calibration step

简明释义

1. 校准台阶; 2. 校准步长;

英英释义

例句

1.Make sure to follow the calibration step 校准步骤 outlined in the manual to avoid any issues.

确保遵循手册中概述的校准步骤以避免任何问题。

2.Before starting the experiment, we need to complete the calibration step 校准步骤 to ensure accurate measurements.

在开始实验之前，我们需要完成校准步骤以确保测量的准确性。

3.The calibration step 校准步骤 is crucial for ensuring the accuracy of the scientific instruments used.

对于确保所用科学仪器的准确性，校准步骤至关重要。

4.The technician explained that skipping the calibration step 校准步骤 could lead to faulty results.

技术人员解释说，跳过校准步骤可能会导致错误的结果。

5.In our software, the calibration step 校准步骤 allows users to adjust settings for optimal performance.

在我们的软件中，校准步骤允许用户调整设置以获得最佳性能。

作文

In various fields of science and engineering, precision is paramount. One crucial aspect of ensuring accuracy in measurements and data collection is the calibration step. The calibration step refers to the process of adjusting the output or indication on a measuring instrument to correspond accurately to the value of the applied standard. This is essential because even the most sophisticated instruments can produce errors due to various factors such as environmental conditions, wear and tear, or inherent limitations in the technology used. For instance, in the field of chemistry, when conducting experiments, scientists often rely on precise measurements of substances. If a scale is not properly calibrated, the results can lead to incorrect conclusions, potentially affecting the entire experiment. Thus, the calibration step becomes a fundamental procedure before any significant measurements are taken. It ensures that the instruments reflect true values, thereby enhancing the reliability of experimental outcomes.Similarly, in the realm of engineering, especially in manufacturing processes, the calibration step plays a vital role. For example, when assembling machinery, engineers must ensure that all components meet specific tolerances. If a tool used to measure these tolerances is not calibrated, it could result in parts that do not fit correctly, leading to malfunctions or safety hazards. Therefore, implementing a systematic calibration step is essential for maintaining quality control in production lines.Moreover, in the age of technology, where data-driven decisions are commonplace, the calibration step is also critical in software development and machine learning. Algorithms often require tuning to ensure they function optimally. During the training phase of a machine learning model, a calibration step is necessary to adjust the model parameters based on validation data. This adjustment helps in minimizing errors and improving the model's predictive capabilities. Without this step, the model might perform well on training data but poorly on unseen data, which is a common issue known as overfitting.Furthermore, the importance of the calibration step extends beyond just technical fields; it is also applicable in everyday life. For example, when using a thermometer to check for fever, it is crucial that the device has undergone a proper calibration step. An uncalibrated thermometer might show a false reading, leading to unnecessary panic or complacency regarding one's health. Thus, understanding and applying the calibration step can have significant implications, even in simple daily tasks.In conclusion, the calibration step is an indispensable part of various disciplines that involve measurement and data analysis. Its significance cannot be overstated, as it directly influences the accuracy and reliability of results across scientific research, engineering practices, technological developments, and even everyday activities. By prioritizing the calibration step, we can ensure that our tools and methods yield trustworthy results, ultimately contributing to progress and innovation in our respective fields.

在科学和工程的各个领域，精确性至关重要。确保测量和数据收集准确性的重要方面之一是校准步骤。校准步骤指的是调整测量仪器的输出或指示，使其准确对应于施加标准的值的过程。这一点至关重要，因为即使是最复杂的仪器也可能由于环境条件、磨损或所用技术的固有限制等各种因素而产生错误。例如，在化学领域，当进行实验时，科学家通常依赖于对物质的精确测量。如果一个秤没有正确校准，结果可能会导致错误的结论，从而影响整个实验。因此，在进行任何重要测量之前，校准步骤成为一项基本程序。它确保仪器反映真实值，从而增强实验结果的可靠性。同样，在工程领域，尤其是在制造过程中，校准步骤也发挥着重要作用。例如，在组装机械时，工程师必须确保所有组件符合特定公差。如果用于测量这些公差的工具未经过校准，可能导致部件不正确配合，从而导致故障或安全隐患。因此，实施系统的校准步骤对于维护生产线的质量控制至关重要。此外，在科技时代，数据驱动的决策已成为常态，校准步骤在软件开发和机器学习中同样至关重要。算法通常需要调整，以确保它们能够最佳运行。在机器学习模型的训练阶段，进行校准步骤是必要的，以根据验证数据调整模型参数。这种调整有助于最小化错误并提高模型的预测能力。如果没有这一步，模型可能在训练数据上表现良好，但在未见过的数据上表现不佳，这是一种常见的问题，称为过拟合。此外，校准步骤的重要性不仅限于技术领域；它在日常生活中也适用。例如，当使用温度计检查发烧时，确保设备经过适当的校准步骤至关重要。未校准的温度计可能会显示虚假的读数，导致不必要的恐慌或对健康的掉以轻心。因此，理解和应用校准步骤在简单的日常任务中也会产生重要影响。总之，校准步骤是涉及测量和数据分析的各个学科中不可或缺的一部分。其重要性不容小觑，因为它直接影响科学研究、工程实践、技术发展甚至日常活动中结果的准确性和可靠性。通过优先考虑校准步骤，我们可以确保我们的工具和方法产生可靠的结果，从而最终促进我们各自领域的进步和创新。