Abstract
This paper presents an innovative approach to develop an advanced 360-degree vision telepresence wheelchair for healthcare applications. The study aims at improving a wide field of view surrounding the wheelchair to provide safe wheelchair navigation and efficient assistance for wheelchair users. A dual-fisheye camera is mounted in front of the wheelchair to capture images which can be then streamed over the Internet. A web real-time communication (WebRTC) protocol was implemented to provide efficient video and data streaming. An estimation model based on artificial neural networks was developed to evaluate the quality of experience (QoE) of video streaming. Experimental results confirmed that the proposed telepresence wheelchair system was able to stream a 360-degree video surrounding the wheelchair smoothly in real-time. The average streaming rate of the entire 360-degree video was 25.83 frames per second (fps), and the average peak signal to noise ratio (PSNR) was 29.06 dB. Simulation results of the proposed QoE estimation scheme provided a prediction accuracy of 94%. Furthermore, the results showed that the designed system could be controlled remotely via the wireless Internet to follow the desired path with high accuracy. The overall results demonstrate the effectiveness of our proposed approach for the 360-degree vision telepresence wheelchair for assistive technology applications.
Highlights
Assistive technologies have played a vital role in supporting the elderly and people with disabilities.According to the global survey on assistive technologies from the World Health Organization, there will be more than two billion people needing at least one assistive product by 2030 [1]
To find an effective method to deal with uncertainty in the quality of service, we introduce an artificial neural network-based quality estimation model in streaming media applications that can estimate the quality of the video
We have discussed the techniques and all system design aspects related to our telepresence wheelchair system
Summary
Assistive technologies have played a vital role in supporting the elderly and people with disabilities. According to the global survey on assistive technologies from the World Health Organization, there will be more than two billion people needing at least one assistive product by 2030 [1]. This information is valuable in providing evidence-based resources that motivate researchers to meet the needs of people with disabilities. Apart from traditional wheelchairs, researchers have developed smart wheelchairs to improve the functionalities of the wheelchairs to meet the needs of the disabled people. Examples are an intelligent wheelchair for elderly people [2], smart wheelchairs which can avoid surrounding obstacles [3,4], and wheelchairs which can be controlled by using brain waves [5,6]
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