controlling depth

简明释义

限制深度

英英释义

例句

1.The engineer adjusted the settings to maintain the controlling depth in the excavation site.

工程师调整了设置，以维持挖掘现场的控制深度。

2.For effective fishing, it's important to know the controlling depth of the water body.

为了有效钓鱼，了解水体的控制深度非常重要。

3.The pilot ensured that the aircraft remained above the controlling depth during the flight.

飞行员确保飞机在飞行过程中保持在控制深度之上。

4.In underwater construction, knowing the controlling depth is crucial for safety.

在水下施工中，了解控制深度对安全至关重要。

5.The diver checked the controlling depth before descending into the ocean.

潜水员在下潜到海洋之前检查了控制深度。

作文

In the world of engineering and design, the term controlling depth holds significant importance. It refers to the maximum depth at which certain operations can be conducted effectively without compromising safety or functionality. This concept is particularly relevant in fields such as civil engineering, underwater construction, and even in the realm of data analysis. Understanding controlling depth allows engineers and designers to determine the limits of their projects, ensuring that they remain within safe operational parameters.For instance, consider a civil engineer tasked with designing a bridge over a river. The controlling depth of the riverbed will influence the type of foundations used for the bridge. If the river is too deep, special techniques may be required to ensure the stability of the structure. Conversely, if the river is shallow, different materials and methods may be employed. Thus, knowing the controlling depth becomes crucial in making informed decisions that lead to successful outcomes.Moreover, the concept of controlling depth extends beyond physical structures. In data analysis, it can refer to the depth of information that can be extracted from datasets. Analysts must understand how deep they can go into the data without losing sight of the overarching trends and insights. Going too deep might lead to overfitting, where the model becomes too complex and fails to generalize well to new data. Therefore, having a clear understanding of controlling depth in this context is essential for creating robust analytical models.In the marine industry, controlling depth is equally vital. Submersible vehicles and underwater robots have specific operational depths at which they can function efficiently. Exceeding these depths can lead to catastrophic failures, making it imperative for operators to know and respect the controlling depth of their equipment. For example, an underwater drone designed for shallow water exploration may not withstand the pressure of deeper environments, which could result in a loss of the vehicle and valuable data.In conclusion, the term controlling depth encapsulates a crucial element of various disciplines, emphasizing the importance of understanding limits and boundaries. Whether in engineering, data analysis, or marine exploration, recognizing the controlling depth allows professionals to make informed decisions, optimize their designs, and ensure safety. As industries continue to evolve and technology advances, the significance of mastering the concept of controlling depth will only grow, underscoring its relevance in the modern world.

在工程和设计的世界中，术语controlling depth（控制深度）具有重要意义。它指的是能够有效进行某些操作而不危及安全或功能的最大深度。这个概念在土木工程、水下施工甚至数据分析等领域尤为相关。理解controlling depth使工程师和设计师能够确定项目的限制，确保它们保持在安全的操作参数内。例如，考虑一位土木工程师负责设计一座跨越河流的桥梁。河床的controlling depth将影响桥梁所使用的基础类型。如果河流太深，可能需要特殊技术以确保结构的稳定性。相反，如果河流较浅，则可能会采用不同的材料和方法。因此，了解controlling depth对于做出明智的决策至关重要，从而导致成功的结果。此外，controlling depth的概念超越了物理结构。在数据分析中，它可以指从数据集中提取信息的深度。分析师必须了解他们可以深入多深，而不会失去对整体趋势和洞察力的把握。深入过头可能导致过拟合，即模型变得过于复杂，无法很好地泛化到新数据。因此，在这种情况下清楚理解controlling depth对于创建稳健的分析模型至关重要。在海洋行业中，controlling depth同样至关重要。潜水器和水下机器人有特定的操作深度，在这些深度下它们能够高效工作。超过这些深度可能导致灾难性的故障，因此操作者必须了解并遵守其设备的controlling depth。例如，设计用于浅水探索的水下无人机可能无法承受更深环境的压力，这可能导致该设备和宝贵数据的损失。总之，术语controlling depth概括了各个学科的一个关键元素，强调了了解限制和边界的重要性。无论是在工程、数据分析还是海洋探索中，认识到controlling depth使专业人士能够做出明智的决策，优化设计并确保安全。随着行业的不断发展和技术的进步，掌握controlling depth这一概念的重要性只会增加，突显其在现代社会中的相关性。