sound locator
简明释义
声波定位器
英英释义
例句
1.In the wildlife research project, we used a sound locator 声音定位器 to track animal calls.
在野生动物研究项目中,我们使用了一个声音定位器 sound locator来追踪动物叫声。
2.During the concert, the sound locator 声音定位器 helped the engineers adjust the acoustics.
在音乐会期间,声音定位器 sound locator帮助工程师调整音响效果。
3.The security team installed a sound locator 声音定位器 to detect unauthorized sounds in the building.
安保团队安装了一个声音定位器 sound locator以检测建筑物内的未授权声音。
4.The marine biologists utilized a sound locator 声音定位器 to monitor whale songs.
海洋生物学家利用一个声音定位器 sound locator来监测鲸鱼的歌声。
5.The new drone is equipped with a sound locator 声音定位器 to help locate lost hikers.
这款新型无人机配备了一个声音定位器 sound locator,以帮助寻找迷路的徒步旅行者。
作文
In today's technologically advanced world, the need for efficient and precise tools has become increasingly important. One such tool that has gained prominence in various fields is the sound locator. A sound locator is a device or system designed to identify the direction and distance of a sound source. This technology has applications in numerous areas, including wildlife research, military operations, and even in urban planning. Understanding how a sound locator works can provide insights into its significance and potential uses.The basic principle behind a sound locator involves the detection of sound waves. When a sound is produced, it travels through the air as a wave. The sound locator uses an array of microphones or sensors to capture these sound waves from different angles. By analyzing the time it takes for the sound to reach each microphone, the system can triangulate the position of the sound source. This method allows for accurate localization, which is crucial in many scenarios.In wildlife research, for example, a sound locator can be employed to track animal movements and behaviors. Researchers can monitor the calls of birds or the sounds made by other animals to gather data on their population dynamics and habitat use. This non-invasive approach minimizes disturbance to the wildlife while providing valuable information for conservation efforts. Similarly, in military applications, a sound locator can help in identifying the location of enemy gunfire or other sounds, aiding in strategic decision-making and enhancing safety for personnel on the ground.Urban planners can also benefit from the use of sound locators. In densely populated areas, noise pollution is a significant concern. By utilizing these devices, planners can assess sound levels across different locations and identify sources of excessive noise. This information can guide the implementation of noise reduction strategies, ultimately improving the quality of life for residents.Moreover, advancements in technology have led to the development of sophisticated sound locators that incorporate artificial intelligence and machine learning. These modern systems can not only detect sounds but also classify them based on their characteristics. For instance, they can differentiate between human voices, animal sounds, and mechanical noises. This capability opens up new possibilities for research and practical applications, such as smart city initiatives where sound data can inform urban management and public safety measures.Despite the benefits, there are challenges associated with the use of sound locators. Environmental factors, such as wind and temperature, can affect sound propagation, leading to inaccuracies in localization. Additionally, privacy concerns arise when deploying these devices in public spaces, as they could potentially capture private conversations or sensitive information. Therefore, ethical considerations must be taken into account when utilizing sound locators in various contexts.In conclusion, the sound locator is a remarkable tool that enhances our ability to understand and interact with our environment. Its applications span across multiple fields, providing valuable insights and aiding in decision-making processes. As technology continues to evolve, the potential uses of sound locators will likely expand, paving the way for innovative solutions to contemporary challenges. However, it is essential to balance the advantages of this technology with ethical considerations to ensure responsible usage. The future of sound locators holds great promise, and their role in society will undoubtedly continue to grow.
在当今技术先进的世界中,高效和精确工具的需求变得越来越重要。其中一种在各个领域中逐渐受到重视的工具是声音定位器。声音定位器是一种旨在识别声音来源方向和距离的设备或系统。这项技术在多个领域都有应用,包括野生动物研究、军事行动,甚至城市规划。了解声音定位器的工作原理可以提供对其重要性和潜在用途的深入见解。声音定位器的基本原理涉及声音波的检测。当产生声音时,它会作为波通过空气传播。声音定位器使用一组麦克风或传感器从不同角度捕捉这些声波。通过分析声音到达每个麦克风所需的时间,该系统可以三角测量声音源的位置。这种方法允许进行准确的定位,这在许多情况下都是至关重要的。例如,在野生动物研究中,可以使用声音定位器跟踪动物的移动和行为。研究人员可以监测鸟类的叫声或其他动物发出的声音,以收集有关它们种群动态和栖息地使用的数据。这种非侵入性的方法最小化了对野生动物的干扰,同时提供了对保护工作有价值的信息。同样,在军事应用中,声音定位器可以帮助识别敌方枪火或其他声音的位置,从而有助于战略决策并增强地面人员的安全性。城市规划者也可以受益于使用声音定位器。在密集的人口区域,噪音污染是一个重大问题。通过利用这些设备,规划者可以评估不同地点的声音水平,并识别过度噪音的来源。这些信息可以指导实施噪音减少策略,最终改善居民的生活质量。此外,技术的进步导致了包括人工智能和机器学习的复杂声音定位器的开发。这些现代系统不仅可以检测声音,还可以根据其特征对其进行分类。例如,它们可以区分人声、动物声音和机械噪音。这种能力为研究和实际应用开辟了新的可能性,例如智能城市倡议,其中声音数据可以用于指导城市管理和公共安全措施。尽管有诸多好处,但使用声音定位器也面临挑战。环境因素,如风和温度,会影响声音传播,导致定位不准确。此外,在公共场所部署这些设备时会出现隐私问题,因为它们可能会捕捉到私人谈话或敏感信息。因此,在各种上下文中使用声音定位器时,必须考虑伦理问题。总之,声音定位器是一种卓越的工具,增强了我们理解和与环境互动的能力。它的应用跨越多个领域,提供有价值的见解并辅助决策过程。随着技术的不断发展,声音定位器的潜在用途可能会进一步扩展,为解决当代挑战铺平道路。然而,必须平衡这种技术的优势与伦理考虑,以确保负责任的使用。声音定位器的未来充满希望,它在社会中的角色无疑将继续增长。
