Litcius/Paper detail

A novel brain-controlled wheelchair combined with computer vision and augmented reality

Kaixuan Liu, Yang Yu, Yadong Liu, Jingsheng Tang, Xinbin Liang, Xingxing Chu, Zongtan Zhou

2022BioMedical Engineering OnLine27 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Brain-controlled wheelchairs (BCWs) are important applications of brain-computer interfaces (BCIs). Currently, most BCWs are semiautomatic. When users want to reach a target of interest in their immediate environment, this semiautomatic interaction strategy is slow. METHODS: To this end, we combined computer vision (CV) and augmented reality (AR) with a BCW and proposed the CVAR-BCW: a BCW with a novel automatic interaction strategy. The proposed CVAR-BCW uses a translucent head-mounted display (HMD) as the user interface, uses CV to automatically detect environments, and shows the detected targets through AR technology. Once a user has chosen a target, the CVAR-BCW can automatically navigate to it. For a few scenarios, the semiautomatic strategy might be useful. We integrated a semiautomatic interaction framework into the CVAR-BCW. The user can switch between the automatic and semiautomatic strategies. RESULTS: We recruited 20 non-disabled subjects for this study and used the accuracy, information transfer rate (ITR), and average time required for the CVAR-BCW to reach each designated target as performance metrics. The experimental results showed that our CVAR-BCW performed well in indoor environments: the average accuracies across all subjects were 83.6% (automatic) and 84.1% (semiautomatic), the average ITRs were 8.2 bits/min (automatic) and 8.3 bits/min (semiautomatic), the average times required to reach a target were 42.4 s (automatic) and 93.4 s (semiautomatic), and the average workloads and degrees of fatigue for the two strategies were both approximately 20. CONCLUSIONS: Our CVAR-BCW provides a user-centric interaction approach and a good framework for integrating more advanced artificial intelligence technologies, which may be useful in the field of disability assistance.

Topics & Concepts

CVARComputer scienceAugmented realityComputer visionArtificial intelligenceHuman–computer interactionEconomicsRisk managementExpected shortfallManagementGaze Tracking and Assistive TechnologyEEG and Brain-Computer InterfacesAssistive Technology in Communication and Mobility