automatic contouring

简明释义

1. 等高线自动绘制; 2. 自动绘等值线;

英英释义

例句

1.The new graphic design software features automatic contouring, allowing artists to create smooth outlines effortlessly.

这款新图形设计软件具有自动轮廓描绘功能，使艺术家能够轻松创建平滑的轮廓。

2.The CAD program utilizes automatic contouring to streamline the design process for engineers.

该CAD程序利用自动轮廓描绘来简化工程师的设计流程。

3.With automatic contouring, the 3D modeling tool can generate complex shapes without manual adjustments.

借助自动轮廓描绘，该3D建模工具可以生成复杂的形状，而无需手动调整。

4.Photographers can use automatic contouring in editing software to enhance the edges of their images.

摄影师可以在编辑软件中使用自动轮廓描绘来增强图像的边缘。

5.In the latest update, the app improved its automatic contouring feature for better accuracy in line art.

在最新更新中，该应用程序改进了其自动轮廓描绘功能，以提高线条艺术的准确性。

作文

In the world of technology and design, the term automatic contouring refers to a process that allows for the automatic adjustment and refinement of shapes and outlines in digital models. This technique has become increasingly important in various fields, including graphic design, architecture, and product development. The ability to automatically generate precise contours not only saves time but also enhances the accuracy of designs, making it an invaluable tool for professionals. One of the primary advantages of automatic contouring is its efficiency. Traditionally, designers would spend countless hours manually creating and adjusting contours to achieve the desired look. However, with advancements in software and algorithms, these processes can now be automated. For instance, in graphic design, a designer can input basic shapes, and the software will automatically refine the contours to create smooth, aesthetically pleasing lines. This not only speeds up the design process but also allows designers to focus on more creative aspects of their work. Moreover, automatic contouring plays a crucial role in industries such as manufacturing and engineering. In these fields, precision is paramount, and even the slightest error in contouring can lead to significant issues down the line. By utilizing automatic contouring techniques, engineers can ensure that their designs meet strict specifications without the need for extensive manual adjustments. This results in higher quality products and reduced production costs, as fewer resources are wasted on corrections. In addition to its practical applications, automatic contouring also opens up new possibilities for innovation. Designers can experiment with complex shapes and forms that would have been nearly impossible to create manually. For example, in architecture, the use of automatic contouring allows architects to design buildings with unique, flowing shapes that challenge traditional architectural norms. This not only enhances the aesthetic appeal of structures but also pushes the boundaries of what is possible in construction. Furthermore, the integration of automatic contouring with other technologies, such as 3D printing, is revolutionizing how products are developed. With the ability to create intricate designs quickly and accurately, manufacturers can produce prototypes and final products that were previously unimaginable. This synergy between automatic contouring and 3D printing is paving the way for a new era of customization, where consumers can have products tailored to their specific preferences. However, it is essential to acknowledge that while automatic contouring brings numerous benefits, it also presents challenges. As reliance on automation increases, there is a risk of losing the human touch in design. Creativity and intuition are vital components of the design process, and over-reliance on automated systems may lead to generic outcomes. Therefore, it is crucial for designers to strike a balance between utilizing these advanced tools and maintaining their unique artistic vision. In conclusion, automatic contouring is a transformative process that significantly impacts various industries by enhancing efficiency, precision, and creativity. As technology continues to evolve, the potential applications of automatic contouring will only expand, offering exciting opportunities for innovation and design. Embracing this technology while preserving the essence of human creativity will be key to unlocking its full potential in the future.

在技术和设计的世界中，术语自动轮廓生成指的是一种允许在数字模型中自动调整和精细化形状和轮廓的过程。这种技术在图形设计、建筑和产品开发等多个领域变得越来越重要。能够自动生成精确的轮廓不仅节省了时间，还提高了设计的准确性，使其成为专业人士不可或缺的工具。自动轮廓生成的主要优点之一是其效率。传统上，设计师需要花费大量时间手动创建和调整轮廓以达到所需的外观。然而，随着软件和算法的进步，这些过程现在可以自动化。例如，在图形设计中，设计师可以输入基本形状，软件将自动细化轮廓，以创建流畅、赏心悦目的线条。这不仅加快了设计过程，还使设计师能够专注于工作中的更具创意的方面。此外，自动轮廓生成在制造和工程等行业中起着至关重要的作用。在这些领域，精度至关重要，轮廓的任何细微错误都可能导致后续出现重大问题。通过利用自动轮廓生成技术，工程师可以确保他们的设计符合严格的规格，而无需进行广泛的手动调整。这导致产品质量更高，生产成本降低，因为在修正上浪费的资源更少。除了其实际应用之外，自动轮廓生成还为创新开辟了新的可能性。设计师可以尝试复杂的形状和形式，这在手动创建时几乎是不可能的。例如，在建筑中，使用自动轮廓生成允许建筑师设计具有独特流动形状的建筑，挑战传统建筑规范。这不仅增强了结构的美学吸引力，还推动了建筑可能性的边界。此外，自动轮廓生成与其他技术（如3D打印）的结合正在革命化产品开发的方式。凭借快速和准确地创建复杂设计的能力，制造商可以生产以前无法想象的原型和最终产品。自动轮廓生成与3D打印之间的这种协同作用正在为定制的新纪元铺平道路，消费者可以根据自己的具体偏好定制产品。然而，必须承认，虽然自动轮廓生成带来了许多好处，但它也带来了挑战。随着对自动化的依赖增加，失去设计中的人性化元素的风险也在增加。创造力和直觉是设计过程的重要组成部分，过度依赖自动化系统可能导致结果的千篇一律。因此，设计师必须在利用这些先进工具和保持独特的艺术视野之间找到平衡。总之，自动轮廓生成是一个变革性的过程，通过提高效率、精度和创造力，对各个行业产生了重大影响。随着技术的不断发展，自动轮廓生成的潜在应用只会扩展，为创新和设计提供令人兴奋的机会。拥抱这一技术，同时保留人类创造力的本质，将是释放其未来全部潜力的关键。