scanning linearity

简明释义

扫描线性

英英释义

例句

1.The printer's performance is largely determined by its scanning linearity, which affects the quality of printed images.

打印机的性能在很大程度上取决于它的扫描线性，这影响了打印图像的质量。

2.To improve the scanning linearity, adjustments were made to the scanning software.

为了改善扫描线性，对扫描软件进行了调整。

3.A lack of scanning linearity can lead to distortions in the captured data.

缺乏扫描线性可能导致捕获数据的失真。

4.In medical imaging, achieving good scanning linearity is crucial for accurate diagnoses.

在医学成像中，实现良好的扫描线性对于准确诊断至关重要。

5.The engineer tested the device to ensure its scanning linearity met industry standards.

工程师测试了设备，以确保其扫描线性符合行业标准。

作文

In the realm of technology and engineering, the term scanning linearity refers to the precision with which a scanning device, such as a laser scanner or an imaging system, can reproduce a linear representation of an object or scene. This concept is crucial in various applications, including 3D modeling, medical imaging, and remote sensing. Understanding scanning linearity is essential for professionals who rely on accurate measurements and representations in their work.To illustrate the importance of scanning linearity, consider the example of a 3D laser scanner used in architectural design. When architects create digital models of buildings, they depend on the scanner to capture the dimensions and features of the structure accurately. If the scanner exhibits poor scanning linearity, the resulting model may distort the actual proportions of the building. This distortion can lead to significant issues during the construction phase, where precise measurements are critical for ensuring that all components fit together correctly.Moreover, in medical imaging, devices like MRI and CT scanners must maintain high levels of scanning linearity to provide accurate representations of the human body. Any discrepancies in the scanned images can result in misdiagnoses or improper treatment plans. For instance, if a tumor's size or location is inaccurately represented due to poor scanning linearity, a doctor might make decisions based on flawed information, potentially endangering the patient's health.The significance of scanning linearity extends beyond just accuracy; it also affects efficiency. In industries where time is of the essence, such as manufacturing and logistics, maintaining high scanning linearity can streamline processes. For example, automated systems that rely on scanning technology to identify and sort products must ensure that their scans are consistent and reliable. If the scanning linearity is compromised, it could lead to delays, increased costs, and wasted resources.To achieve optimal scanning linearity, engineers and technicians employ various calibration techniques and quality control measures. Regular maintenance of scanning equipment is vital to ensure that it operates within specified parameters. Additionally, advancements in technology continuously improve the scanning linearity of new devices, making them more reliable and efficient than their predecessors.In conclusion, scanning linearity is a fundamental concept that plays a pivotal role in numerous fields. Its impact on accuracy, efficiency, and safety cannot be overstated. As technology continues to evolve, understanding and improving scanning linearity will remain a priority for professionals across various industries. By prioritizing this aspect of scanning technology, we can enhance the quality of our work and ultimately contribute to better outcomes in our respective fields.

在技术和工程领域，术语扫描线性度指的是扫描设备（如激光扫描仪或成像系统）能够多精确地再现物体或场景的线性表示。这个概念在各种应用中至关重要，包括3D建模、医学成像和遥感。理解扫描线性度对于依赖于准确测量和表示的专业人士来说是必不可少的。为了说明扫描线性度的重要性，可以考虑一个用于建筑设计的3D激光扫描仪的例子。当建筑师创建建筑的数字模型时，他们依赖扫描仪准确捕捉结构的尺寸和特征。如果扫描仪表现出较差的扫描线性度，则生成的模型可能会扭曲建筑的实际比例。这种扭曲可能会在施工阶段导致重大问题，因为精确的测量对确保所有组件正确安装至关重要。此外，在医学成像中，像MRI和CT扫描仪这样的设备必须保持高水平的扫描线性度，以提供人体的准确表示。扫描图像中的任何差异都可能导致误诊或不恰当的治疗计划。例如，如果由于较差的扫描线性度而导致肿瘤的大小或位置被不准确地表示，医生可能会根据错误的信息做出决策，从而可能危及患者的健康。扫描线性度的重要性不仅仅体现在准确性上；它还影响效率。在时间至关重要的行业（如制造和物流）中，保持高水平的扫描线性度可以简化流程。例如，依赖扫描技术识别和分类产品的自动化系统必须确保其扫描结果一致且可靠。如果扫描线性度受到损害，可能会导致延误、成本增加和资源浪费。为了实现最佳的扫描线性度，工程师和技术人员采用各种校准技术和质量控制措施。定期维护扫描设备对于确保其在规定参数内运行至关重要。此外，技术的进步不断提高新设备的扫描线性度，使其比前辈更可靠和高效。总之，扫描线性度是一个基本概念，在众多领域发挥着关键作用。它对准确性、效率和安全性的影响不容小觑。随着技术的不断发展，理解和改善扫描线性度将始终是各行业专业人士的优先事项。通过优先考虑这一扫描技术的方面，我们可以提高工作质量，并最终为各自领域的更好结果做出贡献。