从用户的角度确定使用固定装置和乘员约束系统保护轮式移动设备的挑战

Madiha Ahmed, Naira Campbell-Kyureghyan, Karen Frost, G. Bertocci
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引用次数: 4

摘要

使用轮式移动设备的乘客在运输过程中需要依靠公交运营商来确保轮椅固定和乘员约束系统的安全。然而,轮式移动设备很少得到适当的保护,乘客在运输过程中往往不受约束。本研究调查了运输系统中轮椅固定和乘员约束系统的可用性,以确定导致轮椅固定和乘员约束系统不正确或不使用的挑战。任务需求与公交运营商的功能限制出现不匹配,危及轮式移动设备用户在运输中的安全。目前的研究结果表明,在随后的设计或重新设计轮椅固定和乘员约束系统任务时,需要纳入公共汽车运营商的角色。技术摘要:原理:公共交通巴士需要配备轮椅固定装置和乘员约束系统,以确保轮式移动设备用户的安全运输。轮式移动设备使用者依靠公交运营商来确保轮式移动设备的安全,但通常没有实施适当的轮椅固定和乘员约束系统。在轮椅运输安全方面,先前的研究工作并没有将公交运营商的身体健康视为确保轮式移动设备乘客安全的挑战。目的:当前研究的特点是肌肉骨骼疼痛和不适,以及功能限制,公交车司机在协助轮式移动设备乘客的背景下。这项研究的结果与先前报道的人体工程学分析相结合,提供了一个更全面的理解因素,可能对公交运营商构成挑战,确保轮式移动设备乘客。方法:采用定制的标准化问卷,通过自我报告确定肌肉骨骼疼痛和功能限制。先前报道的任务需求是通过对轮椅固定和乘员约束系统任务的人体工程学分析来量化的。结果:83%的操作员报告至少在一个身体区域出现肌肉骨骼疼痛/不适,60%的操作员报告在身体多个区域出现疼痛。手术人员发现的疼痛和功能限制的发生率最高的部位是膝盖、下背部、颈部和肩部。人体工程学分析显示,对这四个身体区域的要求更高,这表明操作员正确执行轮椅固定和乘员约束系统任务的能力有限。结论:轮椅固定与乘员约束系统与工作相关因素的不匹配与公交操作员的功能限制可能是导致所观察到的不适当固定的原因。这些发现表明,重新设计轮椅固定和乘员约束系统是有必要的,这应该包括公交运营商在这一过程中的作用。
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Identifying Challenges to Securing Wheeled Mobility Devices Using Tiedowns and Occupant Restraint Systems From the User Perspective
OCCUPATIONAL APPLICATIONS Wheeled mobility device passengers rely upon bus operators for proper securement of the wheelchair tiedown and occupant restraint system during transit. Yet, wheeled mobility devices are rarely properly secured, and passengers are often unrestrained during transit. This study investigated the usability of wheelchair tiedown and occupant restraint systems aboard transit systems to identify challenges resulting in improper securement or non-use of the wheelchair tiedown and occupant restraint system system. The task demands and bus operator's functional limitations appeared mismatched, jeopardizing the wheeled mobility device user's safety during transit. The current findings suggest the need to incorporate the bus operator's role during subsequent design or redesign of the wheelchair tiedown and occupant restraint system task. TECHNICAL ABSTRACT Rationale: Public transportation buses are required to be equipped with wheelchair tiedowns and occupant restraint systems to ensure safe transit of wheeled mobility device users. Wheeled mobility device users rely upon bus operators for wheeled mobility device securement, yet proper wheelchair tiedown and occupant restraint system implementation is often not performed. Prior research efforts in wheelchair transportation safety have not considered the bus operator's physical health as a challenge to securing a wheeled mobility device passenger. Purpose: The current study characterized musculoskeletal pain and discomfort, along with functional limitations, among bus drivers in the context of assisting wheeled mobility device passengers. Findings from this study were then synthesized with a previously reported ergonomic analysis to provide a more comprehensive understanding of factors that may pose challenges to bus operators securing a wheeled mobility device passenger. Methods: Musculoskeletal pain and functional limitations were determined by self-reports using a customized and standardized questionnaire. Previously reported task demands were quantified by ergonomic analyses of the wheelchair tiedown and occupant restraint system task. Results: Eighty-three percent of the operators reported musculoskeletal pain/discomfort in at least one body region, and 60% reported experiencing pain across multiple regions of the body. The highest number of prevalent reports of pain and functional limitations identified by the operators were at the knees, low back, neck, and shoulders. Ergonomic analyses revealed higher demands for these same four body regions, suggesting limited ability of the operators to perform the wheelchair tiedown and occupant restraint system task properly. Conclusions: The mismatch between the wheelchair tiedown and occupant restraint system work-related factors and the bus operator's functional limitations may contribute to the observed improper securement. These findings suggest a redesign of the wheelchair tiedown and occupant restraint system is warranted, which should incorporate the role of bus operators during the process.
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