Serene Banerjee, Joy Bose, Sleeba Paul Puthepurakel, Pratyush Kiran Uppuluri, Subhadip Bandyopadhyay, Y. S. K. Reddy, Ranjani H. G.
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Link-Adaptation for Improved Quality-of-Service in V2V Communication using Reinforcement Learning
For autonomous driving, safer travel, and fleet management, Vehicle-to-Vehicle (V2V) communication protocols are an emerging area of research and development. State-of-the-art techniques include machine learning (ML) and reinforcement learning (RL) to adapt modulation and coding rates as the vehicle moves. However, channel state estimations are often incorrect and rapidly changing in a V2V scenario. We propose a combination of input features, including (a) sensor inputs from other parameters in the vehicle, such as speed and global positioning system (GPS), (b) estimation of interference and load for each of the vehicles, and (c) channel state estimation to find the optimal rate that would maximize Quality-of-Service. Our model uses an ensemble of RL-agents to predict trends in the input parameters and to find the inter-dependencies of these input parameters. An RL agent then utilizes these inputs to find the best modulation and coding rate as the vehicle moves. We demonstrate our results through prototype experiments using real data collected from customer networks.
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