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Bibliographic Details
Main Author: Amidzadeh, Mohsen
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.21954
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author Amidzadeh, Mohsen
author_facet Amidzadeh, Mohsen
contents We consider a cellular network equipped with cache-enabled base-stations (BSs) leveraging an orthogonal multipoint multicast (OMPMC) streaming scheme. The network operates in a time-slotted fashion to serve content-requesting users by streaming cached files. The users being unsatisfied by the multicat streaming face a delivery outage, implying that they will remain interested in their preference at the next time-slot, which leads to a forward dynamics on the user preference. To design a latency-optimal streaming policy, the dynamics of latency is properly modeled and included in the learning procedure. We show that this dynamics surprisingly represents a backward dynamics. The combination of problem's forward and backward dynamics then develops a forward-backward Markov decision process (FB-MDP) that fully captures the network evolution across time. This FB-MDP necessitates usage of a forward-backward multi-objective reinforcement learning (FB-MORL) algorithm to optimize the expected latency as well as other performance metrics of interest including the overall outage probability and total resource consumption. Simulation results show the merit of proposed FB-MORL algorithm in finding a promising dynamic cache policy.
format Preprint
id arxiv_https___arxiv_org_abs_2512_21954
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Latency-Optimal Cache-aided Multicast Streaming via Forward-Backward Reinforcement Learning
Amidzadeh, Mohsen
Information Theory
We consider a cellular network equipped with cache-enabled base-stations (BSs) leveraging an orthogonal multipoint multicast (OMPMC) streaming scheme. The network operates in a time-slotted fashion to serve content-requesting users by streaming cached files. The users being unsatisfied by the multicat streaming face a delivery outage, implying that they will remain interested in their preference at the next time-slot, which leads to a forward dynamics on the user preference. To design a latency-optimal streaming policy, the dynamics of latency is properly modeled and included in the learning procedure. We show that this dynamics surprisingly represents a backward dynamics. The combination of problem's forward and backward dynamics then develops a forward-backward Markov decision process (FB-MDP) that fully captures the network evolution across time. This FB-MDP necessitates usage of a forward-backward multi-objective reinforcement learning (FB-MORL) algorithm to optimize the expected latency as well as other performance metrics of interest including the overall outage probability and total resource consumption. Simulation results show the merit of proposed FB-MORL algorithm in finding a promising dynamic cache policy.
title Latency-Optimal Cache-aided Multicast Streaming via Forward-Backward Reinforcement Learning
topic Information Theory
url https://arxiv.org/abs/2512.21954