detection range

简明释义

探测距离

英英释义

例句

1.The radar system has a maximum detection range of 200 kilometers.

该雷达系统的最大探测范围为200公里。

2.The sonar's detection range is crucial for locating submarines underwater.

声纳的探测范围对于定位水下潜艇至关重要。

3.In the new model, we improved the detection range to enhance security monitoring.

在新模型中，我们提高了探测范围以增强安全监控。

4.The detection range of the thermal camera allows it to identify targets even in complete darkness.

热成像摄像头的探测范围使其能够在完全黑暗中识别目标。

5.A larger detection range means that the drone can cover more area during its flight.

更大的探测范围意味着无人机在飞行期间可以覆盖更大的区域。

作文

In the field of technology and science, the term detection range refers to the maximum distance at which a device can accurately identify or sense an object or phenomenon. This concept is crucial in various applications, from military operations to wildlife monitoring. Understanding the detection range of a system can significantly influence its effectiveness and efficiency. For instance, in radar technology, the detection range determines how far away an aircraft can be detected. A longer detection range allows for earlier warnings, which can be vital in defense scenarios. Similarly, in environmental studies, the detection range of sensors used to monitor pollution can help researchers understand the spread of contaminants over large areas. By knowing the detection range, scientists can design better experiments and make more informed decisions about environmental protection measures.Moreover, advancements in technology have continually improved the detection range of various devices. For example, modern sonar systems used in submarines can detect objects underwater at much greater distances than their predecessors. This enhancement not only increases the operational capabilities of naval forces but also aids in marine research, allowing scientists to explore ocean depths that were previously inaccessible. In everyday life, technologies such as motion sensors in security systems rely heavily on their detection range. Homeowners can feel more secure knowing that these sensors can detect movement from a considerable distance, thereby providing comprehensive coverage of their property.The implications of detection range extend beyond mere technical specifications; they also impact strategic planning and resource allocation. For example, in search and rescue operations, understanding the detection range of drones equipped with thermal imaging can drastically improve the chances of locating missing persons in vast terrains. If the detection range is limited, rescuers may need to deploy multiple units to cover the same area, increasing the time and resources required for the mission. Thus, optimizing the detection range of such devices is paramount for improving response times and saving lives.However, it is important to note that the detection range can be affected by several factors including environmental conditions, the presence of obstacles, and the technology used. For instance, weather conditions such as fog or heavy rain can reduce the detection range of optical sensors, making them less effective. Similarly, physical barriers like buildings or trees can obstruct signals, further limiting the detection range of wireless communication devices. As a result, engineers and developers must consider these variables when designing systems to ensure optimal performance.In conclusion, the detection range is a fundamental aspect of many technological systems that plays a critical role in their functionality and application. Whether in military, environmental, or everyday contexts, understanding and optimizing the detection range can lead to significant improvements in safety, efficiency, and effectiveness. As technology continues to advance, we can expect further enhancements in detection range, allowing us to push the boundaries of what is possible in various fields. The ongoing research and development aimed at expanding the detection range will undoubtedly yield exciting new possibilities for the future.

在科技和科学领域，术语检测范围指的是设备能够准确识别或感知对象或现象的最大距离。这个概念在军事行动到野生动物监测等各种应用中至关重要。理解一个系统的检测范围可以显著影响其有效性和效率。例如，在雷达技术中，检测范围决定了飞机可以被探测的距离。更长的检测范围允许更早的警告，这在防御场景中可能至关重要。同样，在环境研究中，用于监测污染的传感器的检测范围可以帮助研究人员了解污染物在大面积上的传播。通过了解检测范围，科学家可以设计更好的实验并就环境保护措施做出更明智的决策。此外，技术的进步不断提高了各种设备的检测范围。例如，现代潜艇使用的声纳系统可以在水下更远的距离探测物体。这种增强不仅增加了海军力量的作战能力，还帮助海洋研究，使科学家能够探索以前无法到达的海洋深处。在日常生活中，安全系统中的运动传感器在很大程度上依赖于其检测范围。房主可以更加安心，因为这些传感器可以在相当大的距离内检测到运动，从而提供全面的财产覆盖。检测范围的影响超出了单纯的技术规格；它们还影响战略规划和资源分配。例如，在搜救行动中，了解配备热成像的无人机的检测范围可以极大地提高在广阔地形中寻找失踪人员的机会。如果检测范围有限，救援人员可能需要部署多个单位来覆盖同一区域，从而增加了任务所需的时间和资源。因此，优化此类设备的检测范围对于提高响应时间和拯救生命至关重要。然而，需要注意的是，检测范围可能会受到多种因素的影响，包括环境条件、障碍物的存在和所使用的技术。例如，雾或大雨等天气条件可能会降低光学传感器的检测范围，使其效果不佳。同样，建筑物或树木等物理障碍物可能会阻碍信号，从而进一步限制无线通信设备的检测范围。因此，工程师和开发人员在设计系统时必须考虑这些变量，以确保最佳性能。总之，检测范围是许多技术系统的基本方面，在其功能和应用中发挥着关键作用。无论是在军事、环境还是日常背景下，理解和优化检测范围都可以带来安全性、效率和有效性的显著改善。随着技术的不断进步，我们可以期待检测范围的进一步增强，使我们能够在各个领域推动可能性的边界。旨在扩展检测范围的持续研究和开发无疑将为未来带来令人兴奋的新可能性。