multiple hop transmission

简明释义

多次反射传输

英英释义

例句

1.In a wireless sensor network, the data is sent through several nodes using multiple hop transmission (多跳传输) to reach the central server.

在无线传感器网络中，数据通过多个节点使用multiple hop transmission (多跳传输) 发送到中央服务器。

2.The multiple hop transmission (多跳传输) technique allows for extended coverage in remote areas where direct connections are not feasible.

在偏远地区，multiple hop transmission (多跳传输) 技术允许扩展覆盖范围，因为直接连接不可行。

3.The performance of the network improved with the use of multiple hop transmission (多跳传输) to relay information between distant users.

通过使用multiple hop transmission (多跳传输) 在远程用户之间转发信息，网络性能得到了改善。

4.By implementing multiple hop transmission (多跳传输), we can significantly reduce the energy consumption of our devices.

通过实施multiple hop transmission (多跳传输)，我们可以显著减少设备的能耗。

5.In mesh networks, multiple hop transmission (多跳传输) is essential for maintaining connectivity among nodes.

在网状网络中，multiple hop transmission (多跳传输) 对于维持节点之间的连接至关重要。

作文

In the realm of wireless communication, the concept of multiple hop transmission plays a crucial role in enhancing the efficiency and reliability of data transfer. This technique involves relaying data packets through multiple intermediate nodes before reaching their final destination. By doing so, it allows for extended coverage and improved connectivity, particularly in areas where direct communication is hindered by obstacles or long distances. The essence of multiple hop transmission lies in its ability to create a network of interconnected devices that can collaboratively transmit information, thereby overcoming limitations associated with traditional point-to-point communication methods.One of the primary advantages of multiple hop transmission is its ability to extend the range of wireless networks. In rural or remote areas where infrastructure may be lacking, deploying a single long-range transmitter might not be feasible. Instead, a series of short-range transmitters can be strategically placed to form a network that effectively covers the desired area. Each node in this network acts as a relay point, receiving data from one node and forwarding it to the next until it reaches its final destination. This not only enhances the reach of the network but also ensures that even if one node fails, the remaining nodes can still maintain communication, thus increasing the overall robustness of the system.Another significant benefit of multiple hop transmission is its adaptability to various environments. For instance, in urban settings where buildings and other structures may obstruct signals, a direct line of sight between two communicating devices may not always be possible. However, by utilizing multiple hop transmission, data can be routed through several intermediary nodes, effectively navigating around obstacles. This flexibility makes it an ideal solution for dynamic environments where conditions may change rapidly.Moreover, multiple hop transmission contributes to efficient bandwidth utilization. In scenarios where network traffic is high, spreading the load across multiple nodes can help prevent congestion and ensure smoother data flow. It allows for a more balanced distribution of resources, which is particularly important in applications such as video streaming or online gaming, where latency and buffering can significantly impact user experience.Despite its many advantages, multiple hop transmission does come with its challenges. The complexity of managing multiple nodes can lead to increased latency, as data must pass through several points before reaching its destination. Additionally, ensuring the security of data transmitted across multiple hops can be more challenging, as each node presents a potential vulnerability. As such, it is crucial for network designers to implement robust security measures and optimize routing protocols to mitigate these issues.In conclusion, multiple hop transmission represents a vital advancement in wireless communication technology. Its ability to enhance coverage, adapt to diverse environments, and optimize bandwidth usage makes it an essential component of modern networking solutions. As technology continues to evolve, the importance of understanding and harnessing the power of multiple hop transmission will only grow, paving the way for more resilient and efficient communication systems in the future.

在无线通信领域，多跳传输的概念在提高数据传输的效率和可靠性方面发挥着至关重要的作用。这种技术涉及通过多个中间节点中继数据包，然后到达最终目的地。通过这样做，它允许扩展覆盖范围并改善连接性，特别是在直接通信受到障碍或长距离影响的地区。多跳传输的本质在于创建一个相互连接的设备网络，这些设备可以协同传输信息，从而克服与传统点对点通信方法相关的限制。多跳传输的主要优点之一是能够扩展无线网络的范围。在基础设施可能不足的农村或偏远地区，部署单个长距离发射器可能不可行。相反，可以战略性地放置一系列短距离发射器，以形成一个有效覆盖所需区域的网络。该网络中的每个节点都充当中继点，从一个节点接收数据并将其转发到下一个节点，直到到达最终目的地。这不仅增强了网络的覆盖范围，还确保即使一个节点发生故障，其余节点仍然可以保持通信，从而提高了系统的整体鲁棒性。多跳传输的另一个显著好处是其适应各种环境的能力。例如，在城市环境中，建筑物和其他结构可能会阻挡信号，两个通信设备之间的直接视线可能并不总是可行。然而，通过利用多跳传输，数据可以通过几个中介节点进行路由，有效地绕过障碍。这种灵活性使其成为动态环境中理想的解决方案，因为这些环境的条件可能迅速变化。此外，多跳传输有助于高效利用带宽。在网络流量较高的情况下，将负载分散到多个节点上可以帮助防止拥塞，并确保更顺畅的数据流动。它允许资源的更平衡分配，这在视频流媒体或在线游戏等应用中尤为重要，因为延迟和缓冲可能会显著影响用户体验。尽管有许多优点，多跳传输确实也面临一些挑战。管理多个节点的复杂性可能导致延迟增加，因为数据必须经过几个点才能到达目的地。此外，确保通过多个跳传输的数据的安全性可能更加困难，因为每个节点都可能成为潜在的漏洞。因此，网络设计者必须实施强有力的安全措施，并优化路由协议以减轻这些问题。总之，多跳传输代表了无线通信技术的重要进步。它增强覆盖范围、适应不同环境和优化带宽使用的能力使其成为现代网络解决方案的重要组成部分。随着技术的不断发展，理解和利用多跳传输的力量的重要性只会增加，为未来更具弹性和高效的通信系统铺平道路。