automatic calibration

简明释义

自动校准

英英释义

例句

1.The new printer features automatic calibration, ensuring that the colors are always accurate.

这款新打印机具有自动校准功能，确保颜色始终准确。

2.With automatic calibration, the drone can adjust its sensors in real-time for better navigation.

通过自动校准，无人机可以实时调整其传感器以获得更好的导航。

3.Our software includes automatic calibration tools that help users optimize their settings effortlessly.

我们的软件包括自动校准工具，帮助用户轻松优化设置。

4.The gaming console has automatic calibration for the motion sensors, enhancing the user experience.

这款游戏主机具有自动校准的运动传感器，提升了用户体验。

5.The telescope uses automatic calibration to align itself with celestial bodies without manual input.

这台望远镜使用自动校准来与天体对齐，无需人工输入。

作文

In today's rapidly advancing technological landscape, the concept of automatic calibration has become increasingly significant. 自动校准 refers to the process by which a device or system can self-adjust its parameters to ensure accurate measurements and performance without the need for manual intervention. This capability is particularly important in various fields, including manufacturing, robotics, and environmental monitoring.One of the primary advantages of automatic calibration is the enhancement of precision in measurements. For instance, in industrial settings, machines often rely on sensors to gather data about their surroundings or operational status. If these sensors are not calibrated correctly, the data they provide can lead to faulty decisions, resulting in product defects or operational inefficiencies. By implementing automatic calibration, these machines can continuously monitor their sensors' performance and make necessary adjustments in real-time, ensuring that the data remains reliable.Moreover, automatic calibration significantly reduces downtime in production processes. Traditionally, calibration required shutting down equipment and manually adjusting settings, which could take hours or even days, depending on the complexity of the machinery. With automatic calibration, systems can self-correct while operating, minimizing interruptions and maintaining productivity. This is especially advantageous in industries where time is money, such as automotive manufacturing or electronics production.Another critical aspect of automatic calibration is its role in enhancing safety. In sectors like aerospace and healthcare, precise measurements are crucial. For example, in medical devices such as infusion pumps, any error in dosage can have severe consequences for patient health. Automatic calibration ensures that these devices operate within the correct parameters, thereby safeguarding against potential hazards.Furthermore, automatic calibration contributes to the overall efficiency of systems. With the ability to self-adjust, devices can optimize their performance based on changing conditions. For instance, in environmental monitoring stations that measure air quality, automatic calibration allows sensors to adapt to varying environmental factors, providing more accurate and timely data for decision-makers.The implementation of automatic calibration technologies also supports sustainability efforts. By ensuring that equipment operates at peak efficiency, businesses can reduce waste and lower their energy consumption. This is particularly relevant in the context of global efforts to combat climate change, where every small improvement in efficiency can contribute to significant environmental benefits.Despite these advantages, the adoption of automatic calibration systems is not without challenges. The initial investment in technology and training can be substantial, and there may be resistance from employees accustomed to traditional calibration methods. However, as organizations recognize the long-term benefits of enhanced accuracy, reduced downtime, and improved safety, the shift towards automatic calibration is likely to gain momentum.In conclusion, automatic calibration represents a transformative advancement in how we approach measurement and control in various industries. By embracing this technology, organizations can achieve greater accuracy, efficiency, and safety in their operations. As we move forward into an era defined by rapid technological progress, the importance of automatic calibration will only continue to grow, shaping the future of industrial processes, healthcare, and beyond.

在当今快速发展的科技环境中，自动校准 的概念变得越来越重要。自动校准 指的是一种设备或系统能够自我调整其参数，以确保准确的测量和性能，而无需人工干预。这种能力在制造、机器人技术和环境监测等多个领域尤为重要。自动校准 的主要优势之一是提高了测量的精确性。例如，在工业环境中，机器通常依赖传感器收集有关周围环境或操作状态的数据。如果这些传感器没有正确校准，它们提供的数据可能导致错误的决策，从而导致产品缺陷或操作效率低下。通过实施 自动校准，这些机器可以持续监控其传感器的性能，并实时进行必要的调整，从而确保数据的可靠性。此外，自动校准 显著减少了生产过程中的停机时间。传统上，校准需要关闭设备并手动调整设置，这可能需要数小时甚至数天，具体取决于机器的复杂性。通过 自动校准，系统可以在运行时自我修正，最小化中断并保持生产力。这在汽车制造或电子生产等时间就是金钱的行业中尤其具有优势。自动校准 的另一个关键方面是增强安全性的作用。在航空航天和医疗保健等行业，精确的测量至关重要。例如，在输液泵等医疗设备中，剂量的任何错误都可能对患者健康产生严重后果。自动校准 确保这些设备在正确的参数范围内运行，从而保护潜在的危险。此外，自动校准 有助于系统的整体效率。凭借自我调整的能力，设备可以根据变化的条件优化其性能。例如，在测量空气质量的环境监测站中，自动校准 允许传感器适应不同的环境因素，从而为决策者提供更准确和及时的数据。实施 自动校准 技术也支持可持续发展努力。通过确保设备以最佳效率运行，企业可以减少浪费，降低能源消耗。这在全球应对气候变化的背景下尤为相关，因为每一点小的效率改善都能带来显著的环境效益。尽管有这些优点，采用 自动校准 系统并非没有挑战。初期的技术和培训投资可能相当可观，而且可能会遭遇来自习惯于传统校准方法的员工的抵制。然而，随着组织认识到提高准确性、减少停机时间和改善安全性的长期益处，向 自动校准 的转变可能会加速。总之，自动校准 代表了我们在各个行业中如何处理测量和控制的变革性进步。通过接受这项技术，组织可以在运营中实现更高的准确性、效率和安全性。随着我们进入一个由快速技术进步定义的时代，自动校准 的重要性只会继续增长，塑造工业流程、医疗保健等领域的未来。