guidance sensor

简明释义

制导传感器

英英释义

例句

1.The robot is equipped with a guidance sensor that allows it to avoid obstacles.

这台机器人配备了一个导航传感器，使其能够避开障碍物。

2.The smartphone has a built-in guidance sensor for enhanced navigation features.

这款智能手机内置了导航传感器以增强导航功能。

3.The drone uses a guidance sensor to navigate through complex environments.

这架无人机使用导航传感器在复杂环境中导航。

4.In autonomous vehicles, the guidance sensor helps maintain the correct lane.

在自动驾驶汽车中，导航传感器帮助保持正确的车道。

5.Using a guidance sensor, the fishing boat can find the best spots to catch fish.

利用导航传感器，渔船可以找到最佳捕鱼地点。

作文

In the realm of modern technology, the term guidance sensor refers to a sophisticated device that plays a crucial role in navigation and control systems. These sensors are designed to provide real-time data regarding the position and orientation of an object, which is essential for various applications ranging from aerospace to robotics. The primary function of a guidance sensor is to assist in determining the trajectory of a moving object, ensuring that it stays on its intended path. This capability is particularly important in fields such as aviation, where precise navigation is vital for safety and efficiency.One of the most common types of guidance sensor is the inertial navigation system (INS), which uses a combination of accelerometers and gyroscopes to track an object's movement. By measuring acceleration and angular velocity, the INS can calculate the current position and orientation of the object without the need for external references. This makes it especially useful in environments where GPS signals are weak or unavailable, such as underwater or in dense urban areas.Another significant application of guidance sensor technology can be found in autonomous vehicles. These vehicles rely on a variety of sensors, including LiDAR, cameras, and radar, to perceive their surroundings. The guidance sensor integrates data from these sources to create a comprehensive understanding of the vehicle's environment. This information is then used to make real-time decisions about navigation, obstacle avoidance, and route optimization. As technology advances, the accuracy and reliability of guidance sensors continue to improve, paving the way for safer and more efficient autonomous transportation.In the field of robotics, guidance sensors are equally important. Robots equipped with these sensors can navigate complex environments, perform tasks with precision, and adapt to changing conditions. For instance, a robotic arm used in manufacturing might employ a guidance sensor to ensure that it accurately positions components during assembly. This level of precision not only enhances productivity but also reduces the likelihood of errors that could lead to costly rework.Moreover, guidance sensors have applications in military operations, where they are used in missile guidance systems. These systems rely on advanced sensors to track targets and adjust flight paths accordingly, ensuring that munitions hit their intended targets with high accuracy. The integration of guidance sensors into military technology has significantly improved the effectiveness of various defense strategies.As we look to the future, the development of guidance sensors is likely to continue evolving. Innovations in materials science, artificial intelligence, and machine learning will enhance the capabilities of these sensors, making them even more reliable and efficient. For example, AI algorithms can process vast amounts of data from guidance sensors to predict and respond to dynamic changes in the environment, further improving navigation accuracy.In conclusion, the importance of guidance sensors in contemporary technology cannot be overstated. They are integral to the functioning of various systems across multiple industries, providing critical data that enables precise navigation and control. As technology advances, we can expect to see even more innovative applications of guidance sensors, transforming the way we interact with the world around us. Understanding the role and functionality of these sensors is essential for anyone interested in the future of technology and its impact on society.

在现代技术领域，术语guidance sensor指的是一种复杂的设备，在导航和控制系统中发挥着至关重要的作用。这些传感器旨在提供有关物体位置和方向的实时数据，这对于从航空航天到机器人等各种应用都是必不可少的。guidance sensor的主要功能是帮助确定移动物体的轨迹，确保其保持在预定路径上。这种能力在航空等领域尤为重要，因为精确导航对安全性和效率至关重要。最常见的guidance sensor类型之一是惯性导航系统（INS），它结合了加速度计和陀螺仪来跟踪物体的运动。通过测量加速度和角速度，INS能够在没有外部参考的情况下计算物体的当前位置和方向。这使得它在GPS信号弱或不可用的环境中尤其有用，例如水下或密集城市地区。guidance sensor技术的另一个重要应用可以在自动驾驶汽车中找到。这些车辆依赖于多种传感器，包括激光雷达、摄像头和雷达，以感知其周围环境。guidance sensor整合来自这些源的数据，以创建对车辆环境的全面理解。然后，这些信息用于实时决策，关于导航、障碍物规避和路线优化。随着技术的进步，guidance sensors的准确性和可靠性不断提高，为更安全、更高效的自动驾驶交通铺平了道路。在机器人领域，guidance sensors同样重要。配备这些传感器的机器人能够在复杂环境中导航，精确执行任务，并适应变化的条件。例如，用于制造的机器人手臂可能会使用guidance sensor来确保在组装过程中准确定位组件。这种精确度不仅提高了生产力，还减少了可能导致昂贵返工的错误的可能性。此外，guidance sensors在军事行动中的应用也不可忽视，它们被用于导弹制导系统。这些系统依赖于先进的传感器来跟踪目标并相应调整飞行路径，确保弹药以高精度命中其预定目标。将guidance sensors整合到军事技术中显著提高了各种防御策略的有效性。展望未来，guidance sensors的发展可能会继续演变。材料科学、人工智能和机器学习的创新将增强这些传感器的能力，使其更加可靠和高效。例如，人工智能算法可以处理来自guidance sensors的大量数据，以预测和响应环境中的动态变化，进一步提高导航的准确性。总之，guidance sensors在当代技术中的重要性不容小觑。它们是多个行业中各种系统正常运作的核心，提供关键数据，使精确导航和控制成为可能。随着技术的进步，我们可以期待看到guidance sensors的更多创新应用，改变我们与周围世界的互动方式。理解这些传感器的角色和功能对于任何对未来技术及其对社会影响感兴趣的人来说都是至关重要的。