开槽ALOHA中无碰撞传输的自适应策略树算法

2020 IEEE 17th International Conference on Mobile Ad Hoc and Sensor Systems (MASS) Pub Date : 2020-12-01 DOI:10.1109/MASS50613.2020.00027

Molly Zhang, L. D. Alfaro, M. Mosko, C. Funai, Timothy Upthegrove, B. Thapa, D. Javorsek, J. Garcia-Luna-Aceves

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引用次数: 4

摘要

为了提高有槽ALOHA的性能，提出了一种新的自适应传输协议。节点使用已知的周期性调度作为基本策略，通过这些策略，它们协同学习如何在不同的时隙中周期性地传输，从而最大限度地减少数据包冲突。为此引入自适应策略树(APT)算法，得到APT- aloha算法。APT-ALOHA不需要中央中继器的存在，并使用显式确认来确认数据包的接收。结果表明，使用APT-ALOHA的节点可以快速收敛到几乎没有冲突的传输调度，并且APT-ALOHA的吞吐量类似于TDMA，其中插槽是预先分配给节点的。特别是，APT-ALOHA在饱和模式下成功地利用了超过70%的时隙。

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Adaptive Policy Tree Algorithm to Approach Collision-Free Transmissions in Slotted ALOHA

A new adaptive transmission protocol is introduced to improve the performance of slotted ALOHA. Nodes use known periodic schedules as base policies with which they collaboratively learn how to transmit periodically in different time slots so that packet collisions are minimized. The Adaptive Policy Tree (APT) algorithm is introduced for this purpose, which results in APT-ALOHA. APT-ALOHA does not require the presence of a central repeater and uses explicit acknowledgements to confirm the reception of packets. It is shown that nodes using APT-ALOHA quickly converge to transmission schedules that are virtually collision-free, and that the throughput of APT-ALOHA resembles that of TDMA, where slots are pre-allocated to nodes. In particular, APT-ALOHA attains a successful utilization of time slots- over 70% on saturation mode.

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来源期刊

2020 IEEE 17th International Conference on Mobile Ad Hoc and Sensor Systems (MASS)

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