satellite fixing by range measurement

简明释义

卫星测距定位

英英释义

例句

1.The new drone uses satellite fixing by range measurement to enhance its navigation capabilities.

这款新型无人机使用通过距离测量进行卫星定位 来增强其导航能力。

2.For autonomous vehicles, satellite fixing by range measurement is vital for real-time location tracking.

对于自动驾驶汽车来说，通过距离测量进行卫星定位 对于实时位置跟踪至关重要。

3.Surveyors often rely on satellite fixing by range measurement to create precise land maps.

测量员通常依靠通过距离测量进行卫星定位 来制作精确的土地地图。

4.In maritime navigation, satellite fixing by range measurement helps vessels determine their exact location.

在海洋导航中，通过距离测量进行卫星定位 帮助船只确定其确切位置。

5.The engineer explained that satellite fixing by range measurement is crucial for accurate positioning in GPS technology.

工程师解释说，通过距离测量进行卫星定位 对于GPS技术中的准确定位至关重要。

作文

In the modern world, technology plays a crucial role in our daily lives, influencing various fields such as communication, transportation, and navigation. One of the most significant advancements in navigation technology is the method known as satellite fixing by range measurement, which has revolutionized how we determine our position on Earth. This technique utilizes signals from satellites to accurately measure distances, allowing for precise location tracking. Understanding this method is essential for anyone interested in the fields of geography, aviation, or even everyday navigation using GPS devices.The concept of satellite fixing by range measurement involves the use of multiple satellites that transmit signals to receivers on the ground. Each satellite sends a signal that includes the time the signal was transmitted. By calculating the time it takes for the signal to reach the receiver, the distance to each satellite can be determined. This distance measurement is crucial because it forms the basis for triangulating the exact position of the receiver. The more satellites that are involved in the process, the more accurate the positioning becomes.One of the primary advantages of satellite fixing by range measurement is its ability to provide real-time location data. This capability is particularly beneficial in various applications, including emergency services, where knowing the precise location of an incident can save lives. For instance, when a person dials emergency services from a mobile phone equipped with GPS, the operator can quickly pinpoint their location using this technology. Additionally, this method is widely used in aviation for aircraft navigation, ensuring that pilots have accurate information about their position concerning airports and other critical landmarks.Moreover, satellite fixing by range measurement has also transformed the way we approach geographical studies and mapping. Geographers and cartographers utilize this technology to create detailed maps and conduct surveys over large areas with remarkable precision. This capability is invaluable for urban planning, environmental monitoring, and disaster management, where accurate geographical data is essential for making informed decisions.However, like any technology, satellite fixing by range measurement comes with its challenges. One major issue is signal interference caused by buildings, trees, or atmospheric conditions, which can lead to inaccuracies in the distance measurements. To mitigate these challenges, researchers are continuously working on improving the algorithms used for processing the signals and enhancing the robustness of the systems involved.In conclusion, satellite fixing by range measurement is a groundbreaking technology that has significantly enhanced our ability to navigate and understand our world. Its applications span various fields, from emergency services to geographical studies, demonstrating its versatility and importance in modern society. As technology continues to evolve, we can expect further advancements in this area, leading to even more precise and reliable navigation solutions. Understanding and mastering the principles behind satellite fixing by range measurement will undoubtedly be beneficial for future generations, as they navigate an increasingly complex world driven by technology.

在现代世界中，技术在我们的日常生活中扮演着至关重要的角色，影响着通信、交通和导航等多个领域。其中一个最重要的导航技术进展是被称为通过测距进行卫星定位的方法，它彻底改变了我们确定地球上位置的方式。这种技术利用来自卫星的信号来准确测量距离，从而实现精确的位置跟踪。理解这种方法对于任何对地理、航空或甚至使用GPS设备进行日常导航感兴趣的人来说都是必不可少的。通过测距进行卫星定位的概念涉及多颗卫星向地面接收器发送信号。每颗卫星发送的信号包含信号发射的时间。通过计算信号到达接收器所需的时间，可以确定到每颗卫星的距离。这种距离测量至关重要，因为它构成了三角测量接收器确切位置的基础。参与过程的卫星越多，定位的准确性就越高。通过测距进行卫星定位的主要优点之一是能够提供实时位置信息。这一能力在各种应用中尤其有益，包括紧急服务，在这种情况下，知道事件的确切位置可以挽救生命。例如，当一个人用配备GPS的手机拨打紧急服务时，接线员可以迅速通过这项技术确定他们的位置。此外，这种方法在航空领域也被广泛使用，用于飞机导航，确保飞行员获得有关他们与机场及其他关键地标位置的准确信息。此外，通过测距进行卫星定位还改变了我们对地理研究和制图的方式。地理学家和制图师利用这项技术创建详细地图并对大面积进行测量，精度令人瞩目。这一能力对于城市规划、环境监测和灾害管理至关重要，因为准确的地理数据对做出明智的决策至关重要。然而，像任何技术一样，通过测距进行卫星定位也面临着挑战。一个主要问题是建筑物、树木或大气条件引起的信号干扰，这会导致距离测量的不准确。为了减轻这些挑战，研究人员正在不断努力改进用于处理信号的算法，并增强所涉及系统的稳健性。总之，通过测距进行卫星定位是一项突破性的技术，极大增强了我们导航和理解世界的能力。它的应用跨越多个领域，从紧急服务到地理研究，展示了其在现代社会中的多功能性和重要性。随着技术的不断发展，我们可以期待这一领域的进一步进步，带来更精确、更可靠的导航解决方案。理解和掌握通过测距进行卫星定位背后的原理无疑将对未来几代人有所裨益，因为他们在一个日益复杂的由技术驱动的世界中导航。