uniplanar

简明释义

英[ˌjuːnɪˈpleɪnə]美[ˈjʊnɪˈplenər]

adj. 单平面的，同平面的；位于同一平面的；发生在一平面上的；单面延展的

英英释义

单词用法

同义词

反义词

例句

1.A uniplanar capacitive sensor, with 8-electrode on one plane substrate, is designed to detect the subsurface anomalies or damage of non-metallic materials.

针对非金属材料表面下异常或损伤的检测，提出一个同面8电极电容传感器。

2.To diminish the influence of the eddy currents, the design method of self-shielded gradient coils is studied and the self-shielded uniplanar gradient coils are designed in this paper.

为了尽可能地减小涡流的影响，本文研究了自屏蔽线圈的设计方法，并完成了一种涡流自屏蔽单平面梯度线圈的设计。

3.To diminish the influence of the eddy currents, the design method of self-shielded gradient coils is studied and the self-shielded uniplanar gradient coils are designed in this paper.

为了尽可能地减小涡流的影响，本文研究了自屏蔽线圈的设计方法，并完成了一种涡流自屏蔽单平面梯度线圈的设计。

4.The robotic arm is designed to operate in a uniplanar 单平面的 motion, allowing it to efficiently pick and place objects.

这个机器人手臂被设计为在单平面的运动中操作，从而有效地拾取和放置物体。

5.The architect proposed a uniplanar 单平面的 design for the roof to reduce construction costs.

建筑师提出了一种单平面的屋顶设计，以降低施工成本。

6.In our experiment, we used a uniplanar 单平面的 setup to simplify the analysis of forces acting on the object.

在我们的实验中，我们使用了一个单平面的设置，以简化作用于物体的力的分析。

7.Using a uniplanar 单平面的 approach can help streamline the workflow in manufacturing processes.

采用单平面的方法可以帮助简化制造过程中的工作流程。

8.The uniplanar 单平面的 nature of the motion makes it easier to control the device during operation.

运动的单平面的特性使得在操作过程中更容易控制设备。

作文

In the realm of geometry and engineering, the term uniplanar refers to a condition or configuration where all points or components lie within a single plane. This concept is essential in various fields, including architecture, robotics, and mechanical design, as it simplifies the analysis and construction of structures and mechanisms. Understanding the implications of uniplanar arrangements can enhance our ability to create efficient designs that are easier to manufacture and maintain.To illustrate the importance of uniplanar configurations, consider the design of a simple bridge. Engineers often strive to ensure that the main structural elements, such as beams and trusses, remain uniplanar to avoid unnecessary complexities in load distribution. When all supporting members are aligned in a single plane, the forces acting on the structure can be analyzed more straightforwardly, leading to safer and more reliable designs.Moreover, uniplanar systems are prevalent in robotics, particularly in robotic arms and manipulators. A robotic arm designed to operate in a uniplanar manner can perform tasks with greater precision and efficiency. For instance, if a robot is programmed to pick up objects from a conveyor belt, keeping its movements uniplanar ensures that it can accurately reach for items without the risk of missing them due to vertical misalignment. This not only enhances productivity but also reduces wear and tear on the robotic components.In the context of computer graphics and animation, the concept of uniplanar surfaces plays a crucial role in rendering realistic images. When creating 3D models, artists often utilize uniplanar textures to ensure that the surface appearance remains consistent and coherent. By mapping textures onto uniplanar surfaces, designers can achieve a more visually appealing result, as the details are uniformly distributed across the plane, avoiding distortion that can occur on curved or irregular surfaces.Furthermore, the idea of uniplanar extends beyond physical applications and into abstract concepts such as data visualization. In data science, presenting information in a uniplanar format, such as a two-dimensional graph, allows for clearer interpretation of relationships between variables. When data points are plotted on a uniplanar chart, trends and patterns become more discernible, aiding analysts in making informed decisions based on the visualized data.In conclusion, the term uniplanar encapsulates a fundamental principle that underpins many aspects of design, engineering, and analysis. Its significance is evident in various applications, from structural engineering to robotics and data visualization. By embracing the concept of uniplanar configurations, professionals in these fields can enhance their work's efficiency, clarity, and effectiveness. As we continue to innovate and push the boundaries of technology and design, understanding and applying uniplanar principles will remain a vital component of successful outcomes in countless projects.

在几何和工程领域，术语uniplanar指的是一种条件或配置，其中所有点或组件都位于同一个平面内。这个概念在建筑、机器人和机械设计等多个领域中至关重要，因为它简化了结构和机制的分析与构建。理解uniplanar排列的含义可以增强我们创造高效设计的能力，这些设计更易于制造和维护。为了说明uniplanar配置的重要性，考虑一下简单桥梁的设计。工程师通常努力确保主要结构元素，如梁和桁架，保持uniplanar，以避免在载荷分布中产生不必要的复杂性。当所有支撑部件对齐在一个平面中时，作用于结构的力可以更简单地进行分析，从而导致更安全、更可靠的设计。此外，uniplanar系统在机器人技术中也很普遍，特别是在机器人手臂和操纵器中。设计为以uniplanar方式操作的机器人手臂可以更精确、高效地执行任务。例如，如果一个机器人被编程为从传送带上拾取物体，保持其运动uniplanar可以确保它准确地伸手去拿物品，而不会因垂直错位而错过。这不仅提高了生产力，也减少了机器人组件的磨损。在计算机图形和动画的背景下，uniplanar表面的概念在渲染逼真图像中发挥着关键作用。在创建3D模型时，艺术家常常利用uniplanar纹理，以确保表面外观保持一致和连贯。通过将纹理映射到uniplanar表面，设计师可以实现更具视觉吸引力的效果，因为细节均匀分布在平面上，避免了在曲面或不规则表面上可能出现的失真。此外，uniplanar的概念不仅限于物理应用，还扩展到数据可视化等抽象概念。在数据科学中，以uniplanar格式呈现信息，例如二维图表，可以更清晰地解释变量之间的关系。当数据点被绘制在uniplanar图表上时，趋势和模式变得更加明显，帮助分析师根据可视化数据做出明智的决策。总之，术语uniplanar概括了许多设计、工程和分析方面的基本原则。其重要性在各种应用中显而易见，从结构工程到机器人再到数据可视化。通过接受uniplanar配置的概念，这些领域的专业人士可以提高其工作的效率、清晰度和有效性。随着我们继续创新并推动技术和设计的边界，理解和应用uniplanar原理将始终是无数项目成功结果的重要组成部分。