multiple-hop transmission

简明释义

多次反射传输

英英释义

例句

1.The efficiency of multiple-hop transmission 多跳传输 can significantly improve the coverage area in large-scale networks.

在大规模网络中，多跳传输 multiple-hop transmission 的效率可以显著提高覆盖范围。

2.The protocol supports multiple-hop transmission 多跳传输, which is essential for long-range communication.

该协议支持多跳传输 multiple-hop transmission，这对于远程通信至关重要。

3.In a wireless sensor network, multiple-hop transmission 多跳传输 allows data to be relayed through several nodes before reaching the final destination.

在无线传感器网络中，多跳传输 multiple-hop transmission 允许数据通过多个节点转发，最终到达目的地。

4.Using multiple-hop transmission 多跳传输, devices can communicate without needing direct line-of-sight.

使用多跳传输 multiple-hop transmission，设备可以在不需要直接视线的情况下进行通信。

5.In mesh networks, multiple-hop transmission 多跳传输 helps in maintaining connectivity even if some nodes fail.

在网状网络中，多跳传输 multiple-hop transmission 有助于在某些节点失败时保持连接性。

作文

In the realm of modern communication networks, the concept of multiple-hop transmission plays a critical role in enhancing data transfer efficiency and reliability. This technique involves the relay of data packets through multiple intermediate nodes before reaching the final destination. Each 'hop' represents a segment of the journey where data is temporarily stored and forwarded, allowing for greater flexibility and adaptability in network design. 多跳传输的概念在现代通信网络中扮演着重要角色，提升了数据传输的效率和可靠性。这种技术涉及通过多个中间节点中继数据包，直到到达最终目的地。每一个“跳跃”代表了数据暂时存储和转发的一个阶段，使得网络设计更加灵活和适应性强。One of the primary advantages of multiple-hop transmission is its ability to extend the range of wireless communication. In scenarios where direct communication between two endpoints is not feasible due to distance or obstacles, this method allows data to traverse longer distances by utilizing a series of intermediate nodes. For instance, in a rural area where cellular coverage is sparse, a network of devices can communicate with each other by relaying messages through several hops, thereby ensuring connectivity that would otherwise be impossible. 多跳传输的主要优点之一是能够扩展无线通信的范围。在直接通信不可行的情况下，例如由于距离或障碍物，这种方法允许数据通过一系列中间节点跨越更长的距离。例如，在一个蜂窝覆盖稀疏的农村地区，一组设备可以通过多个跳跃互相传递消息，从而确保原本不可能实现的连接。Moreover, multiple-hop transmission enhances the robustness of communication networks. If one node fails or becomes unreliable, data can still find alternate routes through other available nodes. This redundancy is crucial in maintaining service continuity, particularly in emergency situations where reliable communication is vital. For example, during natural disasters, traditional communication infrastructures may be damaged, but a mesh network utilizing multiple-hop transmission can provide a resilient alternative, allowing first responders to communicate effectively. 此外，多跳传输增强了通信网络的稳健性。如果一个节点失败或变得不可靠，数据仍然可以通过其他可用节点找到替代路径。这种冗余在维持服务连续性方面至关重要，特别是在紧急情况下，可靠的通信至关重要。例如，在自然灾害期间，传统通信基础设施可能会受到损坏，但利用多跳传输的网状网络可以提供一个稳健的替代方案，使第一响应者能够有效地进行沟通。Despite its many benefits, implementing multiple-hop transmission comes with challenges. The increased number of hops can lead to higher latency and potential bottlenecks, especially if the intermediate nodes are overloaded or have limited processing capabilities. Network designers must carefully balance the number of hops with the overall performance to ensure that the system remains efficient. Additionally, security concerns arise as data passes through multiple nodes, making it imperative to implement robust encryption and authentication measures at each hop. 尽管有许多好处，实施多跳传输也面临挑战。增加的跳数可能导致更高的延迟和潜在的瓶颈，尤其是在中间节点过载或处理能力有限的情况下。网络设计师必须仔细平衡跳数与整体性能，以确保系统保持高效。此外，随着数据通过多个节点传递，安全问题也随之而来，因此在每个跳跃中实施强大的加密和身份验证措施是至关重要的。In conclusion, multiple-hop transmission is a powerful technique that significantly enhances the capabilities of communication networks. By allowing data to traverse through multiple nodes, it extends the range, increases robustness, and provides an adaptable solution to connectivity challenges. As technology continues to evolve, understanding and implementing 多跳传输 will be essential for developing next-generation communication systems that meet the demands of an increasingly interconnected world.

在现代通信网络领域，多跳传输的概念在提高数据传输效率和可靠性方面发挥着关键作用。这种技术涉及通过多个中间节点中继数据包，直到到达最终目的地。每个“跳跃”代表数据暂时存储和转发的一个阶段，允许网络设计具有更大的灵活性和适应性。多跳传输的概念在现代通信网络中扮演着重要角色，提升了数据传输的效率和可靠性。这种技术涉及通过多个中间节点中继数据包，直到到达最终目的地。每一个“跳跃”代表了数据暂时存储和转发的一个阶段，使得网络设计更加灵活和适应性强。多跳传输的主要优点之一是能够扩展无线通信的范围。在直接通信不可行的情况下，例如由于距离或障碍物，这种方法允许数据通过一系列中间节点跨越更长的距离。例如，在一个蜂窝覆盖稀疏的农村地区，一组设备可以通过多个跳跃互相传递消息，从而确保原本不可能实现的连接。此外，多跳传输增强了通信网络的稳健性。如果一个节点失败或变得不可靠，数据仍然可以通过其他可用节点找到替代路径。这种冗余在维持服务连续性方面至关重要，特别是在紧急情况下，可靠的通信至关重要。例如，在自然灾害期间，传统通信基础设施可能会受到损坏，但利用多跳传输的网状网络可以提供一个稳健的替代方案，使第一响应者能够有效地进行沟通。尽管有许多好处，实施多跳传输也面临挑战。增加的跳数可能导致更高的延迟和潜在的瓶颈，尤其是在中间节点过载或处理能力有限的情况下。网络设计师必须仔细平衡跳数与整体性能，以确保系统保持高效。此外，随着数据通过多个节点传递，安全问题也随之而来，因此在每个跳跃中实施强大的加密和身份验证措施是至关重要的。总之，多跳传输是一种强大的技术，显著增强了通信网络的能力。通过允许数据通过多个节点传输，它扩展了范围，提高了鲁棒性，并为连接挑战提供了适应性解决方案。随着技术的不断发展，理解和实施多跳传输将对开发满足日益互联世界需求的下一代通信系统至关重要。