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Long-Term Active Object Detection for Service Robots: Using Generative Adversarial Imitation Learning With Contextualized Memory Graph

Ning Yang, Fei Lu, Guohui Tian, Jun Liu

Year
2024
Citations
4

Abstract

Active object detection (AOD) is a crucial task in embodied artificial intelligence within robotics. Previous works mainly address this challenge through deep reinforcement learning (DRL), characterized by prolonged training cycles and model convergence difficulties. Moreover, they often emphasize whether a single AOD task can be completed, overlooking the reality that robots perform long-term AOD tasks. To this end, this article introduces a new AOD solution utilizing a graph based on generative adversarial imitation learning (GAIL). A new expert strategy is devised using the active vision dataset benchmark (AVDB), generating high-quality expert trajectories. Meanwhile, a new AOD model based on GAIL is proposed to predict the robot's execution actions. Moreover, a contextualized memory graph (CMG) is constructed, providing partial state information for the GAIL model and enabling the robot to directly make decisions based on the humanlike memory function. Experimental validation against existing methods in AVDB demonstrates superior results, achieving an 88.8% action prediction accuracy, reducing average path length (APL) to 12.182 steps, and shortening single-step action prediction time to 0.133 s. The proposed method is further evaluated in a real-world home scene, affirming its efficacy and generalization capabilities.

Keywords

Computer scienceTerm (time)Generative grammarArtificial intelligenceRobotAdversarial systemGraphObject (grammar)ImitationObject detection

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