navigation system with time and rangine
简明释义
导航星
英英释义
A navigation system that incorporates both temporal data (time) and spatial data (ranging) to determine the position and movement of an object. | 一种结合时间数据和空间数据的导航系统,用于确定物体的位置和运动。 |
例句
1.The delivery service uses a navigation system with time and rangine to calculate the fastest route to each destination.
该快递服务使用带时间和范围的导航系统来计算到达每个目的地的最快路线。
2.The new car model features a navigation system with time and rangine, allowing drivers to optimize their routes based on real-time traffic data.
这款新车型配备了带时间和范围的导航系统,使驾驶者能够根据实时交通数据优化路线。
3.Pilots rely on a navigation system with time and rangine to ensure safe landings in various weather conditions.
飞行员依赖于带时间和范围的导航系统以确保在各种天气条件下安全降落。
4.The hiking app includes a navigation system with time and rangine to help users track their location and distance covered.
这款徒步旅行应用程序包含一个带时间和范围的导航系统,帮助用户跟踪他们的位置和行进的距离。
5.In marine navigation, a navigation system with time and rangine is essential for determining the exact position of the vessel.
在海洋导航中,带时间和范围的导航系统对于确定船只的确切位置至关重要。
作文
In the modern world, technology plays a vital role in our daily lives, especially in navigation. One of the most sophisticated advancements in this field is the navigation system with time and ranging. This system not only helps users find their way but also provides accurate timing and distance measurements, which are essential for various applications, including aviation, maritime travel, and even personal navigation devices. Understanding how this system works can enhance our appreciation of its significance in our lives.The navigation system with time and ranging combines two critical components: timing and distance measurement. Timing is crucial because it allows the system to synchronize data from multiple sources, ensuring that the information is accurate and reliable. For instance, in aviation, pilots rely on precise timing to navigate safely and efficiently. A slight error in timing could lead to significant consequences, such as missing a landing window or colliding with another aircraft.On the other hand, ranging refers to the ability to measure the distance between two points. This is typically achieved through the use of signals, which can be radio waves or satellite signals. By calculating the time it takes for a signal to travel from the transmitter to the receiver, the system can accurately determine the distance. This principle is fundamental to Global Positioning System (GPS) technology, which is widely used in navigation today.The integration of these two elements in the navigation system with time and ranging allows for real-time updates and adjustments. For example, when a user inputs a destination into a GPS device, the system immediately calculates the optimal route by considering the current location, traffic conditions, and potential obstacles. This dynamic capability is what makes modern navigation systems so efficient and user-friendly.Moreover, the implications of the navigation system with time and ranging extend beyond personal use. In industries such as logistics and transportation, companies utilize these systems to optimize their operations. By accurately tracking shipments and deliveries, businesses can improve their efficiency and reduce costs. Additionally, emergency services depend on these systems to respond quickly to incidents, ensuring that help reaches those in need as swiftly as possible.In conclusion, the navigation system with time and ranging represents a remarkable achievement in technological advancement. Its ability to provide accurate timing and distance measurements has transformed how we navigate our world. Whether we are using a smartphone to find directions or relying on complex systems in aviation, understanding this technology enhances our awareness of its impact on our daily lives. As we continue to innovate and improve these systems, the future of navigation looks promising, paving the way for even greater advancements in safety and efficiency.
在现代世界中,科技在我们的日常生活中扮演着至关重要的角色,尤其是在导航方面。其中一个最复杂的进展是带时间和测距的导航系统。该系统不仅帮助用户找到方向,还提供准确的时间和距离测量,这对于航空、海洋旅行甚至个人导航设备等各种应用至关重要。理解这个系统的工作原理可以增强我们对其在生活中重要性的认识。带时间和测距的导航系统结合了两个关键组成部分:时间和距离测量。时间至关重要,因为它使系统能够同步来自多个来源的数据,从而确保信息的准确性和可靠性。例如,在航空中,飞行员依赖精确的时间进行安全高效的导航。时间上的微小误差可能导致重大后果,例如错过降落窗口或与其他飞机相撞。另一方面,测距是指测量两点之间距离的能力。这通常通过使用信号来实现,信号可以是无线电波或卫星信号。通过计算信号从发射器传输到接收器所需的时间,系统可以准确确定距离。这一原理是全球定位系统(GPS)技术的基础,GPS技术如今被广泛用于导航。在带时间和测距的导航系统中集成这两个元素,使得实时更新和调整成为可能。例如,当用户在GPS设备中输入目的地时,系统立即通过考虑当前位置、交通状况和潜在障碍来计算最佳路线。这种动态能力使现代导航系统变得高效且用户友好。此外,带时间和测距的导航系统的影响超出了个人使用。在物流和运输等行业,公司利用这些系统来优化其运营。通过准确跟踪货物和交付,企业可以提高效率并降低成本。此外,紧急服务部门依赖这些系统快速响应事件,确保帮助尽快抵达需要的人。总之,带时间和测距的导航系统代表了科技进步的显著成就。它提供准确的时间和距离测量的能力改变了我们导航世界的方式。无论我们是使用智能手机寻找方向,还是依赖航空中的复杂系统,理解这一技术增强了我们对其对日常生活影响的认知。随着我们继续创新和改进这些系统,导航的未来看起来充满希望,为安全和效率的更大进步铺平了道路。
相关单词
