dynamic error

简明释义

动态误差

英英释义

例句

1.In real-time simulations, dynamic errors can lead to inaccurate results and affect decision-making.

在实时模拟中，动态误差可能导致结果不准确，从而影响决策。

2.The robot's navigation system was affected by a dynamic error that caused it to deviate from its path.

机器人的导航系统受到动态误差的影响，导致其偏离了路径。

3.To improve accuracy, the team developed algorithms to minimize dynamic errors in their data collection.

为了提高准确性，团队开发了算法来最小化数据收集中的动态误差。

4.Engineers must account for dynamic errors when designing control systems for vehicles.

工程师在设计车辆控制系统时必须考虑到动态误差。

5.The dynamic error in the measurement increased as the speed of the object changed.

当物体速度变化时，测量中的动态误差增加。

作文

In the realm of technology and engineering, the term dynamic error refers to the difference between the desired output and the actual output of a system when it is in motion or changing states. This concept is particularly important in control systems, robotics, and any application where precision is crucial. Understanding dynamic error is essential for engineers and developers who aim to create systems that perform reliably under varying conditions.To illustrate the significance of dynamic error, consider a robotic arm used in manufacturing. As the arm moves to pick up an object, it needs to reach a specific position with high accuracy. However, due to factors such as inertia, friction, and external disturbances, the arm may not reach the exact target position. The deviation from this target is what we call dynamic error. If the dynamic error is significant, it can lead to production inefficiencies, increased wear on equipment, and even safety hazards.Engineers often employ various strategies to minimize dynamic error. One common approach is the use of feedback control systems, which continuously monitor the output of a system and make adjustments in real time. For example, in our robotic arm scenario, sensors can detect the arm's position and compare it to the desired position. If a discrepancy is found, the control system will adjust the arm's movements accordingly to reduce the dynamic error.Another method to address dynamic error is through the design of more sophisticated algorithms that predict how a system will behave under different conditions. By anticipating potential errors before they occur, engineers can implement preemptive measures to ensure that the system remains within acceptable limits. This proactive approach is especially valuable in high-speed applications where even a small dynamic error can have significant consequences.Moreover, understanding the sources of dynamic error is crucial for effective troubleshooting. Common causes include mechanical wear, calibration issues, and environmental factors. By identifying these sources, engineers can take corrective actions, such as regular maintenance, recalibration of sensors, or implementing protective measures against environmental influences.In conclusion, the concept of dynamic error is vital in the fields of engineering and technology. It highlights the challenges faced when striving for precision in dynamic systems. By employing feedback control systems, advanced algorithms, and thorough troubleshooting techniques, engineers can work towards minimizing dynamic error and improving the overall performance and reliability of their systems. As technology continues to advance, the importance of understanding and addressing dynamic error will only grow, making it a critical focus for future innovations in automation and robotics.

在技术和工程领域，术语动态误差指的是系统在运动或状态变化时，期望输出与实际输出之间的差异。这个概念在控制系统、机器人技术以及任何对精度要求很高的应用中尤为重要。理解动态误差对于那些希望创建在不同条件下可靠运行的系统的工程师和开发者来说至关重要。为了说明动态误差的重要性，可以考虑一个在制造中使用的机器人手臂。当手臂移动以拾取物体时，它需要以高精度到达特定位置。然而，由于惯性、摩擦和外部干扰等因素，手臂可能无法准确地达到目标位置。与该目标的偏差就是我们所称的动态误差。如果动态误差显著，会导致生产效率低下、设备磨损加剧，甚至安全隐患。工程师通常采用各种策略来最小化动态误差。一种常见的方法是使用反馈控制系统，该系统持续监测系统的输出，并实时进行调整。例如，在我们的机器人手臂场景中，传感器可以检测手臂的位置并将其与期望位置进行比较。如果发现差异，控制系统将相应地调整手臂的运动，以减少动态误差。解决动态误差的另一种方法是设计更复杂的算法，以预测系统在不同条件下的行为。通过在错误发生之前预见潜在的错误，工程师可以实施预防措施，以确保系统保持在可接受的范围内。这种主动的方法在高速应用中特别有价值，因为即使是小的动态误差也会产生重大后果。此外，了解动态误差的来源对于有效的故障排除至关重要。常见原因包括机械磨损、校准问题和环境因素。通过识别这些来源，工程师可以采取纠正措施，例如定期维护、重新校准传感器或采取保护措施以抵御环境影响。总之，动态误差这一概念在工程和技术领域至关重要。它突显了在动态系统中追求精度时面临的挑战。通过采用反馈控制系统、先进算法和彻底的故障排除技术，工程师可以致力于最小化动态误差并改善系统的整体性能和可靠性。随着技术的不断进步，理解和解决动态误差的重要性只会增加，这使其成为未来自动化和机器人创新的关键焦点。