automatic lateral adjustment

简明释义

侧面自动调整;

英英释义

例句

1.In the latest model of the drone, automatic lateral adjustment enhances stability in windy conditions.

在最新型号的无人机中，自动横向调整提高了在风条件下的稳定性。

2.The smart conveyor belt system employs automatic lateral adjustment to ensure products are aligned correctly.

智能输送带系统采用自动横向调整以确保产品正确对齐。

3.The new robotic arm features automatic lateral adjustment, allowing it to adapt to varying widths of materials during assembly.

新型机械臂具有自动横向调整功能，使其能够在组装过程中适应不同宽度的材料。

4.The advanced camera system includes automatic lateral adjustment for improved framing of shots.

先进的相机系统包括自动横向调整，以改善拍摄构图。

5.With automatic lateral adjustment, the vehicle can navigate tight spaces without driver intervention.

通过自动横向调整，车辆可以在狭小空间内导航，而无需驾驶员干预。

作文

In the realm of modern technology, the term automatic lateral adjustment plays a crucial role in enhancing user experience and optimizing functionality. This concept refers to the ability of a system or device to automatically adjust its position or orientation laterally, or sideways, in response to external stimuli or changes in the environment. The significance of automatic lateral adjustment can be observed across various industries, including automotive, robotics, and even consumer electronics.For instance, in the automotive industry, vehicles equipped with advanced driver-assistance systems (ADAS) utilize automatic lateral adjustment to maintain optimal lane positioning. These systems employ sensors and cameras to detect lane markings and other vehicles, allowing the car to make real-time adjustments to its steering. This not only enhances safety by reducing the risk of lane departure but also provides a more comfortable driving experience for passengers.Similarly, in robotics, the implementation of automatic lateral adjustment is vital for the navigation and operation of autonomous robots. These robots often encounter dynamic environments where obstacles may shift or new paths may open up. By incorporating automatic lateral adjustment capabilities, robots can adapt their movements efficiently, ensuring that they navigate around obstacles without human intervention. This adaptability is essential for applications in warehouses, manufacturing plants, and even in delivery services.Consumer electronics have also embraced the concept of automatic lateral adjustment. For example, modern televisions and projectors are designed with features that allow them to automatically adjust their display settings based on the viewer's position. This ensures that images remain clear and well-framed, regardless of where the viewer is sitting in the room. Such innovations highlight how automatic lateral adjustment can significantly enhance user satisfaction by providing an optimal viewing experience.The benefits of automatic lateral adjustment extend beyond mere convenience; they also contribute to efficiency and productivity. In industrial settings, machinery that can make lateral adjustments automatically can operate more smoothly and reduce downtime caused by manual adjustments. This leads to increased output and improved overall performance.Moreover, as technology continues to evolve, the potential applications of automatic lateral adjustment are expanding. With advancements in artificial intelligence and machine learning, systems are becoming smarter and more capable of making complex lateral adjustments based on predictive analytics. This could revolutionize fields such as agriculture, where drones equipped with automatic lateral adjustment can optimize crop monitoring and spraying by adjusting their flight paths dynamically.In conclusion, the concept of automatic lateral adjustment is a testament to the innovative spirit of modern technology. It enhances safety, improves user experience, and drives efficiency across various sectors. As we continue to explore the possibilities of automation and intelligent systems, it is clear that automatic lateral adjustment will remain a key component in the development of future technologies, paving the way for smarter and more responsive solutions that cater to our ever-changing needs.

在现代科技领域，术语自动横向调整在提升用户体验和优化功能方面发挥着至关重要的作用。这个概念指的是系统或设备能够根据外部刺激或环境变化，自动调整其位置或方向（即横向或侧向）。自动横向调整的重要性可以在汽车、机器人甚至消费电子等各个行业中观察到。例如，在汽车行业，配备先进驾驶辅助系统（ADAS）的车辆利用自动横向调整来保持最佳车道位置。这些系统使用传感器和摄像头来检测车道标记和其他车辆，从而使汽车能够实时调整其方向盘。这不仅通过减少车道偏离的风险来增强安全性，还为乘客提供了更舒适的驾驶体验。同样，在机器人技术中，实施自动横向调整对于自主机器人的导航和操作至关重要。这些机器人经常遇到动态环境，其中障碍物可能会移动或新的路径可能会打开。通过结合自动横向调整能力，机器人可以有效地调整其运动，确保它们在没有人工干预的情况下绕过障碍物。这种适应性对于仓库、制造工厂甚至配送服务等应用至关重要。消费电子产品也采用了自动横向调整的概念。例如，现代电视和投影仪设计了可以根据观众的位置自动调整其显示设置的功能。这确保了无论观众坐在房间的哪个位置，图像都保持清晰且框架良好。这些创新突显了自动横向调整如何通过提供最佳观看体验显著提升用户满意度。自动横向调整的好处超越了单纯的便利性；它们还促进了效率和生产力。在工业环境中，能够自动进行横向调整的机械设备可以更加顺畅地运行，减少因手动调整而造成的停机时间。这导致产出增加，整体性能改善。此外，随着技术的不断发展，自动横向调整的潜在应用正在扩大。随着人工智能和机器学习的进步，系统变得更加智能，能够根据预测分析进行复杂的横向调整。这可能会彻底改变农业等领域，其中配备自动横向调整的无人机可以通过动态调整飞行路径来优化作物监测和喷洒。总之，自动横向调整的概念是现代科技创新精神的证明。它在各个行业提高安全性、改善用户体验并推动效率。随着我们继续探索自动化和智能系统的可能性，很明显，自动横向调整将仍然是未来技术发展的关键组成部分，为满足我们不断变化的需求铺平道路。