local distortion

简明释义

局部畸变

英英释义

例句

1.The image processing software can correct for local distortion 局部失真 caused by lens imperfections.

图像处理软件可以修正由于镜头缺陷造成的local distortion 局部失真。

2.When printing, local distortion 局部失真 can occur if the paper is not aligned properly.

在打印时，如果纸张未正确对齐，则可能会发生local distortion 局部失真。

3.The technician identified local distortion 局部失真 in the satellite images due to atmospheric interference.

技术人员在卫星图像中识别出了由于大气干扰造成的local distortion 局部失真。

4.The algorithm detects local distortion 局部失真 in the audio signal and applies filters to enhance clarity.

该算法检测音频信号中的local distortion 局部失真并应用滤波器以增强清晰度。

5.In 3D modeling, artists often need to fix local distortion 局部失真 in the mesh to ensure a smooth surface.

在3D建模中，艺术家常常需要修复网格中的local distortion 局部失真以确保表面光滑。

作文

In the realm of digital imaging and computer graphics, the term local distortion refers to the alteration or deformation of a specific area within an image or graphical representation. This phenomenon can occur due to various factors, including but not limited to the limitations of the imaging device, the software algorithms used for processing, or even the inherent characteristics of the subject being captured. Understanding local distortion is crucial for artists, designers, and engineers alike, as it can significantly impact the overall quality and perception of visual content.For instance, consider a scenario where a photographer captures an image of a beautiful landscape. If the camera lens is not perfectly calibrated, certain areas of the photo may appear warped or skewed, leading to a local distortion that detracts from the viewer's experience. This type of distortion might manifest as bending lines, altered shapes, or even color shifts in localized regions of the image. Such imperfections can be particularly problematic in fields like architecture or product design, where accurate representation is paramount.Moreover, local distortion can also arise during the editing process. When graphic designers manipulate images, they may inadvertently introduce distortions by applying filters or transformations unevenly across the canvas. For example, if a designer uses a warp tool to create a dynamic effect, they must be cautious not to create unintended local distortion that could confuse or mislead the audience. The key lies in maintaining a balance between creative expression and the fidelity of the original image.In addition to visual arts, local distortion is a concept that finds relevance in various scientific and engineering disciplines. In the field of materials science, for instance, researchers study how localized stresses can lead to changes in the properties of materials. These localized changes, akin to local distortion in imaging, can affect the strength, flexibility, and overall performance of materials under different conditions. By understanding these principles, engineers can design more resilient structures and products.Furthermore, the concept of local distortion extends into the digital world of virtual reality (VR) and augmented reality (AR). In these immersive environments, ensuring that users perceive objects accurately is vital for a seamless experience. Any local distortion in the way objects are rendered can lead to discomfort or disorientation for users. Developers must use advanced algorithms to minimize such distortions, creating a more believable and engaging experience.In conclusion, local distortion is a multifaceted term that encompasses various fields, from photography and graphic design to materials science and virtual reality. Its implications are profound, influencing not only the aesthetic qualities of visual content but also the functional integrity of materials and the user experience in digital environments. By recognizing and addressing local distortion, professionals can enhance their work, ensuring that their creations resonate with accuracy and clarity. As technology continues to evolve, the importance of understanding and mitigating local distortion will only grow, making it an essential concept for anyone involved in visual communication or engineering disciplines.

在数字成像和计算机图形学领域，术语局部失真指的是图像或图形表示中特定区域的改变或变形。这种现象可能由于各种因素而发生，包括但不限于成像设备的限制、用于处理的软件算法，甚至是被捕捉对象的固有特性。理解局部失真对于艺术家、设计师和工程师至关重要，因为它会显著影响视觉内容的整体质量和感知。例如，考虑一个摄影师拍摄美丽风景的场景。如果相机镜头没有完美校准，照片的某些区域可能会显得扭曲或歪斜，导致一种局部失真，从而削弱观众的体验。这种类型的失真可能表现为弯曲的线条、改变的形状，甚至是在图像的局部区域内的颜色偏移。在建筑或产品设计等领域，这些不完美可能尤其成问题，因为准确的表现至关重要。此外，局部失真也可能在编辑过程中出现。当图形设计师对图像进行操作时，他们可能会无意中通过不均匀地应用滤镜或变换引入失真。例如，如果设计师使用扭曲工具创建动态效果，他们必须小心不要造成意想不到的局部失真，这可能会混淆或误导观众。关键在于在创造性表达和原始图像的保真度之间保持平衡。除了视觉艺术，局部失真是一个在各种科学和工程学科中具有相关性的概念。在材料科学领域，例如，研究人员研究局部应力如何导致材料性能的变化。这些局部变化类似于成像中的局部失真，可以影响材料在不同条件下的强度、柔韧性和整体性能。通过理解这些原则，工程师可以设计出更具韧性的结构和产品。此外，局部失真的概念延伸到虚拟现实（VR）和增强现实（AR）的数字世界。在这些沉浸式环境中，确保用户准确感知物体对实现无缝体验至关重要。任何在物体渲染中出现的局部失真都可能导致用户的不适或迷失方向。开发人员必须使用先进的算法来最小化这种失真，从而创造出更可信和引人入胜的体验。总之，局部失真是一个多方面的术语，涵盖了从摄影和图形设计到材料科学和虚拟现实的各个领域。它的影响深远，不仅影响视觉内容的美学品质，还影响材料的功能完整性和数字环境中的用户体验。通过识别和解决局部失真，专业人士可以提升他们的工作，确保他们的创作与准确性和清晰度产生共鸣。随着技术的不断发展，理解和减轻局部失真的重要性只会增加，使其成为任何参与视觉传播或工程学科的人必不可少的概念。