首页 /研究 /Deep Multi-Sensory Object Category Recognition Using Interactive Behavioral Exploration
HRI

Deep Multi-Sensory Object Category Recognition Using Interactive Behavioral Exploration

Gyan Tatiya, Jivko Sinapov

发表年份
2019
引用次数
26

摘要

When identifying an object and its properties, humans use features from multiple sensory modalities produced when manipulating the object. Motivated by this cognitive process, we propose a deep learning methodology for object category recognition which uses visual, auditory, and haptic sensory data coupled with exploratory behaviors (e.g., grasping, lifting, pushing, etc.). In our method, as the robot performs an action on an object, it uses a Tensor-Train Gated Recurrent Unit network to process its visual data, and Convolutional Neural Networks to process haptic and auditory data. We propose a novel strategy to train a single neural network that inputs video, audio and haptic data, and demonstrate that its performance is better than separate neural networks for each sensory modality. The proposed method was evaluated on a dataset in which the robot explored 100 different objects, each belonging to one of 20 categories. While the visual information was the dominant modality for most categories, adding the additional haptic and auditory networks further improves the robot's category recognition accuracy. For some of the behaviors, our approach outperforms the previous published baseline for the dataset which used handcrafted features for each modality. We also show that a robot does not need the sensory data from the entire interaction, but instead can make a good prediction early on during behavior execution.

关键词

Computer scienceModality (human–computer interaction)Stimulus modalityArtificial intelligenceProcess (computing)Haptic technologySensory systemConvolutional neural networkObject (grammar)Developmental robotics

相关论文

查看 HRI 分类全部论文