distance misadjustment

简明释义

测距仪距离失调

英英释义

例句

1.The drone's flight path was affected by a distance misadjustment, causing it to veer off course.

无人机的飞行路径受到距离调整错误的影响，导致它偏离了航线。

2.A distance misadjustment in the laser measurement caused the construction project to be delayed.

激光测量中的距离调整错误导致建设项目延误。

3.The GPS system malfunctioned due to a distance misadjustment, leading to navigation errors.

由于距离调整错误，GPS系统发生故障，导致导航错误。

4.Engineers discovered a distance misadjustment in the sensor calibration, which resulted in inaccurate readings.

工程师发现传感器校准中存在距离调整错误，这导致了读数不准确。

5.During the race, a distance misadjustment in the track measurements confused the runners.

比赛期间，赛道测量中的距离调整错误让选手们感到困惑。

作文

In the realm of technology and engineering, precision is paramount. One critical aspect that often goes unnoticed is the concept of distance misadjustment, which refers to the errors that occur when the intended distance between two points is not accurately maintained. This phenomenon can have significant implications in various fields, including robotics, manufacturing, and even everyday applications such as automotive design. Understanding distance misadjustment is essential for improving efficiency and ensuring safety in these systems.To illustrate the importance of distance misadjustment, consider the example of a robotic arm used in an assembly line. The arm is programmed to pick up components from a conveyor belt and place them in specific locations. If there is a distance misadjustment in the calibration of the arm, it may either overshoot or undershoot the target position. This could lead to components being misplaced, resulting in costly production errors and delays. Moreover, if the misadjustment is severe, it could even cause damage to the equipment or pose safety risks to workers.In the automotive industry, distance misadjustment can manifest in various ways, particularly in the alignment of parts during vehicle assembly. For instance, if the distance between the wheels and the chassis is not correctly adjusted, it can lead to handling issues, increased tire wear, and ultimately, a compromised driving experience. Manufacturers invest heavily in precision engineering to minimize distance misadjustment because they understand that even minor deviations can have far-reaching consequences for the performance and safety of their vehicles.Another area where distance misadjustment plays a crucial role is in the field of telecommunications. Signal transmission often relies on precise distances between antennas and receivers. If there is a misadjustment in the positioning of these components, it can result in weak signals or data loss, severely impacting communication quality. Engineers must carefully calculate and adjust the distances involved to ensure optimal performance of the network.To mitigate the risk of distance misadjustment, various techniques and technologies have been developed. For instance, advanced sensors and measurement tools can help detect discrepancies in distance, allowing for real-time adjustments. Furthermore, automated systems can be programmed to recalibrate themselves periodically to account for any drift that may occur over time.In conclusion, distance misadjustment is a critical factor that can significantly affect the performance and reliability of various systems across multiple industries. By understanding its implications and investing in technologies to minimize its occurrence, organizations can enhance their operational efficiency, reduce costs, and improve safety. As we continue to advance technologically, addressing distance misadjustment will remain a vital component of engineering practices, ensuring that precision and accuracy are upheld in all aspects of design and implementation.

在技术和工程领域，精确性至关重要。一个常常被忽视的关键概念是距离误调，它指的是当两个点之间的预定距离未能准确保持时所发生的错误。这种现象在机器人技术、制造业甚至日常应用（如汽车设计）等多个领域都可能产生重大影响。理解距离误调对于提高效率和确保这些系统的安全性至关重要。为了说明距离误调的重要性，考虑一个用于装配线的机器人手臂的例子。该手臂被编程为从传送带上拾取组件并将其放置在特定位置。如果手臂的校准存在距离误调，它可能会超出或低于目标位置。这可能导致组件放置错误，造成昂贵的生产错误和延误。此外，如果误调严重，甚至可能对设备造成损坏或对工人构成安全风险。在汽车工业中，距离误调可以以多种方式表现出来，特别是在车辆组装过程中部件的对齐。如果车轮与底盘之间的距离没有正确调整，可能会导致操控问题、轮胎磨损加剧，最终影响驾驶体验。制造商在精密工程方面投入巨资，以最小化距离误调，因为他们明白，即使是微小的偏差也可能对车辆的性能和安全性产生深远的影响。距离误调在电信领域也发挥着至关重要的作用。信号传输往往依赖于天线和接收器之间的精确距离。如果这些组件的位置出现误调，可能会导致信号弱或数据丢失，严重影响通信质量。工程师必须仔细计算和调整相关距离，以确保网络的最佳性能。为了降低距离误调的风险，各种技术和技术已被开发出来。例如，先进的传感器和测量工具可以帮助检测距离上的差异，从而允许实时调整。此外，自动化系统可以编程定期自我校准，以应对随时间推移可能发生的任何漂移。总之，距离误调是一个关键因素，可能显著影响各行业各种系统的性能和可靠性。通过理解其影响并投资于减少其发生的技术，组织可以提高运营效率、降低成本并改善安全性。随着我们技术的不断进步，解决距离误调将仍然是工程实践中的一个重要组成部分，确保在所有设计和实施方面保持精度和准确性。