active electromagnetic sensing system

简明释义

主动式电磁传感系统;

英英释义

例句

1.The active electromagnetic sensing system installed in the vehicle enhances its navigation capabilities.

安装在车辆上的主动电磁探测系统增强了其导航能力。

2.The military has developed an active electromagnetic sensing system for surveillance purposes.

军方开发了一种用于监视的主动电磁探测系统。

3.In agriculture, an active electromagnetic sensing system can help monitor soil conditions and crop health.

在农业中，主动电磁探测系统可以帮助监测土壤状况和作物健康。

4.Scientists are using an active electromagnetic sensing system to study the geological formations beneath the ocean floor.

科学家们正在使用主动电磁探测系统研究海底下的地质构造。

5.The new drone is equipped with an active electromagnetic sensing system that allows it to detect obstacles in real-time.

这款新型无人机配备了一个主动电磁探测系统，可以实时检测障碍物。

作文

In recent years, the field of sensing technology has witnessed remarkable advancements, particularly with the development of the active electromagnetic sensing system (主动电磁感应系统). This innovative technology utilizes electromagnetic waves to detect and analyze various physical phenomena, making it a crucial tool in numerous applications ranging from environmental monitoring to security systems. The active electromagnetic sensing system operates by emitting electromagnetic signals that interact with objects in their vicinity. These signals can be reflected, refracted, or absorbed, allowing the system to gather valuable information about the characteristics and movements of these objects.One of the most significant advantages of the active electromagnetic sensing system is its ability to operate effectively in diverse conditions. Unlike passive systems, which rely on external sources of electromagnetic radiation, active systems generate their own signals. This capability enables them to function optimally in low visibility environments, such as fog, smoke, or even underwater. For example, in maritime operations, the active electromagnetic sensing system can be used to identify submerged objects, monitor ships' movements, and enhance navigational safety.Moreover, the active electromagnetic sensing system plays an essential role in various scientific research fields. In geophysical studies, researchers utilize this technology to explore subsurface structures, helping to locate natural resources like oil and gas. By analyzing the reflected signals, scientists can create detailed maps of geological formations, aiding in resource management and environmental protection.The application of the active electromagnetic sensing system is not limited to scientific research; it also extends to everyday life. In the realm of consumer electronics, this technology is employed in devices such as smartphones and smart home systems. For instance, many modern smartphones incorporate features like gesture recognition and proximity sensing, which rely on the principles of active electromagnetic sensing. This integration enhances user experience by providing intuitive control options and automation capabilities.Furthermore, the security industry has greatly benefited from the implementation of the active electromagnetic sensing system. Surveillance systems equipped with this technology can detect unauthorized access and monitor large areas effectively. By utilizing advanced algorithms to analyze the data collected from electromagnetic signals, security personnel can respond promptly to potential threats, ensuring a safer environment.In conclusion, the active electromagnetic sensing system (主动电磁感应系统) represents a significant leap forward in sensing technology. Its versatility and effectiveness in various applications make it an invaluable asset across multiple industries. As research and development continue to advance, we can expect even more innovative uses for this technology in the future, further enhancing our ability to understand and interact with the world around us. From environmental monitoring to enhancing personal security, the impact of the active electromagnetic sensing system will undoubtedly shape the technological landscape for years to come.

近年来，传感技术领域见证了显著的进步，特别是随着主动电磁感应系统（active electromagnetic sensing system）的发展。这项创新技术利用电磁波来检测和分析各种物理现象，使其成为从环境监测到安全系统等众多应用中的重要工具。主动电磁感应系统通过发射电磁信号与周围物体相互作用。这些信号可以被反射、折射或吸收，从而使系统能够收集关于这些物体特征和运动的宝贵信息。主动电磁感应系统的一个显著优点是它能够在多种条件下有效运行。与依赖外部电磁辐射源的被动系统不同，主动系统自身生成信号。这种能力使它们能够在低能见度环境中最佳工作，例如雾、烟甚至水下。例如，在海上作业中，主动电磁感应系统可用于识别水下物体、监测船只运动并增强导航安全性。此外，主动电磁感应系统在各个科学研究领域中扮演着至关重要的角色。在地球物理研究中，研究人员利用这项技术探索地下结构，帮助定位石油和天然气等自然资源。通过分析反射信号，科学家可以创建地质构造的详细地图，促进资源管理和环境保护。主动电磁感应系统的应用不仅限于科学研究；它还扩展到日常生活中。在消费电子产品领域，这项技术被应用于智能手机和智能家居系统等设备中。例如，许多现代智能手机集成了手势识别和接近传感等功能，这些功能依赖于主动电磁感应的原理。这种集成通过提供直观的控制选项和自动化能力增强了用户体验。此外，安全行业也极大受益于主动电磁感应系统的实施。配备这项技术的监控系统能够有效检测未经授权的访问并监控广泛区域。通过利用先进算法分析从电磁信号收集的数据，安全人员能够及时对潜在威胁做出反应，确保环境更加安全。总之，主动电磁感应系统（active electromagnetic sensing system）代表了传感技术的一次重大飞跃。它在各种应用中的多功能性和有效性使其成为多个行业中无价的资产。随着研究和开发的持续推进，我们可以期待未来对这项技术的更多创新使用，进一步增强我们理解和与周围世界互动的能力。从环境监测到提升个人安全，主动电磁感应系统的影响无疑将塑造未来多年的技术格局。