A control engineering approach for optimizing physical activity behavioral interventions

2016 IEEE Ecuador Technical Chapters Meeting (ETCM) Pub Date : 2016-10-01 DOI:10.1109/ETCM.2016.7750851

César A. Martín, D. Rivera, E. Hekler

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引用次数: 3

Abstract

This paper presents the use of control engineering principles to optimize mobile and wireless health (mHealth) adaptive behavioral interventions for physical activity based on Social Cognitive Theory (SCT). SCT is a conceptual framework that describes human behavior and has been used in many health behavior interventions. An intervention for physical activity is formulated as a control systems problem relying on a dynamical model of SCT that is developed utilizing fluid analogies. To obtain values for model parameters, system identification experiments are designed including two phases: an initial informative stage followed by an optimized stage that incorporates “patient-friendly” conditions. With the estimated model, a closed-loop intervention is formulated relying on Hybrid Model Predictive Control (HMPC). The HMPC algorithm includes a representation of categorical and discrete constraints that are inherent to behavioral interventions, and the recognition of behavioral initiation and maintenance phases. A simulation study is performed illustrating representative scenarios of the system (in both open and closed-loop).

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优化体育活动行为干预的控制工程方法

本文介绍了基于社会认知理论(SCT)使用控制工程原理来优化移动和无线健康(mHealth)适应性行为干预的身体活动。SCT是一个描述人类行为的概念框架，已被用于许多健康行为干预。对身体活动的干预被制定为一个控制系统问题，依赖于利用流体类比开发的SCT动力学模型。为了获得模型参数的值，设计了系统识别实验，包括两个阶段:初始信息阶段，然后是包含“患者友好”条件的优化阶段。在估计模型的基础上，建立了基于混合模型预测控制(HMPC)的闭环干预。HMPC算法包括行为干预固有的分类和离散约束的表示，以及行为开始和维持阶段的识别。对系统的典型场景(开环和闭环)进行了仿真研究。

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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2016 IEEE Ecuador Technical Chapters Meeting (ETCM)

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