underwater object locating
简明释义
水下物体寻觅定位
英英释义
The process of identifying and determining the position of objects submerged beneath the surface of a body of water. | 识别和确定位于水体表面以下物体位置的过程。 |
例句
1.During the marine research expedition, we focused on underwater object locating 水下物体定位 to find lost shipwrecks.
在海洋研究考察中,我们专注于水下物体定位以寻找失落的沉船。
2.Using drones equipped with sonar can enhance underwater object locating 水下物体定位 efficiency.
使用配备声纳的无人机可以提高水下物体定位的效率。
3.Our diving team specializes in underwater object locating 水下物体定位 for archaeological purposes.
我们的潜水团队专门从事考古目的的水下物体定位。
4.The military uses advanced systems for underwater object locating 水下物体定位 during training exercises.
军方在训练演习中使用先进系统进行水下物体定位。
5.The new sonar technology greatly improved our underwater object locating 水下物体定位 capabilities.
这项新型声纳技术大大提高了我们的水下物体定位能力。
作文
In recent years, the field of marine exploration has gained significant attention due to advancements in technology and the increasing need for underwater research. One of the most fascinating aspects of this field is underwater object locating, which refers to the techniques and methods used to identify and track objects submerged beneath the surface of water. This process is crucial for various applications, including environmental monitoring, archaeological studies, and resource management.The importance of underwater object locating cannot be overstated. For instance, marine scientists often rely on these techniques to study ecosystems and monitor changes in marine life. By accurately locating underwater objects such as coral reefs or shipwrecks, researchers can gather valuable data that contributes to our understanding of aquatic environments. This information is vital for conservation efforts, as it helps to identify areas that require protection and restoration.Moreover, underwater object locating plays a pivotal role in archaeology. Many ancient artifacts and structures are hidden beneath the waves, waiting to be discovered. Techniques such as sonar mapping and remotely operated vehicles (ROVs) allow archaeologists to explore these underwater sites without disturbing them. These technologies enable researchers to document and analyze historical treasures, providing insights into past civilizations and their interactions with the sea.In addition to scientific research, underwater object locating is essential for commercial purposes. The fishing industry, for example, utilizes these techniques to locate schools of fish and monitor their movements. This helps to ensure sustainable fishing practices and prevents overfishing in certain areas. Similarly, oil and gas companies use underwater object locating methods to find and extract resources from beneath the ocean floor, contributing to global energy needs.The technological advancements that have enhanced underwater object locating include the development of sophisticated sonar systems, autonomous underwater vehicles (AUVs), and advanced imaging techniques. Sonar systems emit sound waves that bounce off underwater objects, allowing operators to create detailed maps of the seafloor and identify objects of interest. AUVs, on the other hand, can operate independently to gather data over large areas, making them invaluable for extensive surveys.Despite the benefits, underwater object locating also presents challenges. The underwater environment is often unpredictable, with factors such as currents, visibility, and temperature affecting the effectiveness of locating techniques. Additionally, there are ethical considerations regarding the disturbance of underwater sites, particularly those of archaeological significance. It is crucial for researchers and industries to balance their objectives with the preservation of marine heritage.In conclusion, underwater object locating is a vital component of marine exploration that encompasses a range of applications from scientific research to commercial activities. As technology continues to evolve, the methods used for locating underwater objects will become even more refined, enabling us to unlock the mysteries of the ocean. The knowledge gained through these techniques not only enhances our understanding of the underwater world but also promotes responsible stewardship of our marine resources. Therefore, investing in underwater object locating technologies and practices is essential for both current and future generations.
近年来,由于技术的进步和对水下研究日益增长的需求,海洋探索领域受到了显著关注。这个领域中最引人入胜的方面之一是水下物体定位,指的是用于识别和追踪沉没在水面下物体的技术和方法。这一过程对于环境监测、考古研究和资源管理等各种应用至关重要。水下物体定位的重要性不容小觑。例如,海洋科学家常常依赖这些技术来研究生态系统并监测海洋生物的变化。通过准确定位水下物体,如珊瑚礁或沉船,研究人员可以收集宝贵的数据,这有助于我们理解水生环境。这些信息对于保护工作至关重要,因为它有助于识别需要保护和恢复的区域。此外,水下物体定位在考古学中也发挥着关键作用。许多古代文物和结构隐藏在波浪之下,等待被发现。声纳制图和遥控水下车辆(ROV)等技术使考古学家能够在不干扰这些水下遗址的情况下进行探索。这些技术使研究人员能够记录和分析历史珍品,为我们提供有关过去文明及其与海洋互动的见解。除了科学研究,水下物体定位对于商业目的也至关重要。例如,渔业利用这些技术来定位鱼群并监测它们的移动。这有助于确保可持续的捕鱼实践,并防止某些地区的过度捕捞。同样,石油和天然气公司使用水下物体定位方法从海底寻找和提取资源,以满足全球能源需求。增强水下物体定位的技术进步包括开发先进的声纳系统、自动化水下车辆(AUV)和先进的成像技术。声纳系统发出声波,反射到水下物体上,使操作员能够创建详细的海底地图并识别感兴趣的物体。另一方面,AUV可以独立运行,覆盖大面积区域,因而在广泛调查中不可或缺。尽管有诸多好处,水下物体定位也面临挑战。水下环境往往不可预测,水流、能见度和温度等因素会影响定位技术的有效性。此外,涉及水下遗址,特别是考古意义上的遗址时,有伦理考量。研究人员和工业界必须平衡他们的目标与水下遗产的保护。总之,水下物体定位是海洋探索的重要组成部分,涵盖了从科学研究到商业活动的一系列应用。随着技术的不断发展,用于定位水下物体的方法将变得更加精细,使我们能够揭开海洋的奥秘。通过这些技术获得的知识不仅增强了我们对水下世界的理解,还促进了我们对海洋资源的负责任管理。因此,投资于水下物体定位技术和实践对于当前和未来的世代都是至关重要的。
相关单词
