omnidirectional range

简明释义

全向信标

英英释义

例句

1.The drone's omnidirectional range enables it to navigate through complex environments effortlessly.

无人机的全向范围使其能够轻松穿越复杂环境。

2.In telecommunications, devices with an omnidirectional range are preferred for their ability to connect without directional limitations.

在电信中，具有全向范围的设备因其能够无方向限制地连接而受到青睐。

3.The sound system features speakers with an omnidirectional range for an immersive audio experience.

该音响系统配有具有全向范围的扬声器，以提供沉浸式音频体验。

4.When setting up a Wi-Fi network, choosing a router with an omnidirectional range ensures better coverage in all areas.

在设置Wi-Fi网络时，选择具有全向范围的路由器可以确保在所有区域都能获得更好的覆盖。

5.The new GPS system has an omnidirectional range that allows it to receive signals from any direction.

新的GPS系统具有全向范围，可以从任何方向接收信号。

作文

In the realm of navigation and communication, the term omnidirectional range refers to a system or device that can receive signals from all directions equally. This concept is particularly vital in fields such as aviation, maritime operations, and telecommunications. Understanding the significance of omnidirectional range can greatly enhance our appreciation of how modern technology facilitates our daily lives and ensures safety in various industries.To begin with, let us explore the application of omnidirectional range in aviation. Air traffic control relies heavily on radar systems that are designed to monitor aircraft movements in a three-dimensional space. These radar systems utilize an omnidirectional range capability to detect planes regardless of their orientation. This means that whether an aircraft is approaching from the north, south, east, or west, the radar can accurately track its position. Consequently, this ability to gather information from all angles allows air traffic controllers to manage flight paths efficiently, reducing the risk of collisions and ensuring smooth operations in busy airspaces.Similarly, in maritime navigation, vessels equipped with omnidirectional range systems can receive signals from buoys and lighthouses situated around them. This is especially important in coastal areas where numerous ships may be navigating close to one another. The omnidirectional range allows for precise positioning, enabling sailors to make informed decisions about their routes and avoid potential hazards. By utilizing such technology, the maritime industry can maintain high safety standards and protect both human lives and marine ecosystems.In the field of telecommunications, the concept of omnidirectional range takes on a slightly different but equally important role. Wireless communication devices, such as mobile phones and Wi-Fi routers, often use antennas designed to transmit and receive signals in an omnidirectional manner. This means that users can connect to a network from various locations without needing to point their device in a specific direction. The convenience of having an omnidirectional range enhances user experience, allowing for seamless connectivity whether at home, in a café, or on the go.Moreover, advancements in technology continue to improve the effectiveness of omnidirectional range systems. For instance, the integration of artificial intelligence and machine learning algorithms enables these systems to filter out noise and focus on relevant signals, thereby enhancing accuracy. As industries evolve, the demand for reliable omnidirectional range capabilities will only increase, pushing engineers and researchers to innovate further.In conclusion, the term omnidirectional range encapsulates a crucial aspect of modern technology that impacts various fields, including aviation, maritime navigation, and telecommunications. By allowing devices to receive signals from all directions, omnidirectional range systems contribute significantly to safety, efficiency, and user convenience. As we continue to rely on technology in our everyday lives, understanding the principles behind such systems will help us appreciate the intricate designs that keep our world connected and safe.

在导航和通信领域，术语全向范围指的是一种能够均匀接收来自各个方向信号的系统或设备。这个概念在航空、海事操作和电信等领域尤为重要。理解全向范围的意义可以大大增强我们对现代技术如何促进我们日常生活和确保各行业安全的欣赏。首先，让我们探讨全向范围在航空中的应用。空中交通管制在很大程度上依赖于雷达系统，这些系统旨在监控三维空间中的飞机运动。这些雷达系统利用全向范围的能力来检测飞机，无论其朝向如何。这意味着无论一架飞机是从北方、南方、东方还是西方接近，雷达都能准确跟踪其位置。因此，这种从各个角度收集信息的能力使空中交通管制员能够高效管理飞行路径，减少碰撞风险，确保繁忙空域的顺利运行。同样，在海事导航中，配备全向范围系统的船只可以接收来自周围浮标和灯塔的信号。这在靠近彼此航行的众多船只的沿海地区尤为重要。全向范围允许精确定位，使水手能够做出关于航线的明智决策，避免潜在危险。通过利用这种技术，海事行业能够保持高安全标准，保护人类生命和海洋生态系统。在电信领域，全向范围的概念以稍微不同但同样重要的方式发挥作用。无线通信设备，如手机和Wi-Fi路由器，通常使用设计为以全向方式传输和接收信号的天线。这意味着用户可以从不同的位置连接到网络，而无需将设备指向特定方向。拥有全向范围的便利性增强了用户体验，使得在家、咖啡馆或移动中都能实现无缝连接。此外，技术的进步不断提高全向范围系统的有效性。例如，人工智能和机器学习算法的整合使这些系统能够过滤噪声，专注于相关信号，从而提高准确性。随着行业的发展，对可靠全向范围能力的需求只会增加，推动工程师和研究人员进一步创新。总之，术语全向范围概括了影响航空、海事导航和电信等多个领域的现代技术的重要方面。通过允许设备从各个方向接收信号，全向范围系统显著地贡献了安全性、效率和用户便利性。随着我们继续依赖技术于日常生活，理解这些系统背后的原理将帮助我们欣赏保持我们世界互联和安全的复杂设计。