Sensor devices have been increasingly used in engineering and health studies recently, and the captured multi-dimensional activity and vital sign signals can be studied in association with health outcomes to inform public health. The common approach is the scalar-on-function regression model, in which health outcomes are the scalar responses while high-dimensional sensor signals are the functional covariates, but how to effectively interpret results becomes difficult. In this study, we propose a new Functional Adaptive Double-Sparsity (FadDoS) estimator based on functional regularization of sparse group lasso with multiple functional predictors, which can achieve global sparsity via functional variable selection and local sparsity via zero-subinterval identification within coefficient functions. We prove that the FadDoS estimator converges at a bounded rate and satisfies the oracle property under mild conditions. Extensive simulation studies confirm the theoretical properties and exhibit excellent performances compared to existing approaches. Application to a Kinect sensor study that utilized an advanced motion sensing device tracking human multiple joint movements and conducted among community-dwelling elderly demonstrates how the FadDoS estimator can effectively characterize the detailed association between joint movements and physical health assessments. The proposed method is not only effective in Kinect sensor analysis but also applicable to broader fields, where multi-dimensional sensor signals are collected simultaneously, to expand the use of sensor devices in health studies and facilitate sensor data analysis.

翻译：传感器设备近年来在工程和健康研究中应用日益广泛，其捕获的多维活动和生命体征信号可与健康结局关联分析，为公共卫生提供信息。常用方法是标量响应函数回归模型，其中健康结局为标量响应变量，高维传感器信号为函数协变量，但如何有效解释结果成为难点。本研究提出一种新的功能自适应双稀疏估计器，基于稀疏分组套索的函数正则化方法处理多个函数预测变量，通过函数变量选择实现全局稀疏性，并通过系数函数零子区间识别实现局部稀疏性。我们证明该估计量在温和条件下以有界速率收敛并满足Oracle性质。广泛模拟研究证实了理论性质，并显示其相较于现有方法具有优异性能。通过应用于基于Kinect传感器的研究——该研究利用先进运动感应设备追踪社区老年人多关节运动——证明了该估计量如何有效刻画关节运动与身体健康评估之间的精细关联。该方法不仅在Kinect传感器分析中有效，还可推广至同时采集多维传感器信号的更广泛领域，以扩展传感器设备在健康研究中的应用并促进传感器数据分析。