roll synchronization
简明释义
横摇同步
英英释义
例句
1.To enhance the visual effects, the team focused on achieving roll synchronization 音轨同步 between the CGI and live-action footage.
为了增强视觉效果,团队专注于实现场景与CGI之间的音轨同步。
2.During the rehearsal, the musicians practiced their parts to achieve roll synchronization 音轨同步 with the conductor.
在排练期间,音乐家们练习他们的部分,以实现与指挥的音轨同步。
3.In the live broadcast, the director emphasized the importance of roll synchronization 音轨同步 to avoid any delays.
在直播中,导演强调了音轨同步的重要性,以避免任何延迟。
4.The film editor ensured that the audio was in perfect roll synchronization 音轨同步 with the video.
影片编辑确保音频与视频完美音轨同步。
5.The software update improved the roll synchronization 音轨同步 feature for better user experience.
软件更新改善了音轨同步功能,以提升用户体验。
作文
In the modern world of technology, synchronization plays a crucial role in ensuring that various systems operate seamlessly together. One specific type of synchronization that has gained attention in recent years is roll synchronization. This term refers to the process of aligning the rotational movements of multiple objects, such as wheels or gears, to ensure they move in harmony. In many engineering applications, achieving roll synchronization is vital for enhancing efficiency and performance.For instance, consider the automotive industry. Vehicles are equipped with multiple rotating components, including wheels, axles, and driveshafts. If these parts do not rotate in sync, it can lead to uneven wear, reduced fuel efficiency, and even safety hazards. Therefore, engineers must implement techniques to achieve roll synchronization among these components. This can involve using advanced sensors and control systems to monitor the speed and rotation of each part, making real-time adjustments as necessary.Moreover, roll synchronization is not limited to vehicles; it is also essential in robotics and manufacturing. Robots often have multiple joints and actuators that must work together to perform complex tasks. For example, a robotic arm used in assembly lines must ensure that its joints rotate in a synchronized manner to accurately manipulate objects. Any misalignment can result in errors, leading to production delays and increased costs. Therefore, maintaining roll synchronization in robotic systems is critical for operational success.In addition to mechanical systems, roll synchronization can also be observed in natural phenomena. For example, celestial bodies such as planets and moons exhibit synchronized rotational patterns due to gravitational interactions. Understanding these natural systems can provide insights into designing artificial systems that require similar synchronization.The importance of roll synchronization extends beyond just efficiency; it also impacts safety and reliability. In aviation, for instance, aircraft rely on synchronized movements of their engines and control surfaces to maintain stability during flight. Any deviation from this synchronization can lead to catastrophic failures. Therefore, aerospace engineers invest significant resources in ensuring roll synchronization within aircraft systems.As technology continues to advance, the methods and tools for achieving roll synchronization are becoming more sophisticated. Innovations in artificial intelligence and machine learning are paving the way for smarter control systems that can predict and adjust for any potential misalignments in real-time. This not only improves performance but also enhances the safety and longevity of the systems involved.In conclusion, roll synchronization is a fundamental concept that underpins the functionality of various mechanical and natural systems. Its significance spans across multiple industries, including automotive, robotics, and aerospace. As we continue to innovate and develop new technologies, understanding and implementing effective roll synchronization techniques will remain essential for achieving optimal performance and safety. The pursuit of seamless synchronization will undoubtedly shape the future of engineering and technology, leading to more efficient and reliable systems for our daily lives.
在现代科技世界中,同步化在确保各种系统无缝协作方面发挥着至关重要的作用。近年来,roll synchronization(滚动同步)这一特定类型的同步化引起了人们的关注。这个术语指的是对多个物体(如车轮或齿轮)的旋转运动进行对齐,以确保它们和谐地移动。在许多工程应用中,实现roll synchronization对于提高效率和性能至关重要。例如,考虑汽车工业。车辆配备了多个旋转组件,包括车轮、车轴和传动轴。如果这些部件的旋转不同步,可能导致不均匀磨损、降低燃油效率,甚至造成安全隐患。因此,工程师必须实施技术以实现这些组件之间的roll synchronization。这可能涉及使用先进的传感器和控制系统来监测每个部件的速度和旋转,并根据需要进行实时调整。此外,roll synchronization不仅限于车辆;它在机器人和制造业中也至关重要。机器人通常具有多个关节和执行器,必须协同工作才能执行复杂的任务。例如,组装线中使用的机械臂必须确保其关节以同步的方式旋转,以准确地操纵物体。任何不对齐都可能导致错误,从而导致生产延误和成本增加。因此,保持机器人系统中的roll synchronization对于操作成功至关重要。除了机械系统,roll synchronization还可以在自然现象中观察到。例如,行星和卫星等天体由于引力相互作用而表现出同步的旋转模式。理解这些自然系统可以为设计需要类似同步的人工系统提供见解。roll synchronization的重要性不仅体现在效率上;它还影响安全性和可靠性。在航空领域,例如,飞机依赖于发动机和控制面板的同步运动来保持飞行稳定。任何偏离这种同步都会导致灾难性的故障。因此,航空航天工程师在确保飞机系统内的roll synchronization方面投入了大量资源。随着技术的不断进步,实现roll synchronization的方法和工具变得越来越复杂。人工智能和机器学习的创新为更智能的控制系统铺平了道路,这些系统能够实时预测和调整潜在的不同步。这不仅提高了性能,还增强了相关系统的安全性和耐用性。总之,roll synchronization是一个基本概念,它支撑着各种机械和自然系统的功能。它的重要性跨越多个行业,包括汽车、机器人和航空航天。随着我们继续创新和开发新技术,理解和实施有效的roll synchronization技术将始终是实现最佳性能和安全性的关键。追求无缝同步无疑将塑造工程和技术的未来,为我们的日常生活带来更高效、更可靠的系统。
