configuration of Loran-C transmitting

简明释义

劳兰—C发射台配置

英英释义

例句

1.During the maintenance check, the team examined the configuration of Loran-C transmitting for any potential issues.

在维护检查期间，团队检查了Loran-C发射配置以寻找潜在问题。

2.Adjustments were made to the configuration of Loran-C transmitting to improve accuracy in navigation.

对Loran-C发射配置进行了调整，以提高导航的准确性。

3.The configuration of Loran-C transmitting was altered to accommodate new technological advancements.

为了适应新技术的发展，Loran-C发射配置进行了更改。

4.Understanding the configuration of Loran-C transmitting is crucial for effective maritime navigation.

理解Loran-C发射配置对于有效的海上导航至关重要。

5.The engineer reviewed the configuration of Loran-C transmitting to ensure optimal signal strength.

工程师检查了Loran-C发射配置以确保信号强度最佳。

作文

The world of navigation has evolved significantly over the years, with various systems being developed to enhance accuracy and reliability. One such system is Loran-C, which stands for Long Range Navigation. The configuration of Loran-C transmitting plays a crucial role in how this system operates effectively. Understanding this configuration helps us appreciate the complexities involved in long-range navigation technology.Loran-C utilizes a network of land-based radio transmitters that send out signals to receivers on ships and aircraft. These signals are time-stamped, allowing the receiver to calculate its position based on the time it takes for the signals to travel from the transmitter to the receiver. The configuration of Loran-C transmitting refers to the arrangement and operational parameters of these transmitters, which include their geographical placement, synchronization, and power levels.The geographical placement of Loran-C transmitters is critical to its functionality. Transmitters are strategically positioned to ensure maximum coverage and signal strength over vast areas, particularly in regions where satellite signals may be weak or obstructed. This careful planning ensures that vessels can maintain accurate navigation even in challenging environments, such as coastal areas and dense urban settings.Synchronization among the transmitters is another vital aspect of the configuration of Loran-C transmitting. Each transmitter must emit signals at precise intervals to allow for accurate time measurement by the receivers. If the signals are not synchronized, the calculations made by the receiver will be erroneous, leading to potential navigation errors. Therefore, maintaining synchronization is essential for the integrity of the navigation system.The power levels of the transmitters also influence the effectiveness of the configuration of Loran-C transmitting. Higher power levels can extend the range of the signals, allowing them to reach further distances and penetrate obstacles like buildings and natural terrain. However, there is a balance to strike; too much power can cause interference with other electronic systems. Thus, engineers must carefully calibrate the power output to optimize performance without causing disruption.In addition to these technical aspects, the configuration of Loran-C transmitting must also consider environmental factors. For instance, atmospheric conditions can affect signal propagation, necessitating adjustments in transmitter operations. Engineers and technicians must continuously monitor these variables to ensure that the system remains reliable under varying conditions.Moreover, the advancements in technology have led to improvements in the configuration of Loran-C transmitting. Modern systems incorporate digital technology, enhancing the precision of signal transmission and reception. This evolution allows for better integration with other navigation systems, such as GPS, providing users with a more comprehensive navigation solution.In conclusion, the configuration of Loran-C transmitting is a fundamental element of the Loran-C navigation system. It encompasses the strategic placement of transmitters, synchronization of signals, power management, and adaptation to environmental conditions. As technology continues to advance, understanding and improving this configuration will remain essential for ensuring safe and accurate navigation across the globe. The significance of Loran-C in maritime and aerial navigation cannot be overstated, as it provides a reliable alternative to satellite-based systems, particularly in areas where such systems may falter. Ultimately, the intricate details of the configuration of Loran-C transmitting highlight the sophistication and importance of navigation technology in our modern world.

导航的世界随着时间的推移而显著发展，开发了各种系统以增强准确性和可靠性。其中一个系统是Loran-C，代表长距离导航。配置Loran-C发射在该系统有效运作中发挥着至关重要的作用。理解这个配置有助于我们欣赏长距离导航技术中涉及的复杂性。Loran-C利用一系列地面无线电发射器网络，向船舶和飞机上的接收器发送信号。这些信号被标记时间，使接收器能够根据信号从发射器传播到接收器所需的时间来计算其位置。配置Loran-C发射指的是这些发射器的布置和操作参数，包括它们的地理位置、同步和功率水平。Loran-C发射器的地理位置对其功能至关重要。发射器被战略性地放置，以确保在广阔区域内最大覆盖和信号强度，尤其是在卫星信号可能较弱或受到阻碍的地区。这种精心规划确保船舶即使在挑战性环境中，例如沿海地区和密集城市环境中，也能保持准确导航。发射器之间的同步是配置Loran-C发射的另一个重要方面。每个发射器必须在精确的间隔内发出信号，以便接收器能够进行准确的时间测量。如果信号不同步，接收器所做的计算将会出现错误，从而导致潜在的导航错误。因此，维护同步对于导航系统的完整性至关重要。发射器的功率水平也会影响配置Loran-C发射的有效性。较高的功率水平可以扩展信号的范围，使其能够到达更远的距离并穿透建筑物和自然地形等障碍。然而，需要找到一个平衡；过大的功率可能会干扰其他电子系统。因此，工程师必须仔细校准功率输出，以优化性能而不造成干扰。除了这些技术方面，配置Loran-C发射还必须考虑环境因素。例如，大气条件会影响信号传播，因此需要对发射器操作进行调整。工程师和技术人员必须不断监测这些变量，以确保系统在不同条件下保持可靠。此外，技术的进步也改善了配置Loran-C发射。现代系统采用数字技术，提高了信号传输和接收的精度。这种演变使得与其他导航系统（如GPS）的更好集成成为可能，为用户提供更全面的导航解决方案。总之，配置Loran-C发射是Loran-C导航系统的基本元素。它囊括了发射器的战略放置、信号的同步、功率管理以及对环境条件的适应。随着技术的不断进步，理解和改善这一配置将继续对确保全球安全和准确导航至关重要。Loran-C在海上和空中导航中的重要性不容小觑，因为它为卫星系统提供了一种可靠的替代方案，特别是在这些系统可能出现故障的地区。最终，配置Loran-C发射的复杂细节突显了现代世界中导航技术的复杂性和重要性。