laser receiver

简明释义

激光辐射接受器

英英释义

例句

1.The construction team used a laser receiver to ensure the building's foundation was level.

建筑团队使用了一个激光接收器来确保建筑基础的水平。

2.When surveying the land, the engineer relied on a laser receiver for accurate measurements.

在测量土地时，工程师依赖于一个激光接收器来获得准确的测量结果。

3.Using a laser receiver significantly speeds up the process of aligning structures.

使用激光接收器显著加快了对齐结构的过程。

4.During the installation of solar panels, we utilized a laser receiver to maximize efficiency.

在安装太阳能电池板时，我们利用了一个激光接收器来最大化效率。

5.The laser receiver can detect signals from the laser transmitter up to several hundred meters away.

这个激光接收器可以探测到来自激光发射器的信号，距离可达几百米。

作文

In the realm of modern technology, the term laser receiver (激光接收器) has become increasingly significant, especially in applications related to telecommunications, surveying, and robotics. A laser receiver (激光接收器) is a device that detects and measures the intensity of laser beams, converting the light signals into electrical signals for further processing. This technology plays a crucial role in various fields, enhancing accuracy and efficiency in data collection and transmission.One of the most prominent applications of laser receivers (激光接收器) is in surveying and construction. Surveyors use these devices to measure distances and angles with remarkable precision. The laser receiver (激光接收器) works in conjunction with a laser transmitter, which emits a laser beam toward a target. When the beam hits the target, it reflects back to the laser receiver (激光接收器), allowing the device to calculate the distance based on the time it takes for the light to return. This method not only speeds up the surveying process but also minimizes human error, making it a preferred choice for professionals in the field.Moreover, laser receivers (激光接收器) are essential components in the field of telecommunications. They are used in fiber optic communication systems to receive light signals that carry information over long distances. The efficiency of these systems largely depends on the performance of the laser receiver (激光接收器), as it must accurately detect and convert the light signals into electrical signals without significant loss of data. This capability is vital for maintaining high-speed internet connections and ensuring reliable communication networks.In addition to surveying and telecommunications, laser receivers (激光接收器) have found applications in the field of robotics. Autonomous robots often utilize laser receivers (激光接收器) for navigation and obstacle detection. By emitting laser beams and analyzing the reflected signals, robots can create detailed maps of their surroundings, allowing them to navigate complex environments safely. This technology has been instrumental in the development of self-driving cars and drones, which rely on precise measurements to operate effectively.The advancements in laser receiver (激光接收器) technology continue to evolve, leading to more compact, efficient, and cost-effective devices. Researchers are exploring new materials and designs that enhance the sensitivity and range of these receivers, paving the way for even more innovative applications. As industries increasingly adopt automation and smart technologies, the demand for high-performance laser receivers (激光接收器) is expected to grow significantly.In conclusion, the laser receiver (激光接收器) is a pivotal technology that has transformed various industries by improving measurement accuracy, data transmission, and robotic navigation. Its applications in surveying, telecommunications, and robotics illustrate the versatility and importance of this device in our technologically driven world. As we look to the future, the continued development of laser receivers (激光接收器) will undoubtedly lead to further innovations, enhancing our ability to interact with and understand the environment around us.

在现代科技领域，术语激光接收器（laser receiver）变得越来越重要，特别是在与电信、测量和机器人相关的应用中。激光接收器（laser receiver）是一种检测和测量激光束强度的设备，将光信号转换为电信号以便进一步处理。这项技术在各个领域发挥着至关重要的作用，提高了数据收集和传输的准确性和效率。激光接收器（laser receiver）最显著的应用之一是在测量和建筑领域。测量师使用这些设备以极高的精度测量距离和角度。激光接收器（laser receiver）与激光发射器一起工作，后者向目标发射激光束。当光束击中目标时，它会反射回激光接收器（laser receiver），使设备能够根据光返回所需的时间计算距离。这种方法不仅加快了测量过程，还最小化了人为错误，使其成为专业人士的首选。此外，激光接收器（laser receiver）是电信领域的重要组成部分。它们用于光纤通信系统中，接收携带信息的光信号。该系统的效率在很大程度上依赖于激光接收器（laser receiver）的性能，因为它必须准确地检测并将光信号转换为电信号，而不会显著丢失数据。这种能力对于维持高速互联网连接和确保可靠的通信网络至关重要。除了测量和电信，激光接收器（laser receiver）还在机器人领域找到了应用。自主机器人通常利用激光接收器（laser receiver）进行导航和障碍物检测。通过发射激光束并分析反射信号，机器人可以创建其周围环境的详细地图，使它们能够安全地导航复杂的环境。这项技术对自动驾驶汽车和无人机的发展至关重要，这些设备依赖精确的测量来有效运作。随着激光接收器（laser receiver）技术的进步，设备变得更加紧凑、高效和经济实惠。研究人员正在探索新材料和设计，以增强这些接收器的灵敏度和范围，为更具创新性的应用铺平道路。随着各行各业越来越多地采用自动化和智能技术，对高性能激光接收器（laser receiver）的需求预计将显著增长。总之，激光接收器（laser receiver）是一项关键技术，通过提高测量准确性、数据传输和机器人导航，改变了各个行业。它在测量、电信和机器人中的应用展示了这种设备在我们科技驱动的世界中的多功能性和重要性。展望未来，激光接收器（laser receiver）的持续发展无疑将导致更多的创新，增强我们与周围环境互动和理解的能力。