automatic balancing

简明释义

1. 自动调零; 2. 自动瞒零; 3. 自动平衡;

英英释义

例句

1.In video games, automatic balancing 自动平衡 helps ensure fair play among players of different skill levels.

在视频游戏中，自动平衡 自动平衡有助于确保不同技能水平的玩家之间的公平竞争。

2.With automatic balancing 自动平衡, the audio system adjusts sound levels based on room acoustics.

通过自动平衡 自动平衡，音频系统根据房间的声学特性调整音量水平。

3.The drone uses automatic balancing 自动平衡 to stabilize its flight in windy conditions.

该无人机使用自动平衡 自动平衡来稳定其在风中飞行的状态。

4.The new smartphone features automatic balancing 自动平衡 for improved photo quality.

这款新智能手机具备了自动平衡 自动平衡功能，以提高照片质量。

5.The fitness app includes automatic balancing 自动平衡 features to track and adjust users' workout intensity.

这款健身应用程序包含了自动平衡 自动平衡功能，以跟踪和调整用户的锻炼强度。

作文

In today's fast-paced world, technology continues to evolve, making our lives easier and more efficient. One of the most intriguing advancements is the concept of automatic balancing, which refers to systems or processes that can self-regulate and maintain equilibrium without human intervention. This technology is increasingly being integrated into various fields, including robotics, finance, and even personal devices, enhancing performance and user experience.For instance, in the realm of robotics, automatic balancing plays a crucial role in ensuring stability and functionality. Robots equipped with this feature can adjust their posture in real-time, allowing them to navigate uneven terrains or perform complex tasks without falling over. A notable example is the development of bipedal robots, which mimic human walking. These robots rely on sophisticated algorithms that enable automatic balancing, ensuring that they maintain their center of gravity and move fluidly.In finance, automatic balancing can be observed in portfolio management. Many investment platforms utilize algorithms that automatically adjust asset allocations based on market conditions and individual risk tolerances. This helps investors maintain a balanced portfolio without having to constantly monitor their investments. The automatic balancing feature ensures that the portfolio remains aligned with the investor's goals, minimizing risks and maximizing returns.Moreover, personal devices such as smartphones and drones also benefit from automatic balancing. For example, drones use gyroscopic sensors and accelerometers to achieve stable flight. These devices can autonomously adjust their position mid-air, compensating for wind disturbances or shifts in weight. This automatic balancing capability not only enhances the safety of drone operations but also improves the quality of aerial photography and videography.The implications of automatic balancing extend beyond just technology; they influence how we approach problem-solving in various aspects of life. By incorporating self-regulating systems, we can reduce the need for constant human oversight, allowing us to focus on more strategic tasks. This shift towards automation can lead to increased efficiency and productivity in both professional and personal settings.However, the rise of automatic balancing technologies also raises questions about dependency on automation. As we become more reliant on these systems, it is essential to consider the potential risks associated with their failure. For instance, if a robotic system fails to maintain automatic balancing, it could result in accidents or malfunctions. Therefore, while embracing these advancements, we must also prioritize safety measures and contingency plans to mitigate any adverse outcomes.In conclusion, automatic balancing represents a significant leap forward in technology, offering numerous benefits across various fields. From enhancing the functionality of robots to optimizing financial portfolios and improving the stability of personal devices, its applications are vast and varied. As we continue to innovate and integrate automatic balancing into our daily lives, it is crucial to remain mindful of the challenges and responsibilities that come with such advancements. By striking a balance between leveraging technology and maintaining human oversight, we can harness the full potential of automatic balancing while ensuring a safe and productive future.

在当今快节奏的世界中，科技不断发展，使我们的生活变得更加便捷和高效。其中一个最引人注目的进展是“自动平衡”的概念，它指的是能够自我调节并维持平衡的系统或过程，而无需人类干预。这项技术越来越多地被应用于机器人、金融甚至个人设备等各个领域，从而提升性能和用户体验。例如，在机器人领域，“自动平衡”在确保稳定性和功能性方面发挥着至关重要的作用。配备此功能的机器人能够实时调整其姿态，使其能够在不平坦的地形上导航或执行复杂任务而不会摔倒。一个显著的例子是双足机器人的发展，它们模仿人类行走。这些机器人依赖于复杂的算法，使其能够实现“自动平衡”，确保它们保持重心并流畅移动。在金融领域，“自动平衡”可以在投资组合管理中观察到。许多投资平台利用算法，根据市场条件和个人风险承受能力自动调整资产配置。这帮助投资者在不必不断监控投资的情况下维持平衡的投资组合。“自动平衡”功能确保投资组合与投资者的目标保持一致，最小化风险并最大化收益。此外，智能手机和无人机等个人设备也受益于“自动平衡”。例如，无人机使用陀螺传感器和加速度计来实现稳定飞行。这些设备可以在空中自主调整其位置，以补偿风的干扰或重量的变化。这种“自动平衡”能力不仅增强了无人机操作的安全性，还提高了航拍和摄像的质量。“自动平衡”的意义不仅限于技术；它影响着我们在生活各个方面解决问题的方法。通过整合自我调节系统，我们可以减少对持续人类监督的需求，从而使我们能够专注于更具战略性的任务。这种向自动化的转变可以在专业和个人环境中提高效率和生产力。然而，“自动平衡”技术的兴起也引发了对对自动化依赖的质疑。随着我们对这些系统的依赖程度加深，考虑其失败可能带来的潜在风险就显得尤为重要。例如，如果一个机器人系统未能维持“自动平衡”，可能会导致事故或故障。因此，在拥抱这些进步的同时，我们必须优先考虑安全措施和应急计划，以减轻任何不良后果。总之，“自动平衡”代表了科技的一次重大飞跃，提供了在各个领域的众多好处。从增强机器人的功能到优化金融投资组合，再到改善个人设备的稳定性，它的应用广泛而多样。随着我们不断创新并将“自动平衡”融入日常生活，保持对伴随这些进步而来的挑战和责任的关注至关重要。通过在利用技术与保持人类监督之间找到平衡，我们可以充分利用“自动平衡”的潜力，同时确保一个安全和高效的未来。