radio acoustic ranging

简明释义

电声测距

英英释义

例句

1.In geological studies, radio acoustic ranging helps in mapping the seabed features effectively.

在地质研究中，无线声学测距有助于有效绘制海底特征图。

2.The vessel's navigation system is enhanced with radio acoustic ranging technology for better accuracy.

该船舶的导航系统配备了无线声学测距技术，以提高准确性。

3.The application of radio acoustic ranging in oil exploration has significantly improved resource detection.

在石油勘探中应用无线声学测距显著提高了资源探测能力。

4.By employing radio acoustic ranging, scientists can track the movement of marine animals over large distances.

通过采用无线声学测距，科学家能够追踪海洋动物在大范围内的移动。

5.The research team utilized radio acoustic ranging to measure the distance of underwater objects accurately.

研究团队利用无线声学测距准确测量水下物体的距离。

作文

In recent years, the field of underwater exploration has been revolutionized by advanced technologies. Among these, one particularly fascinating method is known as radio acoustic ranging. This technique combines both radio and acoustic signals to accurately measure distances underwater, providing critical data for various applications such as marine research, navigation, and environmental monitoring.The principle behind radio acoustic ranging lies in the use of sound waves and radio waves. Sound travels well in water, making it an ideal medium for communication and measurement. When a signal is transmitted, it travels through the water and reflects off objects, allowing researchers to determine the distance to those objects based on the time it takes for the signal to return. However, sound waves can be affected by various factors such as temperature, salinity, and pressure, which can lead to inaccuracies in measurements.To overcome these challenges, radio acoustic ranging integrates radio signals, which are less influenced by environmental conditions. By combining these two types of signals, researchers can achieve greater accuracy in their distance measurements. This dual approach allows for real-time data collection and improved navigation capabilities for underwater vehicles and divers.One of the most significant applications of radio acoustic ranging is in the field of marine biology. Scientists can use this technology to track the movements of marine animals, study their behaviors, and assess the health of ecosystems. For instance, researchers have employed radio acoustic ranging to monitor the migration patterns of fish populations, providing valuable insights into their breeding habits and habitat preferences. This information is crucial for effective conservation efforts and sustainable fisheries management.Another important application of radio acoustic ranging is in underwater construction and maintenance. Engineers and construction teams can utilize this technology to precisely map out underwater structures, ensuring that installations are accurate and safe. By using radio acoustic ranging, they can also detect any potential issues or changes in the underwater environment that may affect their projects.Moreover, radio acoustic ranging plays a vital role in naval operations. The military uses this technology for various purposes, including submarine navigation and underwater surveillance. Accurate distance measurements are essential for maintaining the safety and effectiveness of naval missions, and radio acoustic ranging provides the necessary precision in challenging underwater environments.In conclusion, the advent of radio acoustic ranging has significantly enhanced our ability to explore and understand the underwater world. Its unique combination of radio and acoustic signals allows for accurate distance measurements, making it an invaluable tool in marine research, construction, and naval operations. As technology continues to advance, the applications of radio acoustic ranging are likely to expand, leading to even greater discoveries and innovations in underwater exploration. The future of this technology holds great promise, and it will undoubtedly contribute to our understanding of the oceans and the life within them.

近年来，水下探索领域因先进技术的出现而发生了革命性的变化。其中，一个特别引人注目的方法被称为无线声学测距。这种技术结合了无线电和声波信号，以准确测量水下距离，为海洋研究、导航和环境监测等各种应用提供了关键数据。无线声学测距的原理在于使用声波和无线电波。声波在水中传播良好，使其成为通信和测量的理想介质。当信号被传输时，它会通过水传播并反射到物体上，从而使研究人员能够根据信号返回所需的时间来确定与这些物体的距离。然而，声波可能会受到温度、盐度和压力等多种因素的影响，这可能导致测量的不准确。为了克服这些挑战，无线声学测距集成了无线电信号，这些信号不太受环境条件的影响。通过结合这两种类型的信号，研究人员可以在距离测量中实现更高的准确性。这种双重方法允许实时数据收集，提高了水下车辆和潜水员的导航能力。无线声学测距的一个重要应用是在海洋生物学领域。科学家可以利用这项技术追踪海洋动物的运动，研究它们的行为，并评估生态系统的健康。例如，研究人员已经使用无线声学测距监测鱼类种群的迁徙模式，提供有关它们繁殖习性和栖息地偏好的宝贵见解。这些信息对于有效的保护工作和可持续渔业管理至关重要。无线声学测距的另一个重要应用是在水下施工和维护中。工程师和施工团队可以利用这项技术精确绘制水下结构的地图，确保安装的准确性和安全性。通过使用无线声学测距，他们还可以检测可能影响其项目的水下环境中的任何潜在问题或变化。此外，无线声学测距在海军行动中发挥着至关重要的作用。军方利用这项技术进行各种目的，包括潜艇导航和水下监视。准确的距离测量对于维护海军任务的安全性和有效性至关重要，而无线声学测距在具有挑战性的水下环境中提供了必要的精确度。总之，无线声学测距的出现显著增强了我们探索和理解水下世界的能力。其独特的无线电和声波信号组合使得准确的距离测量成为可能，使其成为海洋研究、施工和海军行动中不可或缺的工具。随着技术的不断进步，无线声学测距的应用可能会扩大，带来更多的发现和创新。在水下探索的未来，这项技术充满了希望，毫无疑问将有助于我们理解海洋及其内部生命。