close-loop maneuver
简明释义
闭环操纵
英英释义
例句
1.In racing, a close-loop maneuver can help drivers gain an advantage by optimizing their cornering technique.
在赛车中,闭环机动可以帮助车手通过优化过弯技术获得优势。
2.The pilot executed a close-loop maneuver to safely land the aircraft in adverse weather conditions.
飞行员执行了一个闭环机动,以在不利天气条件下安全降落飞机。
3.During the training session, we practiced a close-loop maneuver to improve our response times.
在训练课程中,我们练习了一个闭环机动以提高我们的反应时间。
4.The robotics team programmed the robot to perform a close-loop maneuver for precise navigation.
机器人团队编程使机器人能够执行一个闭环机动以实现精确导航。
5.The military exercise included a close-loop maneuver to assess the troops' tactical skills.
军事演习包括一个闭环机动以评估部队的战术技能。
作文
In the world of robotics and automation, the concept of a close-loop maneuver is pivotal for ensuring precision and efficiency. A close-loop maneuver refers to a control system that continuously monitors the output of a process and adjusts the inputs accordingly to achieve the desired outcome. This mechanism is essential in various applications, from industrial automation to autonomous vehicles. The principle behind a close-loop maneuver lies in feedback. By utilizing sensors, a system can gather real-time data about its performance. For instance, in an automated manufacturing line, sensors can track the speed and accuracy of a robotic arm. If the arm deviates from its intended path or speed, the control system can instantly make adjustments to correct the trajectory. This ensures that the final product meets quality standards without significant delays or errors.One of the most remarkable applications of close-loop maneuvers is in autonomous vehicles. These vehicles use an array of sensors, including cameras, LIDAR, and GPS, to navigate their environment. The system constantly assesses its position and surroundings, making real-time decisions to avoid obstacles and follow traffic rules. For example, if an autonomous car detects a pedestrian crossing the street, it will execute a close-loop maneuver by slowing down or stopping to ensure safety.Moreover, close-loop maneuvers are not limited to physical systems; they are also applicable in software development and data analysis. In machine learning, algorithms often employ a close-loop maneuver by iteratively refining their models based on performance metrics. For instance, a recommendation system may analyze user interactions and adjust its suggestions accordingly, creating a more personalized experience. This iterative process relies heavily on feedback loops to enhance accuracy and relevance.The significance of close-loop maneuvers extends beyond technical applications. In a broader context, this concept can be applied to personal development and organizational management. Individuals can implement close-loop maneuvers by setting goals, monitoring progress, and making necessary adjustments to their strategies. Similarly, businesses can utilize this approach by collecting customer feedback, analyzing sales data, and adapting their services or products to better meet market demands.In conclusion, the concept of a close-loop maneuver is integral to various fields, ranging from engineering to personal growth. By embracing the feedback loop mechanism, systems and individuals can enhance their performance and achieve desired outcomes more effectively. As technology continues to advance, the importance of close-loop maneuvers will only increase, driving innovation and fostering a culture of continuous improvement. Understanding and mastering this concept is crucial for anyone looking to thrive in an increasingly complex and dynamic world.
在机器人和自动化的世界中,“闭环操作”这一概念对于确保精确和效率至关重要。“闭环操作”指的是一种控制系统,它持续监测过程的输出,并相应地调整输入,以实现期望的结果。这一机制在各种应用中都是必不可少的,从工业自动化到自主车辆。“闭环操作”背后的原理在于反馈。通过利用传感器,系统可以收集有关其性能的实时数据。例如,在自动化制造线上,传感器可以跟踪机器人手臂的速度和准确性。如果手臂偏离了预定的路径或速度,控制系统可以立即进行调整以纠正轨迹。这确保最终产品符合质量标准,而不会出现显著的延迟或错误。“闭环操作”最引人注目的应用之一是在自主车辆中。这些车辆使用一系列传感器,包括摄像头、激光雷达和GPS,来导航其环境。系统不断评估其位置和周围环境,实时做出决策以避免障碍物并遵循交通规则。例如,如果一辆自主汽车检测到行人正在过马路,它将执行“闭环操作”,通过减速或停车来确保安全。此外,“闭环操作”不仅限于物理系统;它们也适用于软件开发和数据分析。在机器学习中,算法通常通过根据性能指标迭代地优化其模型来采用“闭环操作”。例如,推荐系统可能会分析用户互动并相应地调整其建议,从而创造更个性化的体验。这一迭代过程在很大程度上依赖于反馈循环,以提高准确性和相关性。“闭环操作”的重要性超出了技术应用。在更广泛的背景下,这一概念可以应用于个人发展和组织管理。个人可以通过设定目标、监测进展并对其策略进行必要调整来实施“闭环操作”。同样,企业可以通过收集客户反馈、分析销售数据并调整其服务或产品以更好地满足市场需求来利用这一方法。总之,“闭环操作”的概念在各个领域都是不可或缺的,从工程到个人成长。通过接受反馈循环机制,系统和个人可以提高其表现,更有效地实现期望的结果。随着技术的不断进步,“闭环操作”的重要性只会增强,推动创新并培养持续改进的文化。理解和掌握这一概念对于任何希望在日益复杂和动态的世界中蓬勃发展的个人来说都是至关重要的。
