Wenyao Xu scite author profile

Gait analysis is an important medical diagnostic process and has many applications in healthcare, rehabilitation, therapy, and exercise training. However, typical gait analysis has to be performed in a gait laboratory, which is inaccessible for a large population and cannot provide natural gait measures. In this paper, we present a novel sensor device, namely, Smart Insole, to tackle the challenge of efficient gait monitoring in real life. An array of electronic textile (eTextile) based pressure sensors are integrated in the insole to fully measure the plantar pressure. Smart Insole is also equipped with a low-cost inertial measurement unit including a 3-axis accelerometer, a 3-axis gyroscope, and a 3axis magnetometer to capture the gait characteristics in motion. Smart Insole can offer precise acquisition of gait information. Meanwhile, it is lightweight, thin, and comfortable to wear, providing an unobtrusive way to perform the gait monitoring. Furthermore, a smartphone graphic user interface is developed to display the sensor data in real-time via Bluetooth low energy. We perform a set of experiments in four real-life scenes including hallway walking, ascending/descending stairs, and slope walking, where gait parameters and features are extracted. Finally, the limitation and improvement, wearability and usability, further work, and healthcare-related potential applications are discussed.

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Wearable Food Intake Monitoring Technologies: A Comprehensive Review

Lin

Alshurafa

et al. 2017

Computers

137

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Wearable devices monitoring food intake through passive sensing is slowly emerging to complement self-reporting of users' caloric intake and eating behaviors. Though the ultimate goal for the passive sensing of eating is to become a reliable gold standard in dietary assessment, it is currently showing promise as a means of validating self-report measures. Continuous food-intake monitoring allows for the validation and refusal of users' reported data in order to obtain more reliable user information, resulting in more effective health intervention services. Recognizing the importance and strength of wearable sensors in food intake monitoring, there has been a variety of approaches proposed and studied in recent years. While existing technologies show promise, many challenges and opportunities discussed in this survey, still remain. This paper presents a meticulous review of the latest sensing platforms and data analytic approaches to solve the challenges of food-intake monitoring, ranging from ear-based chewing and swallowing detection systems that capture eating gestures to wearable cameras that identify food types and caloric content through image processing techniques. This paper focuses on the comparison of different technologies and approaches that relate to user comfort, body location, and applications for medical research. We identify and summarize the forthcoming opportunities and challenges in wearable food intake monitoring technologies.

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eCushion: A Textile Pressure Sensor Array Design and Calibration for Sitting Posture Analysis

Xu¹,

et al. 2013

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$\mathsf{LightChain}$: A Lightweight Blockchain System for Industrial Internet of Things

Liu

Wang

Lin

et al. 2019

IEEE Trans. Ind. Inf.

254

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Wenyao Xu

Towards Environment Independent Device Free Human Activity Recognition

Smart Insole: A Wearable Sensor Device for Unobtrusive Gait Monitoring in Daily Life

Wearable Food Intake Monitoring Technologies: A Comprehensive Review

eCushion: A Textile Pressure Sensor Array Design and Calibration for Sitting Posture Analysis

$\mathsf{LightChain}$: A Lightweight Blockchain System for Industrial Internet of Things

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