Invasions and niche width: does niche width of an introduced crayfish differ from a native crayfish?

We present a Reinforcement Learning (RL) methodology to bypass Google reCAPTCHA v3. We formulate the problem as a grid world where the agent learns how to move the mouse and click on the reCAPTCHA button to receive a high score. We study the performance of the agent when we vary the cell size of the grid world and show that the performance drops when the agent takes big steps toward the goal. Finally, we use a divide and conquer strategy to defeat the reCAPTCHA system for any grid resolution. Our proposed method achieves a success rate of 97.4% on a 100 × 100 grid and 96.7% on a 1000 × 1000 screen resolution.

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Tracking Pandemics: A MEC-Enabled IoT Ecosystem with Learning Capability

Feriani

Refaey

Hossain

2020

IEEE Internet Things M.

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Decentralized Multi-Agent Reinforcement Learning for Task Offloading Under Uncertainty

Yuanchao¹,

Feriani²,

Hossain

2021

Preprint

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Multi-Agent Reinforcement Learning (MARL) is a challenging subarea of Reinforcement Learning due to the nonstationarity of the environments and the large dimensionality of the combined action space. Deep MARL algorithms have been applied to solve different task offloading problems. However, in real-world applications, information required by the agents (i.e. rewards and states) are subject to noise and alterations. The stability and the robustness of deep MARL to practical challenges is still an open research problem. In this work, we apply state-of-the art MARL algorithms to solve task offloading with reward uncertainty. We show that perturbations in the reward signal can induce decrease in the performance compared to learning with perfect rewards. We expect this paper to stimulate more research in studying and addressing the practical challenges of deploying deep MARL solutions in wireless communications systems.

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Multiobjective Load Balancing for Multiband Downlink Cellular Networks: A Meta- Reinforcement Learning Approach

Feriani¹,

Wu²,

Xu³

et al. 2022

IEEE J. Select. Areas Commun.

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Amal Feriani

Single and Multi-Agent Deep Reinforcement Learning for AI-Enabled Wireless Networks: A Tutorial

Hacking Google reCAPTCHA v3 using Reinforcement Learning

Tracking Pandemics: A MEC-Enabled IoT Ecosystem with Learning Capability

Decentralized Multi-Agent Reinforcement Learning for Task Offloading Under Uncertainty

Multiobjective Load Balancing for Multiband Downlink Cellular Networks: A Meta- Reinforcement Learning Approach

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