An assistive IOT smart control system for people with severe mobility disabilities

IF 0.7 Q4 REHABILITATION

Technology and Disability Pub Date : 2024-07-04 DOI:10.3233/tad-240001

Chau Ma-Thi, Toan Truong-duc, Thi-Duyen Ngo, Ha Le-thanh

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引用次数: 0

Abstract

According to Dr. Margaret Chan [29], approximately 15% of the world’s population faces significant challenges in life due to severe disabilities. The majority of these individuals have mobility impairments, significantly impacting their mobility and self-care abilities. Two main groups affected by these disabilities are individuals with Amyotrophic Lateral Sclerosis (ALS) and those who have had a stroke. In a study referenced as [28], it was revealed that ALS accounts for 80% of cases involving severe mobility impairments. The incidence rates of ALS and stroke are reported to be 4/100,000 people and 600/100,000–1,000/100,000 people, respectively. In Vietnam, the ALS incidence rate is approximately 2–3 cases per 100,000 people, while over 200,000 individuals suffer from strokes each year. Roughly 25–30% of individuals with mobility impairments are at risk of experiencing communication difficulties, which can manifest as speech difficulties, slurred speech, or aphasia [20]. In addition to limited mobility and communication challenges, interacting with the living environment poses a significant obstacle for these individuals. Therefore, in addition to assistive communication systems, it is crucial to develop an effective and user-friendly control system for home IoT devices which enable people with severe mobility impairments to gain greater independence in their daily lives. This study presents the development and testing of an assistive IoT smart control system that allows individuals with severe mobility impairments to control familiar electronic devices using their eyes and brain. The test results demonstrate the realistic and feasible nature of the proposed system. Users rated the system above 2.78 out of 5.00 according to the HMI questionnaire. The score for attitudes, which reflects users’ trust in the system, was 3.76 out of 5.00. Therefore, the proposed approach holds promise in assisting individuals with severe mobility disabilities to effectively interact with the IoT devices in their surroundings.

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为严重行动不便者设计的辅助物联网智能控制系统

根据陈冯富珍博士的研究[29]，全球约有 15%的人口因严重残疾而在生活中面临重大挑战。这些人中的大多数都有行动障碍，严重影响了他们的行动能力和自理能力。受这些残疾影响的两个主要群体是肌萎缩侧索硬化症（ALS）患者和中风患者。一项研究显示，在涉及严重行动障碍的病例中，肌萎缩侧索硬化症患者占 80%。据报道，肌萎缩性脊髓侧索硬化症和中风的发病率分别为 4/100,000 人和 600/100,000-1,000/100,000 人。在越南，肌萎缩性脊髓侧索硬化症的发病率约为每 10 万人 2-3 例，而每年有超过 20 万人罹患中风。约有 25%-30% 的行动不便者有可能出现交流障碍，表现为言语困难、口齿不清或失语[20]。除了行动受限和交流困难之外，与生活环境的互动也是这些人面临的一大障碍。因此，除了辅助通信系统外，为家庭物联网设备开发一种有效且用户友好的控制系统也至关重要，它能使严重行动障碍者在日常生活中获得更大的独立性。本研究介绍了一种辅助性物联网智能控制系统的开发和测试情况，该系统可让严重行动不便者通过眼睛和大脑控制熟悉的电子设备。测试结果证明了该系统的现实性和可行性。根据人机界面问卷调查，用户对系统的评分高于 2.78 分（满分 5.00）。反映用户对系统信任度的态度得分为 3.76（满分 5.00）。因此，建议的方法有望帮助严重行动不便的人与周围的物联网设备进行有效互动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Technology and Disability Medicine-Rehabilitation

CiteScore

1.40

自引率

20.00%

发文量

期刊介绍： Technology and Disability communicates knowledge about the field of assistive technology devices and services, within the context of the lives of end users - persons with disabilities and their family members. While the topics are technical in nature, the articles are written for broad comprehension despite the reader"s education or training. Technology and Disability"s contents cover research and development efforts, education and training programs, service and policy activities and consumer experiences. - The term Technology refers to assistive devices and services. - The term Disability refers to both permanent and temporary functional limitations experienced by people of any age within any circumstance.