Toward Precise Quantification of Energy Expenditure in Wheelchair Users

IF 3.4 3区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

IEEE Access Pub Date : 2025-04-22 DOI:10.1109/ACCESS.2025.3563385

Iftikhar Alam;Zulfiqar Ali;Wassauf Khalid;Gauhar Ali;Mohammed ELAffendi

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引用次数: 0

Abstract

Modern electronic devices like smart bands, smartwatches, smartphones, and treadmills are widely used to track exertion metrics, also called energy expenditure, such as step counts, running, time, and distance. However, these devices often fail to meet the needs of individuals with mobility impairments, such as wheelchair users, for whom such metrics are hard to evaluate. This research introduces a tailored model to track and quantify exertion data for manual wheelchair users. The existing Heart Intensity Metric (HIM), which relies on parameters such as heart rate, weight, age, and time (exercise duration), is adapted with a revised Activity Intensity Assessor (AIA). The model incorporates critical factors for wheelchair users, including heart rate, adjusted movement status (1 for movement and zero for no movement), and inclination status, with new parameters, such as Metabolic Equivalent of Task (MET), and wheelchair speed. The revised AIA is then adapted for the energy expenditure formula to calculate calorie-burning estimation specifically for manual wheelchair users. The revised approach minimizes false positives commonly produced by existing approaches for manual wheelchair users, especially in scenarios involving non-movement exercises like upper limb activities. Unlike prior models, the proposed AIA ensures precise energy expenditure calculations, even during stationary activities, and reflects a zero-calorie expenditure when no exercise occurs. Results are statistically verified and demonstrate that traditional formulas yield inaccurate calorie estimations for wheelchair users, while the revised model aligns better with physiological realities. This work provides a practical framework for designing electronic tools that effectively track energy expenditure/total energy (ET), also known as exertion efforts, and estimate calories burnt by manual wheelchair users. The scope of this study is limited to examining energy expenditure exclusively for manual wheelchairs. The electric wheelchairs are beyond the scope of this study.

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轮椅使用者能量消耗的精确量化

智能手环、智能手表、智能手机和跑步机等现代电子设备被广泛用于跟踪运动指标，也称为能量消耗，如步数、跑步、时间和距离。然而，这些设备往往不能满足行动不便的人的需求，比如轮椅使用者，对他们来说，这些指标很难评估。本研究引入了一个量身定制的模型来跟踪和量化手动轮椅使用者的运动数据。现有的心脏强度度量（HIM）依赖于心率、体重、年龄和时间（运动持续时间）等参数，经过修订的活动强度评估（AIA）进行了调整。该模型结合了轮椅使用者的关键因素，包括心率、调整后的运动状态（运动为1，不运动为0）和倾斜度状态，以及新的参数，如任务代谢当量（MET）和轮椅速度。然后将修订后的AIA适用于能量消耗公式，以计算手动轮椅使用者的卡路里燃烧估计。修订后的方法最大限度地减少了现有方法对手动轮椅使用者产生的误报，特别是在涉及上肢活动等非运动练习的情况下。与之前的模型不同，AIA确保了精确的能量消耗计算，即使在静止的活动中也是如此，并且在不运动时反映了零卡路里消耗。结果经过统计验证，表明传统公式对轮椅使用者的卡路里估算不准确，而修订后的模型更符合生理现实。这项工作为设计电子工具提供了一个实用的框架，可以有效地跟踪能量消耗/总能量（ET），也称为运动努力，并估计手动轮椅使用者燃烧的卡路里。本研究的范围仅限于检查手动轮椅的能量消耗。电动轮椅不在本研究范围之内。

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

IEEE Access COMPUTER SCIENCE, INFORMATION SYSTEMSENGIN-ENGINEERING, ELECTRICAL & ELECTRONIC

CiteScore

9.80

自引率

7.70%

发文量

6673

审稿时长

6 weeks

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