infrared ranging and directing

简明释义

红外线测距测向仪

英英释义

例句

1.The military employs infrared ranging and directing for precision targeting.

军方利用红外测距和指引进行精确打击。

2.Surveillance systems use infrared ranging and directing to track moving objects at night.

监控系统使用红外测距和指引在夜间跟踪移动物体。

3.In autonomous vehicles, infrared ranging and directing helps in obstacle detection.

在自动驾驶汽车中，红外测距和指引有助于障碍物检测。

4.The drone used infrared ranging and directing to navigate through the dense forest.

这架无人机使用红外测距和指引在茂密的森林中导航。

5.Robotic arms often rely on infrared ranging and directing to perform complex tasks.

机器人手臂通常依赖于红外测距和指引来执行复杂任务。

作文

In recent years, technological advancements have significantly transformed various industries, particularly in the fields of robotics and automation. One of the most fascinating developments is the application of infrared ranging and directing (红外测距与导引) systems. These systems utilize infrared light to measure distances and guide objects with remarkable precision. This essay will explore the principles behind infrared ranging and directing, its applications, and its impact on modern technology.The fundamental principle of infrared ranging and directing lies in the emission of infrared light waves. When these waves encounter an object, they reflect back to the source. By calculating the time it takes for the light to return, the system can determine the distance to the object. This method is not only efficient but also highly accurate, making it ideal for a variety of applications.One of the most prominent uses of infrared ranging and directing is in autonomous vehicles. These vehicles rely on advanced sensors to navigate their environment safely. The integration of infrared ranging and directing technology allows them to detect obstacles, measure distances accurately, and make real-time decisions. For instance, when an autonomous car approaches a pedestrian, the infrared ranging and directing system can quickly assess the distance between the vehicle and the pedestrian, enabling the car to slow down or stop as necessary.Another significant application of infrared ranging and directing can be found in industrial automation. Many manufacturing processes require precise measurements and control. By incorporating infrared ranging and directing technology, companies can enhance the accuracy of their operations. For example, robotic arms equipped with this technology can pick and place items with exceptional precision, reducing waste and increasing efficiency.Moreover, infrared ranging and directing systems are widely used in the field of healthcare. Medical devices that utilize infrared technology can monitor patients’ vital signs, such as heart rate and temperature, without direct contact. This non-invasive method not only improves patient comfort but also allows for continuous monitoring, which is crucial in critical care settings.The impact of infrared ranging and directing technology extends beyond individual sectors; it has the potential to revolutionize entire industries. For instance, in the realm of smart homes, devices equipped with infrared ranging and directing capabilities can enhance security systems. Cameras can detect movement and measure the distance of intruders, triggering alarms or alerts to homeowners in real-time. This integration of technology contributes to creating safer living environments.Despite the numerous advantages of infrared ranging and directing, it is essential to acknowledge some challenges. Environmental factors, such as fog, rain, or dust, can affect the performance of infrared systems. Therefore, ongoing research and development are necessary to improve the reliability of these technologies under various conditions.In conclusion, the application of infrared ranging and directing technology is transforming industries by enhancing precision and efficiency. From autonomous vehicles to healthcare and smart homes, its impact is profound and far-reaching. As we continue to innovate and refine these systems, the future holds exciting possibilities for the integration of infrared ranging and directing in our everyday lives, paving the way for a more automated and intelligent world.

近年来，技术进步显著改变了各个行业，尤其是在机器人和自动化领域。其中一个最令人着迷的发展是应用红外测距与导引（infrared ranging and directing）系统。这些系统利用红外光来测量距离并以惊人的精确度引导物体。本文将探讨红外测距与导引的原理、应用及其对现代技术的影响。红外测距与导引的基本原理在于发射红外光波。当这些波遇到物体时，会反射回源头。通过计算光返回所需的时间，系统可以确定到物体的距离。这种方法不仅高效，而且高度准确，使其适用于各种应用。红外测距与导引最突出的用途之一是在自主车辆中。这些车辆依靠先进的传感器安全地导航其环境。集成红外测距与导引技术使它们能够检测障碍物、准确测量距离并实时做出决策。例如，当一辆自主汽车接近行人时，红外测距与导引系统可以快速评估车辆与行人之间的距离，从而使汽车减速或停车。另一个重要的红外测距与导引应用可以在工业自动化中找到。许多制造过程需要精确的测量和控制。通过结合红外测距与导引技术，公司可以提高操作的准确性。例如，配备此技术的机器人臂可以以极高的精确度抓取和放置物品，从而减少浪费并提高效率。此外，红外测距与导引系统在医疗领域广泛使用。利用红外技术的医疗设备可以监测患者的生命体征，如心率和温度，而无需直接接触。这种非侵入性的方法不仅改善了患者的舒适度，还允许持续监测，这在重症监护环境中至关重要。红外测距与导引技术的影响超越了单一行业；它有潜力彻底改变整个行业。例如，在智能家居领域，配备红外测距与导引能力的设备可以增强安全系统。摄像头可以检测运动并测量入侵者的距离，实时触发警报或通知房主。这种技术的整合有助于创造更安全的居住环境。尽管红外测距与导引有众多优点，但也必须承认一些挑战。环境因素，如雾、雨或灰尘，可能会影响红外系统的性能。因此，持续的研究和开发对于提高这些技术在各种条件下的可靠性是必要的。总之，红外测距与导引技术的应用正在通过提高精确度和效率来改变各个行业。从自主车辆到医疗保健和智能家居，其影响深远且广泛。随着我们继续创新和完善这些系统，未来在日常生活中集成红外测距与导引的可能性令人兴奋，为更加自动化和智能化的世界铺平道路。