anchored radio sonobuoy

简明释义

锚泊无线电声纳浮标

英英释义

例句

1.Using an anchored radio sonobuoy 锚定无线声呐浮标, researchers were able to track whale migrations more effectively.

研究人员利用一个锚定无线声呐浮标 锚定无线声呐浮标更有效地追踪鲸鱼迁徙。

2.The anchored radio sonobuoy 锚定无线声呐浮标 provided critical data for the anti-submarine warfare exercises.

该锚定无线声呐浮标 锚定无线声呐浮标为反潜战演习提供了重要数据。

3.The effectiveness of the anchored radio sonobuoy 锚定无线声呐浮标 was demonstrated during the field trials.

在现场试验中，锚定无线声呐浮标 锚定无线声呐浮标的有效性得到了证明。

4.The naval team deployed an anchored radio sonobuoy 锚定无线声呐浮标 to monitor submarine activity in the area.

海军团队部署了一个锚定无线声呐浮标 锚定无线声呐浮标以监测该地区的潜艇活动。

5.During the training mission, the crew successfully deployed an anchored radio sonobuoy 锚定无线声呐浮标 to gather acoustic data.

在训练任务中，机组成功部署了一个锚定无线声呐浮标 锚定无线声呐浮标以收集声学数据。

作文

In the realm of maritime surveillance and underwater acoustics, advanced technologies play a crucial role in ensuring safety and security. One such technology is the anchored radio sonobuoy, which has become an essential tool for naval operations and oceanographic research. Understanding this term requires delving into its components and functions, as well as its significance in various applications.A sonobuoy is a device that is deployed in water to detect underwater sounds, particularly those generated by submarines, marine life, or geological activities. The term 'anchored' refers to the method by which this device is secured to the seabed, allowing it to remain in a fixed position while it collects data. This stability is vital for accurate sound detection and analysis, as it minimizes the effects of water currents and surface disturbances.The anchored radio sonobuoy operates by utilizing hydrophones, which are sensitive microphones designed to pick up sound waves traveling through water. Once deployed, the sonobuoy transmits the collected acoustic data via radio signals to a receiving station, typically located on a ship or an aircraft. This real-time transmission allows for immediate analysis and decision-making, which is critical in military operations where time is of the essence.One of the primary applications of the anchored radio sonobuoy is in anti-submarine warfare (ASW). In this context, naval forces use these devices to monitor and track the movements of enemy submarines. By analyzing the sounds emitted by submarines, such as engine noise or propeller cavitation, military personnel can determine their location and movement patterns. This information is invaluable for strategic planning and operational success.Beyond military applications, the anchored radio sonobuoy is also employed in scientific research. Marine biologists utilize these devices to study the behavior and communication patterns of marine mammals, such as whales and dolphins. By capturing and analyzing the sounds produced by these animals, researchers can gain insights into their social structures, migration patterns, and responses to environmental changes. This data is crucial for conservation efforts and understanding the health of marine ecosystems.Furthermore, the anchored radio sonobuoy contributes to geological studies by monitoring underwater seismic activity. Scientists can detect and analyze sounds related to earthquakes or volcanic activity, providing valuable information about tectonic movements and potential natural disasters. This early warning capability can save lives and mitigate damage in coastal communities.In conclusion, the anchored radio sonobuoy represents a significant advancement in both military and scientific fields. Its ability to provide stable, real-time acoustic data makes it an indispensable tool for underwater monitoring and research. As technology continues to evolve, the applications and effectiveness of the anchored radio sonobuoy will likely expand, leading to enhanced capabilities in maritime security and environmental understanding. By grasping the importance of this technology, we can appreciate the intricate relationship between humans and the vast oceans that cover our planet.

在海洋监视和水下声学领域，先进技术在确保安全和保障方面发挥着至关重要的作用。其中一种技术是锚定无线声纳浮标，它已成为海军作战和海洋科学研究的重要工具。理解这个术语需要深入探讨其组成部分和功能，以及它在各种应用中的重要性。声纳浮标是一种部署在水中的设备，用于检测水下声音，特别是由潜艇、海洋生物或地质活动产生的声音。“锚定”一词指的是这种设备固定在海床上的方式，使其在收集数据时保持在固定位置。这种稳定性对于准确的声音检测和分析至关重要，因为它可以最大限度地减少水流和表面扰动的影响。锚定无线声纳浮标通过利用水听器工作，水听器是设计用于拾取穿过水传播的声波的敏感麦克风。一旦部署，声纳浮标通过无线信号将收集到的声学数据传输到接收站，通常位于船只或飞机上。这种实时传输允许立即分析和决策，这在军事行动中至关重要，因为时间至关重要。锚定无线声纳浮标的主要应用之一是在反潜战（ASW）中。在这种情况下，海军利用这些设备监测和追踪敌方潜艇的移动。通过分析潜艇发出的声音，例如发动机噪音或螺旋桨气蚀，军事人员可以确定潜艇的位置和移动模式。这些信息对战略规划和作战成功至关重要。除了军事应用，锚定无线声纳浮标还用于科学研究。海洋生物学家利用这些设备研究海洋哺乳动物的行为和交流模式，例如鲸鱼和海豚。通过捕捉和分析这些动物发出的声音，研究人员可以深入了解它们的社会结构、迁徙模式和对环境变化的反应。这些数据对于保护工作和了解海洋生态系统的健康至关重要。此外，锚定无线声纳浮标还通过监测水下地震活动为地质研究做出贡献。科学家可以检测和分析与地震或火山活动相关的声音，为构造运动和潜在自然灾害提供宝贵的信息。这种早期预警能力可以拯救生命并减轻沿海社区的损失。总之，锚定无线声纳浮标代表了军事和科学领域的重要进展。它提供稳定的实时声学数据的能力使其成为水下监测和研究不可或缺的工具。随着技术的不断发展，锚定无线声纳浮标的应用和有效性可能会扩大，从而增强海洋安全和环境理解的能力。通过掌握这项技术的重要性，我们可以欣赏人类与覆盖我们星球的广阔海洋之间错综复杂的关系。