concurrent transmission

简明释义

同时传送

英英释义

例句

1.With concurrent transmission, you can download files while streaming music at the same time.

通过并发传输，您可以在下载文件的同时播放音乐。

2.Our network infrastructure is designed for concurrent transmission to handle high traffic loads.

我们的网络基础设施旨在支持并发传输以应对高流量负载。

3.The new software update improves concurrent transmission capabilities for better performance.

新的软件更新提高了并发传输能力，以提升性能。

4.The system supports concurrent transmission, allowing multiple users to send data simultaneously.

该系统支持并发传输，允许多个用户同时发送数据。

5.In video conferencing, concurrent transmission ensures that all participants can see and hear each other without delay.

在视频会议中，并发传输确保所有参与者可以毫无延迟地看到和听到彼此。

作文

In the modern world, technology has become an integral part of our lives, and one of the most significant advancements is in the field of data communication. Among various techniques used to enhance the efficiency of data transfer, concurrent transmission plays a crucial role. This term refers to the ability to send multiple data streams simultaneously over a single channel or network, effectively increasing the overall throughput and reducing latency. The importance of concurrent transmission is evident in various applications, including video streaming, online gaming, and real-time communications. One of the primary benefits of concurrent transmission is its capability to optimize bandwidth usage. In traditional data transmission methods, data packets are sent sequentially, which can lead to delays and bottlenecks, especially when large volumes of data are involved. However, with concurrent transmission, multiple packets can be transmitted at the same time, allowing for a more efficient use of available bandwidth. This is particularly beneficial in scenarios where high-speed internet access is required, such as during live broadcasts or in cloud computing environments. Moreover, concurrent transmission enhances user experience by minimizing lag and buffering issues. For instance, in online gaming, players require real-time interactions without delays. If data were only transmitted sequentially, even a slight lag could affect gameplay, leading to frustration among users. By utilizing concurrent transmission, game developers can ensure that multiple players' actions are communicated instantly, creating a smoother and more enjoyable gaming experience. In addition to improving user experience, concurrent transmission also contributes to the reliability of data communication systems. When multiple data streams are sent simultaneously, the system can implement error correction mechanisms more efficiently. If one data stream encounters an issue, the other streams can continue to transmit information, ensuring that the overall communication remains intact. This redundancy is essential in critical applications such as financial transactions or emergency services, where data integrity is paramount. Furthermore, the rise of cloud computing has made concurrent transmission even more relevant. As businesses increasingly rely on cloud services for data storage and processing, the need for efficient data transfer becomes vital. With multiple users accessing the same resources concurrently, the ability to transmit data streams simultaneously ensures that all users can work without interruption. This is particularly important for collaborative projects where teams need to share large files and communicate in real time. In conclusion, concurrent transmission is a transformative technology that significantly enhances data communication. Its ability to transmit multiple data streams simultaneously not only optimizes bandwidth usage but also improves user experience and system reliability. As we continue to advance in the digital age, understanding and implementing concurrent transmission will be essential for both individuals and businesses aiming to leverage the full potential of technology. The future of data communication is undoubtedly intertwined with the continuous evolution of concurrent transmission, making it a key area of focus for researchers and practitioners alike.

在现代社会，技术已成为我们生活中不可或缺的一部分，而数据通信领域的一个重要进步就是并发传输。这个术语指的是能够在单个通道或网络上同时发送多个数据流，从而有效地提高整体吞吐量并减少延迟。并发传输的重要性在于各种应用中显而易见，包括视频流、在线游戏和实时通信。并发传输的主要好处之一是其优化带宽使用的能力。在传统的数据传输方法中，数据包是按顺序发送的，这可能导致延迟和瓶颈，特别是在涉及大量数据时。然而，通过并发传输，多个数据包可以同时传输，从而更有效地利用可用带宽。这在需要高速互联网接入的场景中尤其有益，例如在直播或云计算环境中。此外，并发传输通过最小化延迟和缓冲问题来增强用户体验。例如，在在线游戏中，玩家需要实时互动而没有延迟。如果数据仅按顺序传输，即使是轻微的延迟也会影响游戏玩法，导致用户沮丧。通过利用并发传输，游戏开发者可以确保多个玩家的动作即时沟通，从而创造出更流畅、更愉快的游戏体验。除了改善用户体验，并发传输还提高了数据通信系统的可靠性。当多个数据流同时发送时，系统可以更有效地实施错误校正机制。如果一个数据流遇到问题，其他流仍然可以继续传输信息，确保整体通信保持完整。这种冗余在关键应用中至关重要，比如金融交易或紧急服务，在这些应用中，数据完整性至关重要。此外，云计算的兴起使得并发传输变得更加相关。随着企业越来越依赖云服务进行数据存储和处理，对高效数据传输的需求变得至关重要。当多个用户同时访问相同资源时，同时传输数据流的能力确保所有用户都能不间断地工作。这在团队需要实时共享大文件和沟通的协作项目中尤为重要。总之，并发传输是一项变革性的技术，显著增强了数据通信。其同时传输多个数据流的能力不仅优化了带宽使用，还改善了用户体验和系统可靠性。随着我们在数字时代的不断进步，理解和实施并发传输将对个人和企业利用技术的全部潜力至关重要。数据通信的未来无疑与并发传输的持续发展息息相关，使其成为研究人员和从业者必须关注的关键领域。