method allows for detailed analysis and visualization of intricate systems, providing insights that would be difficult to obtain through traditional methods.Despite their many advantages, working with voxels (体素) comes with its challenges. One major issue is the computational cost associated with rendering and processing large volumes of voxels (体素). As the number of voxels (体素) increases, so does the demand for processing power and memory. Developers must find a balance between detail and performance to ensure a smooth experience for users. Additionally, the representation of voxels (体素) can sometimes lead to a loss of detail compared to polygon-based models, making it essential for creators to choose the right approach based on their specific needs.In conclusion, voxels (体素) are a fundamental concept in the fields of computer graphics and 3D modeling, offering unique benefits and applications across various industries. From enhancing medical imaging to revolutionizing video game design and scientific research, voxels (体素) have proven to be an invaluable tool for creating and analyzing complex three-dimensional representations. As technology continues to evolve, the use of voxels (体素) is likely to expand further, opening up new possibilities for innovation and creativity in the digital world.
在计算机图形学和三维建模领域,术语voxels(体素)扮演着至关重要的角色。Voxel是“体积元素”的缩写,是定义三维空间中一个点的图形信息单元。与代表二维图像的传统像素不同,voxels(体素)为表示添加了深度,使得物体和环境的描绘更加真实。这个概念在多个领域中得到了显著的应用,包括医学成像、科学可视化和视频游戏设计。Voxels(体素)最显著的应用之一是在医学领域,特别是在MRI和CT扫描等成像技术中。这些技术通过切片捕捉身体内部结构的详细图像,并将数据表示为一组voxels(体素)。每个voxel(体素)对应于特定的组织体积,使医疗专业人员能够以惊人的准确性分析和诊断病症。通过三维可视化复杂的解剖结构,医生可以更好地理解不同器官和组织之间的关系,从而改善治疗计划和结果。除了医学,voxels(体素)在视频游戏世界中也变得越来越流行。游戏开发者利用voxels(体素)创建玩家可以探索的沉浸式环境。与依赖平面表面定义形状的基于多边形的图形不同,voxels(体素)允许更有机和流畅的设计。这种方法可以导致视觉上惊艳的景观和角色,增强游戏体验。像Minecraft这样的热门游戏已经采用了这种技术,使用voxels(体素)构建其独特的方块世界,玩家可以以创造性的方式操纵和与环境互动。Voxels(体素)的多功能性不仅限于图形和游戏。在科学研究中,voxels(体素)用于建模复杂现象,例如流体动力学或天气模式。研究人员可以通过将空间划分为一组voxels(体素)来模拟这些过程,每个voxel(体素)包含该位置的物理属性数据。这种方法允许对复杂系统进行详细分析和可视化,提供了通过传统方法难以获得的洞察。尽管有许多优点,但使用voxels(体素)也面临挑战。一个主要问题是渲染和处理大量voxels(体素)所需的计算成本。随着voxels(体素)数量的增加,对处理能力和内存的需求也随之增加。开发人员必须在细节和性能之间找到平衡,以确保用户的顺畅体验。此外,voxels(体素)的表示有时可能会导致与基于多边形的模型相比细节的损失,因此创作者必须根据具体需求选择合适的方法。总之,voxels(体素)是计算机图形学和三维建模领域的基本概念,提供了各个行业独特的好处和应用。从增强医学成像到彻底改变视频游戏设计和科学研究,voxels(体素)已被证明是创建和分析复杂三维表示的宝贵工具。随着技术的不断发展,voxels(体素)的使用可能会进一步扩展,为数字世界中的创新和创造力开辟新的可能性。
