omnibearing distance system

简明释义

全方位测距系统全方位距离系统

英英释义

例句

1.In marine applications, an omnibearing distance system is critical for determining the position of vessels.

在海洋应用中，全向距离系统对于确定船只的位置至关重要。

2.Engineers are developing an omnibearing distance system for autonomous vehicles to improve navigation.

工程师们正在开发一种全向距离系统，以提高自动驾驶车辆的导航能力。

3.Using an omnibearing distance system, the drone can avoid obstacles more effectively.

使用全向距离系统，无人机可以更有效地避开障碍物。

4.The omnibearing distance system allows for better tracking of moving objects in real-time.

全向距离系统允许实时更好地跟踪移动物体。

5.The new navigation technology utilizes an omnibearing distance system to enhance accuracy.

这项新导航技术利用全向距离系统来提高精度。

作文

In the realm of navigation and positioning technologies, the term omnibearing distance system holds significant importance. This system is designed to provide accurate distance measurements from a single reference point to multiple targets in various directions. Unlike traditional systems that may only measure distances in specific directions, the omnibearing distance system offers a comprehensive solution by allowing measurements in an omnidirectional manner. This capability is particularly beneficial in applications such as maritime navigation, aviation, and land surveying, where understanding the precise location of objects relative to a reference point is crucial.The concept of the omnibearing distance system can be traced back to advancements in technology that have enabled more sophisticated methods of measurement. Traditional systems often rely on linear measurements or fixed angles, which can limit their effectiveness in dynamic environments. However, the omnibearing distance system employs a combination of radar, GPS, and other sensor technologies to gather data from multiple angles simultaneously. This allows for a more holistic view of the surrounding environment, making it easier to track objects and assess distances with greater accuracy.One of the key advantages of the omnibearing distance system is its ability to reduce errors associated with distance measurement. In scenarios where obstacles or interference may distort signals, having the capability to measure from multiple directions helps to mitigate these issues. For instance, in urban areas where buildings can obstruct signals, this system can still provide reliable data by utilizing reflections and alternate paths. As a result, users can trust the information provided by the omnibearing distance system, leading to safer and more efficient navigation.Moreover, the versatility of the omnibearing distance system extends beyond just distance measurement. It can also be integrated with other systems to enhance overall functionality. For example, when combined with mapping software, the data collected can create detailed visual representations of the environment, aiding in decision-making processes. This integration is invaluable for industries such as logistics and transportation, where real-time data is essential for optimizing routes and improving operational efficiency.In conclusion, the omnibearing distance system represents a significant advancement in the field of navigation and distance measurement. Its ability to provide accurate and reliable data from multiple directions makes it an indispensable tool in various applications. As technology continues to evolve, we can expect further enhancements to the capabilities of the omnibearing distance system, leading to even greater precision and efficiency in navigation and positioning tasks. Understanding this system is crucial for professionals in fields that rely on accurate measurements, as it opens up new possibilities for innovation and improvement in their respective industries.

在导航和定位技术领域，术语全向距离系统具有重要意义。该系统旨在提供从单一参考点到多个目标的准确距离测量，覆盖多个方向。与传统系统仅在特定方向上测量距离不同，全向距离系统通过允许以全向方式进行测量，提供了全面的解决方案。这种能力在海洋导航、航空和土地测量等应用中尤为重要，因为了解物体相对于参考点的精确位置至关重要。全向距离系统的概念可以追溯到技术进步，这些进步使得更复杂的测量方法成为可能。传统系统通常依赖线性测量或固定角度，这可能限制其在动态环境中的有效性。然而，全向距离系统采用雷达、GPS和其他传感器技术的组合，从多个角度同时收集数据。这使得对周围环境有更全面的了解，更容易跟踪物体并以更高的准确性评估距离。全向距离系统的一个关键优势是能够减少与距离测量相关的误差。在障碍物或干扰可能扭曲信号的场景中，具有从多个方向测量的能力有助于减轻这些问题。例如，在建筑物可能遮挡信号的城市地区，该系统仍然可以通过利用反射和替代路径提供可靠的数据。因此，用户可以信任全向距离系统提供的信息，从而提高导航的安全性和效率。此外，全向距离系统的多功能性超越了仅仅是距离测量。它还可以与其他系统集成，以增强整体功能。例如，当与制图软件结合时，所收集的数据可以创建环境的详细视觉表示，从而帮助决策过程。这种集成对于物流和运输等行业至关重要，因为实时数据对于优化路线和提高运营效率是必不可少的。总之，全向距离系统代表了导航和距离测量领域的重大进步。它从多个方向提供准确可靠的数据，使其成为各种应用中不可或缺的工具。随着技术的不断发展，我们可以期待对全向距离系统能力的进一步增强，从而在导航和定位任务中实现更高的精度和效率。理解这一系统对于依赖准确测量的专业人士至关重要，因为它为他们各自行业的创新和改进开辟了新的可能性。