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Signal Novelty Detection as an Intrinsic Reward for Robotics

Martin Kubovčík, Iveta Dirgová Ľuptáková, Jiřı́ Pospı́chal

发表年份
2023
引用次数
4
访问权限
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摘要

In advanced robot control, reinforcement learning is a common technique used to transform sensor data into signals for actuators, based on feedback from the robot's environment. However, the feedback or reward is typically sparse, as it is provided mainly after the task's completion or failure, leading to slow convergence. Additional intrinsic rewards based on the state visitation frequency can provide more feedback. In this study, an Autoencoder deep learning neural network was utilized as novelty detection for intrinsic rewards to guide the search process through a state space. The neural network processed signals from various types of sensors simultaneously. It was tested on simulated robotic agents in a benchmark set of classic control OpenAI Gym test environments (including Mountain Car, Acrobot, CartPole, and LunarLander), achieving more efficient and accurate robot control in three of the four tasks (with only slight degradation in the Lunar Lander task) when purely intrinsic rewards were used compared to standard extrinsic rewards. By incorporating autoencoder-based intrinsic rewards, robots could potentially become more dependable in autonomous operations like space or underwater exploration or during natural disaster response. This is because the system could better adapt to changing environments or unexpected situations.

关键词

Reinforcement learningArtificial intelligenceNoveltyAutoencoderRobotComputer scienceTask (project management)Benchmark (surveying)RoboticsArtificial neural network

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