electronic bearing marker

简明释义

电子方位标志

英英释义

例句

1.Our fishing vessel relies on an electronic bearing marker to locate the best fishing spots.

我们的渔船依靠电子方位标记来定位最佳捕鱼地点。

2.The electronic bearing marker helps pilots maintain their course during adverse weather conditions.

在恶劣天气条件下，电子方位标记帮助飞行员保持航线。

3.The ship's navigation system uses an electronic bearing marker to indicate its current heading.

船舶的导航系统使用电子方位标记来指示其当前航向。

4.With the help of an electronic bearing marker, the crew was able to navigate through the fog.

在电子方位标记的帮助下，船员能够穿越浓雾导航。

5.During the training exercise, we learned how to set up an electronic bearing marker for accurate positioning.

在训练演习中，我们学习了如何设置电子方位标记以实现准确定位。

作文

In the modern world, technology plays a crucial role in various fields, including navigation and positioning systems. One of the significant advancements in this area is the development of the electronic bearing marker, which has transformed how we approach navigation tasks. An electronic bearing marker is essentially a tool that helps in determining the direction or bearing of an object relative to a specific point. This technology is widely used in maritime navigation, aviation, and even in land-based applications such as surveying and mapping.The primary function of an electronic bearing marker is to provide accurate directional information. For instance, in marine navigation, sailors rely on these markers to plot their course and avoid obstacles. The electronic bearing marker utilizes advanced sensors and GPS technology to offer real-time data, ensuring that navigators can make informed decisions based on the most current information available. This capability significantly reduces the risk of accidents and enhances safety at sea.Moreover, the use of electronic bearing markers is not limited to maritime activities. In aviation, pilots utilize these markers to maintain their flight paths and ensure they are on the correct course. By integrating electronic bearing markers with other navigational aids, such as radar and air traffic control systems, pilots can achieve a higher level of precision in their flights. This integration is vital for managing busy airspaces, where multiple aircraft are operating simultaneously.In land-based applications, surveyors and engineers also benefit from electronic bearing markers. When conducting land surveys, these markers help professionals establish reference points and measure angles accurately. This information is essential for construction projects, urban planning, and environmental studies. By employing electronic bearing markers, surveyors can enhance their efficiency and accuracy, leading to better project outcomes.Furthermore, the advent of digital technologies has led to the evolution of electronic bearing markers. With the integration of mobile applications and cloud computing, users can access and share bearing data instantly. This connectivity allows for collaborative efforts among teams working on large-scale projects, ensuring everyone is on the same page regarding direction and positioning.However, while electronic bearing markers offer numerous advantages, it is essential to understand their limitations. Factors such as signal interference, environmental conditions, and equipment calibration can affect the accuracy of the data provided by these markers. Therefore, it is crucial for users to be aware of these potential challenges and take necessary precautions when relying on electronic bearing markers for navigation or surveying tasks.In conclusion, the electronic bearing marker represents a significant advancement in navigation technology. Its applications span across various fields, including maritime, aviation, and land surveying. By providing accurate directional information, electronic bearing markers enhance safety and efficiency in these industries. As technology continues to evolve, we can expect further improvements in the capabilities of electronic bearing markers, making them an indispensable tool for navigators and surveyors alike.

在现代世界中，技术在各个领域发挥着至关重要的作用，包括导航和定位系统。在这一领域的重要进展之一是电子方位标记的开发，它改变了我们进行导航任务的方式。电子方位标记本质上是一种工具，帮助确定相对于特定点的物体方向或方位。该技术广泛应用于海洋导航、航空，甚至在测量和制图等陆地应用中。电子方位标记的主要功能是提供准确的方向信息。例如，在海洋导航中，水手依赖这些标记来绘制航线并避免障碍物。电子方位标记利用先进的传感器和GPS技术提供实时数据，确保导航员能够根据最新的信息做出明智的决策。这种能力显著降低了事故风险，并增强了海上的安全性。此外，电子方位标记的使用并不限于海洋活动。在航空领域，飞行员利用这些标记来保持飞行路径，确保他们在正确的航线上。通过将电子方位标记与其他导航设备（如雷达和空中交通管制系统）集成，飞行员可以在飞行中实现更高的精确度。这种集成对于管理繁忙的空域至关重要，在这些空域中，多架飞机同时运行。在陆地应用中，测量员和工程师也受益于电子方位标记。在进行土地测量时，这些标记帮助专业人员建立参考点并准确测量角度。这些信息对建筑项目、城市规划和环境研究至关重要。通过使用电子方位标记，测量员可以提高工作效率和准确性，从而导致更好的项目结果。此外，数字技术的出现促使了电子方位标记的发展。通过移动应用程序和云计算的整合，用户可以即时访问和共享方位数据。这种连接性使得在大型项目中工作的团队能够协同合作，确保每个人在方向和定位方面达成一致。然而，尽管电子方位标记提供了许多优势，但了解其局限性也很重要。信号干扰、环境条件和设备校准等因素可能影响这些标记提供的数据的准确性。因此，用户在依赖电子方位标记进行导航或测量任务时，必须意识到这些潜在挑战并采取必要的预防措施。总之，电子方位标记代表了导航技术的重要进步。它的应用跨越多个领域，包括海洋、航空和土地测量。通过提供准确的方向信息，电子方位标记提高了这些行业的安全性和效率。随着技术的不断发展，我们可以期待电子方位标记的能力进一步提升，使其成为导航员和测量员不可或缺的工具。