resolution in range

简明释义

距离分辨力

英英释义

例句

1.In gaming, having a higher resolution in range enhances the overall visual experience.

在游戏中，拥有更高的分辨率范围提升了整体视觉体验。

2.For our project, we need to ensure that the resolution in range meets the client's specifications.

对于我们的项目，我们需要确保分辨率范围符合客户的规格。

3.The printer supports a resolution in range that is suitable for both text and images.

这款打印机支持的分辨率范围适合文本和图像。

4.The camera's resolution in range allows for capturing high-quality images even in low light conditions.

相机的分辨率范围允许在低光条件下拍摄高质量图像。

5.Adjusting the resolution in range can significantly improve the clarity of the video feed.

调整分辨率范围可以显著提高视频流的清晰度。

作文

In today's fast-paced world, technology has become an integral part of our daily lives. From smartphones to smart homes, the advancements in technology have transformed the way we communicate, work, and live. One of the critical aspects of technology that often gets overlooked is the concept of resolution in range. This term refers to the ability of a device or system to maintain clarity and detail within a specified distance or area. Understanding this concept is essential, especially in fields such as photography, digital imaging, and even in our everyday use of screens.For instance, when we talk about cameras, the resolution in range can significantly affect the quality of the images captured. A camera with a high resolution will produce clearer and more detailed images when the subject is within its optimal range. This means that if you are photographing a landscape, the details of the mountains in the background will be much sharper if the camera's resolution is designed to perform well at that distance. Conversely, if the resolution is low, the image may appear blurry or pixelated, making it difficult to appreciate the beauty of the scene.Moreover, the concept of resolution in range is not limited to just photography. It also plays a crucial role in the realm of digital displays. When we watch movies or play video games, the resolution of our screens determines how clear and vibrant the images appear. A screen with a high resolution can display more pixels, resulting in a more detailed and immersive experience. However, if we sit too far away from a low-resolution screen, we might not notice the lack of detail, but as we move closer, the imperfections become evident. Thus, understanding the resolution in range helps us make informed decisions about the devices we choose to invest in.In addition to photography and displays, the concept of resolution in range can also be applied to various scientific and technical fields. For example, in medical imaging, the resolution of an MRI or CT scan is crucial for diagnosing conditions accurately. The doctors rely on high-resolution images to see fine details of organs and tissues, which can be vital for treatment planning. If the resolution is insufficient, important information might be missed, leading to misdiagnosis or inadequate treatment.Furthermore, in the context of data analysis, understanding resolution in range is essential for interpreting results accurately. In geographical information systems (GIS), for instance, the resolution of the data collected can affect the conclusions drawn from the analysis. Higher resolution data allows for more precise mapping and better decision-making based on geographic trends.In conclusion, the term resolution in range encapsulates a fundamental principle that applies to numerous aspects of technology and science. Whether we are capturing memories through photography, enjoying entertainment on our screens, or analyzing complex data sets, understanding how resolution affects clarity and detail is crucial. As technology continues to evolve, being aware of the implications of resolution in range will empower us to utilize these advancements effectively and make informed choices in our personal and professional lives.

在当今快节奏的世界中，技术已成为我们日常生活中不可或缺的一部分。从智能手机到智能家居，技术的进步已经改变了我们沟通、工作和生活的方式。一个经常被忽视的技术关键方面是“分辨率范围”这一概念。这个术语指的是设备或系统在特定距离或区域内保持清晰度和细节的能力。理解这个概念至关重要，尤其是在摄影、数字成像，甚至是我们日常使用屏幕的领域。例如，当我们谈论相机时，“分辨率范围”可以显著影响拍摄图像的质量。具有高分辨率的相机在最佳范围内拍摄时会产生更清晰、更详细的图像。这意味着，如果您正在拍摄风景，背景山脉的细节在相机的分辨率适合该距离时会更加清晰。相反，如果分辨率较低，则图像可能会模糊或像素化，难以欣赏场景的美丽。此外，“分辨率范围”的概念不仅限于摄影。它在数字显示领域也起着至关重要的作用。当我们观看电影或玩视频游戏时，屏幕的分辨率决定了图像的清晰度和生动程度。高分辨率的屏幕可以显示更多的像素，从而带来更详细和身临其境的体验。然而，如果我们离低分辨率的屏幕太远，我们可能不会注意到细节的缺失，但随着我们靠近，缺陷会变得明显。因此，理解“分辨率范围”帮助我们做出明智的选择，决定投资哪些设备。除了摄影和显示器，“分辨率范围”的概念还可以应用于各种科学和技术领域。例如，在医学成像中，MRI或CT扫描的分辨率对于准确诊断病症至关重要。医生依赖高分辨率图像查看器官和组织的细微细节，这对治疗计划可能至关重要。如果分辨率不足，可能会错过重要信息，导致误诊或治疗不当。此外，在数据分析的背景下，理解“分辨率范围”对准确解读结果至关重要。在地理信息系统（GIS）中，例如，收集的数据的分辨率会影响从分析中得出的结论。更高分辨率的数据允许更精确的制图和基于地理趋势的更好决策。总之，术语“分辨率范围”概括了一个基本原则，该原则适用于技术和科学的多个方面。无论我们是在通过摄影捕捉记忆，享受屏幕上的娱乐，还是分析复杂的数据集，理解分辨率如何影响清晰度和细节都是至关重要的。随着技术的不断发展，意识到“分辨率范围”的影响将使我们能够有效利用这些进步，并在个人和职业生活中做出明智的选择。