2026-05-28T19:49:13Zhttps://riuma.uma.es/rest/oai/request

oai:riuma.uma.es:10630/392872026-02-03T12:38:02Zcom_10630_2254col_10630_37957

00925njm 22002777a 4500 dc Aziz, Vanya author 2025 This dissertation focuses on Deep Reinforcement Learning (DRL), a neural network-based approach for solving Markov Decision Processes in high-dimensional spaces with unknown transition dynamics. The main contribution of this thesis is the development of a novel state-of-the-art distributional reinforcement learning algorithm within the maximum-entropy Actor-Critic framework. This algorithm, termed ”Cram´er-based Soft Distributional Soft Actor-critic” (C-DSAC), demonstrates superior performance to other RL algorithms, especially in environments with high-dimensional spaces and complex dynamics. Its performance is shown to be partly rooted in a phenomenon arising in Cram´er-metric-based Distributional Reinforcement Learning, referred to as confidence-driven model updates. This mechanism ensures that the value function approximator is updated more conservatively when confidence in its estimates is low. Theoretical justifications for the algorithm are provided, demonstrating its convergence in the policy evaluation setting and, under widely accepted mild assumptions, in the control setting as well. Beyond foundational algorithmic research, this thesis contributes to the practical application of RL in robotics. Given the crucial role of multi-joint robotic systems in modern production technology, a RL meta-algorithm called ”Reinforcement Learning - Inverse Kinematics” (RL-IK) is devised. This approach enhances the applicability of reinforcement learning to robotic control tasks by significantly accelerating convergence to near-optimal policies compared to standard RL methods. An essential prerequisite for real-world RL applications in control systems is machine perception for state identification. To address challenges in this field, this thesis explores novel Supervised Learning (SL) approaches, validated on image classification tasks, with a focus on ensemble learning strategies. https://hdl.handle.net/10630/39287 Robótica - Tesis doctorales Programación lineal Aprendizaje automático (Inteligencia artificial) Redes neuronales (Informática) Novel Distributional Reinforcement and Ensemble Learning Algorithms.