time-division command synchronization

简明释义

时分指令同步方式

英英释义

例句

1.The project manager emphasized the importance of time-division command synchronization during the system design phase.

项目经理在系统设计阶段强调了时分命令同步的重要性。

2.The engineers implemented time-division command synchronization to enhance the reliability of the network.

工程师们实施了时分命令同步以提高网络的可靠性。

3.In satellite systems, time-division command synchronization is critical for coordinating signals from multiple satellites.

在卫星系统中，时分命令同步对于协调多个卫星的信号至关重要。

4.With time-division command synchronization, we can manage the bandwidth more effectively in our telecommunications system.

通过时分命令同步，我们可以更有效地管理电信系统中的带宽。

5.The new communication protocol relies on time-division command synchronization to ensure that data packets are transmitted without interference.

新的通信协议依赖于时分命令同步以确保数据包在传输过程中不发生干扰。

作文

In the realm of modern telecommunications and computer networking, the term time-division command synchronization plays a crucial role in ensuring efficient communication between multiple devices. This concept involves dividing time into distinct intervals, during which specific commands or signals are transmitted to various components within a system. By utilizing time-division command synchronization (时间分割指令同步), systems can minimize interference and maximize the use of available bandwidth. To better understand this concept, let’s consider a practical example: imagine a busy intersection with traffic lights controlling the flow of vehicles from different directions. Each traffic light operates on a timed cycle, allowing cars from one direction to proceed while halting those from another. In a similar manner, time-division command synchronization organizes the timing of commands in a network, ensuring that each device has its turn to communicate without overlapping with others. One of the primary benefits of time-division command synchronization is its ability to enhance the reliability of data transmission. In a traditional network where devices may send signals at any time, the chances of data collision increase significantly, leading to packet loss and retransmission. However, by implementing time-division command synchronization, each device is allocated a specific time slot, drastically reducing the likelihood of such collisions. This leads to more stable and predictable network performance, which is essential for applications that require real-time data processing, such as video conferencing or online gaming.Moreover, time-division command synchronization also contributes to efficient resource management. In a system where multiple devices share the same communication medium, it is vital to ensure that resources are utilized optimally. By synchronizing commands based on time slots, the system can allocate bandwidth effectively, preventing scenarios where some devices are idle while others are overloaded. This not only improves overall system performance but also enhances user experience by providing smoother and faster interactions. Another significant aspect of time-division command synchronization is its application in wireless communication technologies. For instance, in cellular networks, base stations use this technique to coordinate communication with numerous mobile devices. Each device is assigned a unique time interval for transmitting and receiving data, making it possible for the base station to manage connections efficiently. This approach is particularly important in densely populated areas where numerous devices are competing for limited bandwidth. In conclusion, time-division command synchronization (时间分割指令同步) is an essential mechanism in modern communication systems, providing a framework for organizing and managing data transmission across multiple devices. Its ability to reduce data collisions, optimize resource usage, and enhance the reliability of communications makes it a vital component in the design of efficient and high-performing networks. As technology continues to evolve, understanding and implementing time-division command synchronization will remain key to advancing the capabilities of our interconnected world.

在现代电信和计算机网络领域，术语时间分割指令同步在确保多个设备之间高效通信方面发挥着至关重要的作用。该概念涉及将时间划分为不同的间隔，在此期间向系统内的各个组件传输特定的命令或信号。通过利用时间分割指令同步，系统可以最小化干扰并最大化可用带宽的使用。为了更好地理解这一概念，让我们考虑一个实际例子：想象一个繁忙的十字路口，交通信号灯控制着来自不同方向的车辆流动。每个交通信号灯都在定时周期上运行，允许一个方向的汽车通行，同时停止另一个方向的车辆。类似地，时间分割指令同步组织了网络中命令的时序，确保每个设备都有其通讯的机会，而不会与其他设备重叠。时间分割指令同步的主要好处之一是它能够增强数据传输的可靠性。在传统网络中，设备可能会随时发送信号，从而大大增加数据碰撞的几率，导致数据包丢失和重传。然而，通过实施时间分割指令同步，每个设备被分配一个特定的时间槽，从而大幅降低这种碰撞的可能性。这导致网络性能更加稳定和可预测，这对需要实时数据处理的应用程序（例如视频会议或在线游戏）至关重要。此外，时间分割指令同步还促进了资源管理的效率。在多个设备共享同一通信介质的系统中，确保资源得到最佳利用至关重要。通过根据时间槽同步命令，系统可以有效地分配带宽，防止某些设备闲置而其他设备过载的情况。这不仅改善了整体系统性能，还通过提供更流畅和更快速的交互来增强用户体验。时间分割指令同步的另一个重要方面是其在无线通信技术中的应用。例如，在蜂窝网络中，基站使用该技术来协调与众多移动设备的通信。每个设备被分配一个独特的时间间隔用于数据的传输和接收，使基站能够有效地管理连接。这种方法在设备竞争有限带宽的密集区域尤其重要。总之，时间分割指令同步(时间分割指令同步)是现代通信系统中的一种基本机制，为跨多个设备组织和管理数据传输提供了框架。它减少数据碰撞、优化资源使用和增强通信可靠性的能力使其成为设计高效和高性能网络的重要组成部分。随着技术的不断发展，理解和实施时间分割指令同步将继续是推动我们互联世界能力进步的关键。