detection range

简明释义

探测距离

英英释义

例句

1.The underwater sonar can detect objects within a detection range of 500 meters.

水下声纳可以在500米的detection range内探测物体。

2.The infrared sensor has a detection range of up to 100 feet.

红外传感器的detection range可达100英尺。

3.In this security system, the detection range is adjustable from 5 to 20 meters.

在这个安全系统中，detection range可调节范围为5到20米。

4.The radar system has a maximum detection range of 300 kilometers.

该雷达系统的最大detection range为300公里。

5.The drone's detection range allows it to monitor large areas efficiently.

无人机的detection range使其能够高效监控大面积区域。

作文

The concept of detection range is crucial in various fields, including military operations, environmental science, and even everyday technology. In essence, detection range refers to the maximum distance at which a system or device can identify or locate an object or phenomenon. This term is particularly significant in the context of radar systems, sonar applications, and surveillance technologies. Understanding the detection range of a particular device can greatly influence its effectiveness and efficiency in performing its intended tasks.In military applications, the detection range of radar systems plays a pivotal role in national security. For instance, air defense systems rely on radar to detect incoming threats, such as enemy aircraft or missiles. A longer detection range allows for earlier warnings and better response times, which can be the difference between success and failure in combat situations. Military strategists must constantly evaluate and enhance the detection range of their systems to maintain a tactical advantage over adversaries.Similarly, in environmental science, the detection range of sensors used to monitor pollution levels or wildlife movements can significantly impact research outcomes. For example, satellite-based sensors have a much broader detection range compared to ground-based monitoring stations. This capability enables scientists to gather data over vast areas, thereby improving our understanding of ecological changes and aiding in conservation efforts. The ability to detect changes in the environment from a distance is essential for timely interventions and policy-making.In the realm of consumer technology, the detection range of devices such as smartphones and smart home systems is also noteworthy. For instance, the detection range of Bluetooth technology determines how far a smartphone can connect to other devices, such as headphones or smart speakers. A longer detection range enhances user convenience, allowing for greater mobility without sacrificing connectivity. As technology continues to evolve, manufacturers strive to improve the detection range of their products, offering users more flexibility and functionality.Moreover, the detection range can vary depending on several factors, including environmental conditions, obstacles, and the technology used. For instance, in urban areas filled with buildings and other structures, the detection range of a radar system may be significantly reduced due to interference. Conversely, in open areas, the detection range can be maximized, allowing for better performance. Thus, it is essential for engineers and developers to consider these variables when designing systems that rely on detection capabilities.In conclusion, the term detection range encompasses a wide array of applications across different fields. Whether in military operations, environmental monitoring, or consumer technology, understanding and optimizing the detection range of various systems can lead to improved outcomes and enhanced performance. As technology progresses, the significance of detection range will only continue to grow, making it a vital concept to grasp in our increasingly connected world.

“探测范围”这一概念在多个领域中至关重要，包括军事行动、环境科学，甚至日常技术。简单来说，“探测范围”指的是一个系统或设备能够识别或定位某个物体或现象的最大距离。这个术语在雷达系统、声纳应用和监视技术的背景下尤为重要。理解特定设备的“探测范围”可以极大地影响其在执行预定任务时的有效性和效率。在军事应用中，雷达系统的“探测范围”在国家安全中起着关键作用。例如，空中防御系统依赖雷达来探测来袭威胁，如敌方飞机或导弹。更长的“探测范围”允许更早的警报和更好的反应时间，这可能是在战斗情况下成功与失败之间的区别。军事战略家必须不断评估和增强其系统的“探测范围”，以保持对对手的战术优势。同样，在环境科学中，用于监测污染水平或野生动物运动的传感器的“探测范围”也会显著影响研究结果。例如，基于卫星的传感器相比于地面监测站具有更广泛的“探测范围”。这种能力使科学家能够在广阔的区域内收集数据，从而改善我们对生态变化的理解，并有助于保护工作。从远处检测环境变化的能力对于及时干预和政策制定至关重要。在消费技术领域，智能手机和智能家居系统等设备的“探测范围”也值得注意。例如，蓝牙技术的“探测范围”决定了智能手机能够连接到其他设备（如耳机或智能音箱）的距离。更长的“探测范围”增强了用户的便利性，使用户在不牺牲连接性的情况下获得更大的移动性。随着技术的不断发展，制造商努力提高其产品的“探测范围”，为用户提供更多的灵活性和功能性。此外，“探测范围”可能会因多种因素而异，包括环境条件、障碍物和使用的技术。例如，在充满建筑物和其他结构的城市地区，雷达系统的“探测范围”可能因干扰而显著降低。相反，在开放区域，“探测范围”可以最大化，从而提高性能。因此，对于依赖探测能力的系统的工程师和开发人员来说，在设计时考虑这些变量是至关重要的。总之，“探测范围”这一术语涵盖了各个领域的广泛应用。无论是在军事行动、环境监测还是消费技术中，理解和优化各种系统的“探测范围”都可以带来更好的结果和增强的性能。随着技术的发展，“探测范围”的重要性只会继续增长，使其成为我们日益互联的世界中需要掌握的重要概念。