anchored radio sonobuoy

简明释义

锚泊无线电声纳浮标;

英英释义

例句

1.The research vessel utilized an anchored radio sonobuoy to collect data on marine life.

研究船利用固定式无线声呐浮标收集海洋生物的数据。

2.By using an anchored radio sonobuoy, we were able to track the movements of submarines in real-time.

通过使用固定式无线声呐浮标，我们能够实时追踪潜艇的动向。

3.The naval team deployed an anchored radio sonobuoy to monitor underwater activity.

海军团队部署了一个固定式无线声呐浮标以监测水下活动。

4.The deployment of an anchored radio sonobuoy is essential for effective anti-submarine warfare.

部署固定式无线声呐浮标对于有效的反潜战是必不可少的。

5.During the exercise, the anchored radio sonobuoy provided crucial information about enemy submarine locations.

在演习期间，固定式无线声呐浮标提供了关于敌方潜艇位置的重要信息。

作文

In the realm of underwater acoustics, the term anchored radio sonobuoy refers to a specialized device used for detecting and monitoring sounds underwater. These devices are crucial for various applications, including military operations, environmental studies, and marine biology. Understanding the functionality and significance of an anchored radio sonobuoy can provide insights into how we explore and protect our oceans. An anchored radio sonobuoy typically consists of a buoy that is anchored to the seabed, equipped with hydrophones that listen for acoustic signals in the water. The buoy floats on the surface while the hydrophones are submerged, allowing them to capture sounds from various sources, such as marine life, ships, or submarines. The data collected by the hydrophones is then transmitted via radio signals back to a receiving station on a ship or land-based facility, making it possible to analyze the underwater environment in real-time. One of the primary uses of anchored radio sonobuoys is in anti-submarine warfare (ASW). Military forces utilize these devices to detect enemy submarines by listening for the unique sounds they produce. By deploying multiple sonobuoys in a strategic pattern, naval forces can create a comprehensive acoustic picture of the underwater environment, helping them locate and track submarines effectively. This capability is essential for maintaining maritime security and safeguarding national interests. Beyond military applications, anchored radio sonobuoys also play a vital role in scientific research. Marine biologists use these devices to study the behaviors and communication patterns of marine animals, such as whales and dolphins. By capturing the sounds produced by these creatures, researchers can gain valuable insights into their social structures, mating calls, and responses to environmental changes. This information is crucial for conservation efforts and understanding the impacts of human activities on marine ecosystems. Additionally, anchored radio sonobuoys are employed in environmental monitoring. They can help detect changes in underwater soundscapes, which may indicate shifts in marine populations or the presence of anthropogenic noise pollution. By analyzing these sound patterns, scientists can assess the health of marine environments and make informed decisions about conservation strategies. The technology behind anchored radio sonobuoys has evolved significantly over the years. Modern sonobuoys are equipped with advanced sensors and communication systems, allowing for higher sensitivity and more accurate data transmission. Some models even incorporate artificial intelligence algorithms to analyze sound data in real-time, enhancing the ability to identify specific sounds and improve detection capabilities. In conclusion, the anchored radio sonobuoy is a powerful tool that serves multiple purposes in both military and scientific fields. Its ability to monitor underwater sounds provides critical information for national defense, marine biology, and environmental conservation. As technology continues to advance, the potential applications of anchored radio sonobuoys will expand, further enhancing our understanding of the underwater world and our ability to protect it.

在水下声学领域，术语锚定无线声纳浮标指的是一种用于检测和监测水下声音的专用设备。这些设备对于军事行动、环境研究和海洋生物学等各种应用至关重要。理解锚定无线声纳浮标的功能和重要性可以为我们探索和保护海洋提供洞察。 锚定无线声纳浮标通常由一个锚定在海底的浮标组成，配备有水听器，用于监听水中的声学信号。浮标漂浮在水面上，而水听器则浸没在水中，使其能够捕捉来自各种来源的声音，例如海洋生物、船只或潜艇。水听器收集的数据通过无线信号传输回船只或陆基设施的接收站，从而使实时分析水下环境成为可能。 锚定无线声纳浮标的主要用途之一是在反潜战（ASW）中。军事力量利用这些设备通过监听潜艇产生的独特声音来探测敌方潜艇。通过在战略模式中部署多个声纳浮标，海军力量可以创建水下环境的综合声学图像，帮助他们有效地定位和追踪潜艇。这一能力对于维护海洋安全和保护国家利益至关重要。 除了军事应用，锚定无线声纳浮标在科学研究中也发挥着重要作用。海洋生物学家使用这些设备研究海洋动物的行为和交流模式，例如鲸鱼和海豚。通过捕捉这些生物发出的声音，研究人员可以获得有关它们社会结构、交配呼叫和对环境变化反应的宝贵见解。这些信息对于保护工作和理解人类活动对海洋生态系统的影响至关重要。 此外，锚定无线声纳浮标还被用于环境监测。它们可以帮助检测水下声景的变化，这可能表明海洋种群的变化或人为噪音污染的存在。通过分析这些声音模式，科学家可以评估海洋环境的健康状况，并就保护策略做出明智的决策。 锚定无线声纳浮标背后的技术多年来已显著发展。现代声纳浮标配备了先进的传感器和通信系统，允许更高的敏感度和更准确的数据传输。一些型号甚至结合了人工智能算法，以实时分析声音数据，提高识别特定声音和改善探测能力。 总之，锚定无线声纳浮标是一种强大的工具，在军事和科学领域都发挥着多重作用。它监测水下声音的能力为国家防御、海洋生物学和环境保护提供了关键的信息。随着技术的不断进步，锚定无线声纳浮标的潜在应用将不断扩展，进一步增强我们对水下世界的理解和保护能力。