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Radio Network Parameters

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Presentation on theme: "Radio Network Parameters"— Presentation transcript:

1 Radio Network Parameters
Q-Learning Algorithm for VoLTE Closed-Loop Power Control in Indoor Small Cells Faris B. Mismar and Brian L. Evans and NETWORK MODEL MOTIVATION I II An indoor OFDM-based cellular cluster in the FDD mode of operation Multi-user multiple access with one tier of neighboring cells Square geometry and inter-site distance of length Network impairments regularly occurring at random PC keeps track of forward link SINR and potential radio impairments Algorithm: VoLTE Power Control Downlink VoLTE Power Control (PC) Network impairments impact SINR and data rates LTE and 5G NR do not have downlink power control Link adaptation is instead used in the downlink Network intelligence enables clearer communications Current practice: Diversity and more robust modulation and coding Proposed: Reinforcement learning is used to maximize SINR Given the set of fault-handling actions in a packetized voice frame of duration . Play an action at random with probability, or based on max future reward with probability Change the downlink transmit power per Obtain the reward and the next state Update and accordingly Decay and repeat for the next frame Forward link budget for the i-th user Power control repetition (up to 3 times per TTI) Goal Enable downlink power control for indoor voice bearer Data is 60% likely to be on Wi-Fi! DL SINR for the i-th user Approach Q-learning improves the downlink SINR through: Performing exploration and exploitation Running until it finds a near-optimal policy Indoor floor plan III RESULTS IV PARAMETERS Power Commands Final Q-Learning Episode Radio Network Radio Network Parameters Cell radius fc Bandwidth Tx Power Tx, Rx branches 10 m 2600 MHz 20 MHz 33 dBm 2,2 Geometry Antenna pattern Prop. model Tx Ant. Height Rx Ant. Height Square Omnidirectional COST231 1.5 m Fixed Power Allocation (green) does not issue power commands. Number of power commands Average DL Received SINR (dB) The reward Power Control using Q-learning (blue) does. The discounted future-looking reward Q-Learning Parameters MOS Performance Retainability decreases when a call is dropped. Improved robustness and call clarity CONCLUSIONS V Experimental MOS Improved downlink SINR Achieved higher voice call retainability and clarity Reinforcement learning enables power control Compatible with LTE and 5G NR standards Reinforcement learning elements Packet Error Rate Personal homepage October, 2018

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