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引用次数: 6
摘要
在无线传感器网络(WSNs)中,介质访问控制(MAC)协议通常采用占空循环方案来减少空闲侦听造成的能量消耗。然而,该方案引入了巨大的端到端延迟,并且仍然遭受较大的控制数据包开销。我们提出了一种新的低延迟和低控制开销的MAC协议(LCO-MAC)。在我们的协议中,一个数据包可以在一个占空比中通过多个跳来传输,以缩短端到端的延迟。为了减少由控制包开销引起的能量消耗,我们强制一个包扮演多个角色。在初始传输阶段,控制报文作为下游节点的RTS (request to send)和上游节点的CTS (clear to send)。在实际的数据传输过程中,数据包对下游节点保持原有的data角色,同时对上游节点扮演ACK(确认)角色。我们使用ns-2进行的模拟表明,与RMAC相比,LCO-MAC可以显着提高能效并减少端到端延迟。
LCO-MAC: A Low Latency, Low Control Overhead MAC Protocol for Wireless Sensor Networks
In wireless sensor networks (WSNs), a duty-cycling scheme is typically applied to the medium access control (MAC) protocol to reduce energy consumption due to idle listening. However, this scheme introduces huge end-to-end latency and still suffers from a large control packet overhead. We propose a new MAC protocol with low latency and low control overhead for WSNs use (the LCO-MAC). In our protocol, a DATA packet can be transmitted through multiple hops in a single duty cycle to shorten end-to-end latency. To reduce energy consumption caused by control packet overhead, we force one packet to play more than one role. In the initial transmission period, a control packet acts as an RTS (request to send) for a downstream node and a CTS (clear to send) for an upstream node. In the actual data transmission period, a DATA packet keeps its original DATA role for the downstream node, but also plays an ACK (acknowledgment) role for the upstream node. Our simulation using ns-2 has shown that LCO-MAC enables a notable improvement in energy efficiency and decreases end-to-end latency compared to those of RMAC.
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