通过机器人床的闭环自动调节来提高睡眠质量。

Alexander Breuss, Zelio Suter, Manuel Fujs, Robert Riener
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引用次数: 0

摘要

睡眠对提高康复效果至关重要,因为它有助于运动学习,提高认知能力,改善情绪和幸福感。对于有睡眠问题的人来说,提供前庭刺激的摇床可能是一种很有前途的、非侵入性的替代传统药物治疗的方法,可以提供再生睡眠,而不会产生不必要的副作用。先前的研究表明,干预措施的有效性与所选择的摇摆加速度有关。此外,床的运动必须舒适、平稳,以免干扰使用者的睡眠。以前,电机控制参数是手动调整的,这是耗时的、主观的,并且不能保证与所需加速度曲线的最小偏差。在这项工作中,我们提出了一种高效有效的方法,使用高斯过程来自动调整沿纵轴移动的摇床的PI控制参数。我们首先模拟了摇床的运动学,并为选定的目标函数优化了控制参数,该目标函数包括运动方向上的期望加速度和实际加速度。然后,我们比较了基于高斯过程的模型和基于参数空间的朴素随机探索的模型达到这一目标所需的迭代次数。最后,我们在摇床上实现了高斯过程,以自动调整控制参数,并将其与之前手动调整后获得的控制参数进行主观比较。我们的仿真表明,我们可以在使用高斯过程进行恒定次数的迭代后达到控制目标,而与搜索空间大小无关。对于随机搜索,迭代次数随着搜索空间的大小而二次增加。高斯过程被发现可以很好地转移到摇摆床上。不到一个小时后,发现控制参数在平滑度方面优于之前的参数。然而,尽管运动更平稳,但电机的噪声排放(不属于优化的一部分)显著增加。与手动调整相比,我们提出的基于高斯过程的技术显著减少了优化床的控制参数所需的时间和精力。在未来的工作中,由于低噪声是睡眠相关应用中的一个重要方面,因此必须细化控制目标,将噪声发射作为优化指标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancing Sleep Quality with Closed-Loop Autotuning of a Robotic Bed.

Sleep is essential to boost the rehabilitation outcome as it facilitates motor learning, enhances cognitive performance, and improves mood and well-being. Rocking beds that provide vestibular stimulation may be a promising and non-invasive alternative to conventional pharmaceutical treatments for individuals with sleep problems, offering regenerative sleep without unwanted side effects. Previous research has shown that the effectiveness of the interventions is related to the chosen rocking acceleration. Moreover, the movement of the bed must be comfortable and smooth to avoid disturbing the user's sleep. Previously, the motor control parameters were tuned manually, which was time-consuming, subjective, and did not guarantee minimum deviation from the desired acceleration profile. In this work, we present an efficient and effective method using Gaussian processes to automatically tune the PI control parameters of a rocking bed moving along the longitudinal axis. We first simulated the kinematics of a rocking bed and optimized the control parameters for a chosen objective function that included the desired and the actual accelerations in the movement direction. We then compared the number of iterations needed to reach this objective for a model based on Gaussian processes and for a model based on a naive random exploration of the parameter space. Finally, we implemented the Gaussian process on the rocking bed to automatically tune the control parameters and subjectively compared them to the control parameters that were previously obtained after manual tuning. Our simulation showed that we can reach the control objective after a constant number of iterations using Gaussian processes, independent of the search space size. For the random search, the number of iterations increased quadratically with the size of the search space. The Gaussian process was found to be well transferable to the rocking bed. After less than one hour, control parameters were discovered that outperformed the previous parameters in terms of smoothness. However, despite the smoother motion, the noise emission from the motor, which was not part of the optimization, increased considerably. Our presented technique based on Gaussian processes significantly reduced the time and effort required to optimize the bed's control parameters compared to manual tuning. In future work, the control objective has to be refined to include noise emission as an optimization metric as low noise is an important aspect in sleep-related applications.

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