delay time of object
简明释义
对象延迟时间
英英释义
The duration between the initiation of an action and the observable response or effect of that action on a particular object. | 从一个动作开始到该动作对特定物体产生可观察的反应或效果之间的时间持续长度。 |
例句
1.In robotics, understanding the delay time of object 物体的延迟时间 is crucial for accurate movement.
在机器人技术中,了解
2.The system calculates the delay time of object 物体的延迟时间 before executing the command.
系统在执行命令之前计算
3.Engineers need to account for the delay time of object 物体的延迟时间 in their simulations.
工程师在模拟中需要考虑
4.The sensor measures the delay time of object 物体的延迟时间 to improve tracking accuracy.
传感器测量
5.The delay time of object 物体的延迟时间 affects how quickly a system can respond.
物体的延迟时间影响系统响应的速度。
作文
In the realm of physics and engineering, understanding the concept of delay time of object is crucial for analyzing motion and predicting the behavior of various systems. The delay time of object refers to the time interval between the application of a force or input to an object and the resultant change in its state of motion or position. This concept is particularly relevant in fields such as robotics, automotive engineering, and aerospace, where precise timing can significantly impact performance and safety.When we consider a simple example, such as a car accelerating from a stoplight, the delay time of object can be observed in the time it takes for the engine to respond to the driver pressing the accelerator pedal. Initially, there may be a brief moment where the car does not move, even though the driver has initiated the action. This momentary pause before the car begins to accelerate is a manifestation of the delay time of object. Factors contributing to this delay include the mechanical response of the engine, the transmission system, and the inertia of the vehicle itself.In more complex systems, such as robotic arms used in manufacturing, the delay time of object can have significant implications for efficiency and accuracy. If a robot is programmed to pick up an object and place it in a specific location, any delay in the movement can lead to misalignment or dropped items. Engineers must account for the delay time of object when designing control algorithms that dictate how quickly and accurately the robot can perform its tasks. By minimizing this delay, manufacturers can improve productivity and reduce errors in the assembly line.Moreover, the delay time of object is also a critical consideration in aerospace applications. For instance, when a spacecraft is launched, the timing of various stages of the launch process must be meticulously planned. Any delays in the separation of rocket stages or the deployment of satellites can result in mission failure. Understanding the delay time of object helps engineers design better systems that can compensate for these delays, ensuring that all components work together seamlessly.In conclusion, the concept of delay time of object plays a vital role in various fields of science and engineering. By comprehensively understanding this concept, professionals can devise strategies to minimize delays, enhance performance, and ensure safety in their respective domains. Whether it is in the automotive industry, robotics, or aerospace, recognizing and addressing the delay time of object is essential for achieving optimal results and advancing technology. As we continue to innovate and push the boundaries of what is possible, the significance of understanding the delay time of object will only grow, paving the way for more efficient and effective systems in the future.
在物理和工程领域,理解“delay time of object”的概念对于分析运动和预测各种系统的行为至关重要。“delay time of object”指的是施加力或输入到物体上与其运动状态或位置发生变化之间的时间间隔。这个概念在机器人技术、汽车工程和航空航天等领域尤为重要,因为精确的时机会显著影响性能和安全性。当我们考虑一个简单的例子,比如一辆车从红绿灯前加速,delay time of object可以在司机踩下油门踏板后,汽车开始加速之前的那段时间中观察到。最初,尽管司机已经启动了动作,汽车可能会有短暂的停顿。这种在汽车开始加速之前的瞬间延迟就是delay time of object的体现。导致这种延迟的因素包括发动机的机械响应、传动系统和车辆本身的惯性。在更复杂的系统中,例如用于制造的机器人手臂,delay time of object对效率和准确性具有重要意义。如果一个机器人被编程为拾取物体并将其放置在特定位置,那么任何运动上的延迟都可能导致对齐错误或物品掉落。工程师必须在设计控制算法时考虑delay time of object,以决定机器人执行任务的速度和准确性。通过最小化这种延迟,制造商可以提高生产力并减少装配线上的错误。此外,delay time of object在航空航天应用中也是一个关键考虑因素。例如,当航天器发射时,各个发射过程阶段的时机必须经过精心规划。火箭阶段分离或卫星部署的任何延迟都可能导致任务失败。理解delay time of object帮助工程师设计更好的系统,以补偿这些延迟,确保所有组件无缝协作。总之,“delay time of object”的概念在科学和工程的各个领域发挥着至关重要的作用。通过全面理解这一概念,专业人员可以制定策略以最小化延迟、提高性能并确保各自领域的安全性。无论是在汽车工业、机器人技术还是航空航天,认识和解决delay time of object都是实现最佳结果和推动技术进步的关键。随着我们不断创新并推动可能性的边界,理解delay time of object的重要性只会增长,为未来更高效、更有效的系统铺平道路。
