built for in-water survey

简明释义

水中检验

英英释义

例句

1.This software is built for in-water survey data analysis, allowing researchers to visualize underwater terrains.

这款软件是为水下调查数据分析而设计的，使研究人员能够可视化水下地形。

2.The team used a submersible built for in-water survey to explore deep-sea ecosystems.

团队使用了一台为水下调查而设计的潜水器，探索深海生态系统。

3.Our company has developed a vessel built for in-water survey, equipped with advanced sonar technology.

我们公司开发了一艘为水下调查而设计的船只，配备了先进的声纳技术。

4.The new underwater drone is specifically built for in-water survey, making it ideal for marine research.

这款新的水下无人机是专门为水下调查而设计的，非常适合海洋研究。

5.Engineers have created a robotic arm built for in-water survey to collect samples from the ocean floor.

工程师们创造了一个为水下调查而设计的机器人手臂，用于从海底收集样本。

作文

In the realm of marine exploration and environmental monitoring, technology plays a pivotal role in enhancing our understanding of underwater ecosystems. One of the most significant advancements in this field is the development of specialized equipment and vehicles that are built for in-water survey. This phrase refers to tools and technologies specifically designed to operate efficiently and effectively while submerged in water, allowing researchers and scientists to gather crucial data about marine environments.The importance of built for in-water survey technologies cannot be overstated. Traditional surveying methods often fall short when it comes to underwater research due to limitations in visibility, accessibility, and safety. However, with the advent of advanced underwater drones, remotely operated vehicles (ROVs), and autonomous underwater vehicles (AUVs), it has become possible to conduct detailed surveys without the need for divers or complex equipment.For instance, AUVs are built for in-water survey purposes, equipped with sophisticated sensors and imaging systems that allow them to map the ocean floor, monitor marine life, and assess environmental conditions. These vehicles can collect data on water temperature, salinity, and even the presence of pollutants, providing invaluable insights into the health of marine ecosystems. Moreover, they can operate at great depths and in harsh conditions where human divers would face significant risks.Another key aspect of technologies built for in-water survey is their ability to cover vast areas quickly and efficiently. Unlike traditional methods that may require extensive manpower and time, modern underwater vehicles can traverse large distances autonomously, gathering data at a fraction of the cost and time. This efficiency is particularly important for monitoring changes in marine environments, such as those caused by climate change, pollution, and overfishing.Furthermore, the data collected from built for in-water survey technologies can be analyzed using advanced software and algorithms, allowing scientists to create detailed models of underwater ecosystems. These models can help predict future changes and inform conservation efforts, ensuring that we protect our oceans and the diverse life they harbor.In addition to scientific research, built for in-water survey technologies also have applications in various industries, including oil and gas exploration, underwater construction, and marine archaeology. For example, companies involved in offshore drilling rely on accurate underwater surveys to identify potential drilling sites and assess environmental impacts. Similarly, archaeologists use underwater drones to explore shipwrecks and submerged ruins, uncovering artifacts that provide insight into our history.As we continue to advance our capabilities in underwater exploration, the phrase built for in-water survey encapsulates the innovation and dedication required to understand and protect our oceans. The integration of these technologies into our research and industry practices will undoubtedly lead to a greater appreciation for marine environments and the urgent need to safeguard them for future generations. In conclusion, the evolution of tools built for in-water survey signifies a leap forward in our ability to explore and understand the mysteries of the underwater world, paving the way for sustainable practices and informed decision-making regarding our planet's most vital resource: the ocean.

在海洋探索和环境监测的领域中，技术在增强我们对水下生态系统的理解方面发挥着关键作用。该领域最重要的进展之一是开发专门的设备和车辆，这些设备和车辆是为水下调查而建造的。这个短语指的是专门设计用于在水中高效、有效操作的工具和技术，使研究人员和科学家能够收集有关海洋环境的重要数据。为水下调查而建造的技术的重要性不容小觑。传统的调查方法在水下研究中往往存在局限性，因为可见度、可达性和安全性等问题。然而，随着先进的水下无人机、遥控操作车辆（ROV）和自主水下车辆（AUV）的出现，可以在没有潜水员或复杂设备的情况下进行详细的调查。例如，AUV是为水下调查而建造的，配备了先进的传感器和成像系统，使其能够绘制海底地图、监测海洋生物和评估环境条件。这些车辆可以收集水温、盐度甚至污染物存在的数据，提供对海洋生态系统健康的宝贵见解。此外，它们可以在极大深度和恶劣条件下操作，而人类潜水员面临重大风险。为水下调查而建造的技术的另一个关键方面是它们能够快速高效地覆盖广阔区域。与传统方法可能需要大量人力和时间相比，现代水下车辆可以自主穿越大距离，以极低的成本和时间收集数据。这种效率对于监测海洋环境的变化尤为重要，例如气候变化、污染和过度捕捞造成的变化。此外，从为水下调查而建造的技术收集的数据可以使用先进的软件和算法进行分析，使科学家能够创建水下生态系统的详细模型。这些模型可以帮助预测未来的变化，并为保护工作提供信息，确保我们保护我们的海洋及其丰富的生命。除了科学研究，为水下调查而建造的技术还在石油和天然气勘探、水下建筑和海洋考古等各个行业中得到了应用。例如，参与海上钻探的公司依赖准确的水下调查来识别潜在的钻探地点并评估环境影响。同样，考古学家利用水下无人机探索沉船和淹没的遗址，发现提供我们历史见解的文物。随着我们继续提高水下探索的能力，短语为水下调查而建造的概括了理解和保护我们的海洋所需的创新和奉献精神。这些技术的整合到我们的研究和行业实践中，无疑将导致对海洋环境的更大欣赏以及保护它们的紧迫需求，以便为后代保留。在总结中，为水下调查而建造的工具的演变标志着我们探索和理解水下世界奥秘的飞跃，为可持续实践和明智决策铺平了道路，涉及我们星球最重要的资源：海洋。