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Kamanchi

IEEE Control Syst. Lett.

2020

In this paper, we derive a generalization of the Speedy Q-learning (SQL) algorithm that was proposed in the Reinforcement Learning (RL) literature to handle slow convergence of Watkins' Q-learning. In most RL algorithms such as Qlearning, the Bellman equation and the Bellman operator play an important role. It is possible to generalize the Bellman operator using the technique of successive relaxation. We use the generalized Bellman operator to derive a simple and efficient family of algorithms called Generalized Speedy Q-learning (GSQL-w) and analyze its finite time performance. We show that GSQLw has an improved finite time performance bound compared to SQL for the case when the relaxation parameter w is greater than 1. This improvement is a consequence of the contraction factor of the generalized Bellman operator being less than that of the standard Bellman operator. Numerical experiments are provided to demonstrate the empirical performance of the GSQLw algorithm.

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Efficient Adaptive Resource Provisioning for Cloud Applications using Reinforcement Learning

Sreekantan²,

2019

Predictive and Prescriptive Analytics for Performance Optimization: Framework and a Case Study on a Large-Scale Enterprise System

Karumanchi²,

2019

Deep Reinforcement Learning with Successive Over-Relaxation and its Application in Autoscaling Cloud Resources

2020

Auto-scaling Resources for Cloud Applications using Reinforcement learning

Sreekantan²,

2019