coarse time delay
简明释义
粗延时
英英释义
例句
1.The system can tolerate a coarse time delay 粗略时间延迟 of up to 5 seconds without affecting performance.
该系统可以容忍高达5秒的粗略时间延迟而不影响性能。
2.A coarse time delay 粗略时间延迟 may be acceptable in non-real-time applications.
在非实时应用中,粗略时间延迟可能是可以接受的。
3.When synchronizing devices, it is important to account for the coarse time delay 粗略时间延迟 between signals.
在同步设备时,考虑信号之间的粗略时间延迟是很重要的。
4.In video streaming, a coarse time delay 粗略时间延迟 can lead to buffering issues.
在视频流媒体中,粗略时间延迟可能导致缓冲问题。
5.The application was designed to handle a coarse time delay 粗略时间延迟 of several milliseconds.
该应用程序设计为能够处理几毫秒的粗略时间延迟。
作文
In the realm of signal processing and telecommunications, understanding various forms of delays is crucial for ensuring efficient communication. One such concept is the coarse time delay, which refers to a significant or noticeable delay in the transmission of signals. This type of delay can occur due to various factors, including the physical distance between transmitting and receiving devices, the medium through which the signal travels, and the inherent limitations of the technology used. To better grasp the implications of coarse time delay, it is essential to consider its impact on real-world applications. For instance, in satellite communications, signals must travel vast distances to reach their destination. The time it takes for a signal to traverse this distance can lead to a coarse time delay that affects the quality of the communication. If the delay is too pronounced, it can result in noticeable lags during conversations, making real-time communication challenging. Moreover, coarse time delay can also affect data synchronization in distributed systems. In scenarios where multiple devices need to operate in harmony, a significant delay can cause discrepancies in data exchange, leading to errors and inefficiencies. For example, in online gaming, if one player's actions are delayed due to a coarse time delay, it can disrupt the overall gameplay experience for all participants. Addressing coarse time delay requires a multifaceted approach. Engineers and technicians often implement various techniques to minimize delays, such as optimizing signal pathways, using faster transmission technologies, and improving the efficiency of data encoding and decoding processes. These efforts are vital in ensuring that communication systems function smoothly and effectively, particularly in high-stakes environments like emergency response systems or financial trading platforms. In conclusion, coarse time delay is a significant factor in the field of communications and signal processing. By understanding its causes and effects, professionals can work towards mitigating its impact on various applications. As technology continues to evolve, the ability to manage and reduce coarse time delay will remain a critical aspect of maintaining effective communication systems across the globe.
在信号处理和电信领域,理解各种延迟形式对于确保高效通信至关重要。一个这样的概念是粗略时间延迟,它指的是信号传输中的显著或明显的延迟。这种类型的延迟可能由于多种因素而发生,包括发射设备和接收设备之间的物理距离、信号传播的介质以及所使用技术的固有限制。 为了更好地理解粗略时间延迟的影响,有必要考虑其对现实应用的影响。例如,在卫星通信中,信号必须穿越巨大的距离才能到达目的地。信号穿越这个距离所需的时间可能导致粗略时间延迟,这会影响通信的质量。如果延迟过于明显,在对话中可能会出现可察觉的滞后,使实时通信变得困难。 此外,粗略时间延迟还可能影响分布式系统中的数据同步。在多个设备需要和谐运作的情况下,显著的延迟可能导致数据交换中的差异,从而导致错误和低效。例如,在在线游戏中,如果由于粗略时间延迟而导致一个玩家的动作延迟,这可能会扰乱所有参与者的整体游戏体验。 解决粗略时间延迟问题需要多方面的方法。工程师和技术人员通常会实施各种技术来最小化延迟,例如优化信号路径、使用更快的传输技术以及提高数据编码和解码过程的效率。这些努力对于确保通信系统的平稳有效运行至关重要,特别是在紧急响应系统或金融交易平台等高风险环境中。 总之,粗略时间延迟是通信和信号处理领域的重要因素。通过理解其原因和影响,专业人士可以努力减轻其对各种应用的影响。随着技术的不断发展,管理和减少粗略时间延迟的能力将仍然是维护全球有效通信系统的关键方面。
