Young-Koo Lee scite author profile

Physical-activity recognition via wearable sensors can provide valuable information regarding an individual's degree of functional ability and lifestyle. In this paper, we present an accelerometer sensor-based approach for human-activity recognition. Our proposed recognition method uses a hierarchical scheme. At the lower level, the state to which an activity belongs, i.e., static, transition, or dynamic, is recognized by means of statistical signal features and artificial-neural nets (ANNs). The upper level recognition uses the autoregressive (AR) modeling of the acceleration signals, thus, incorporating the derived AR-coefficients along with the signal-magnitude area and tilt angle to form an augmented-feature vector. The resulting feature vector is further processed by the linear-discriminant analysis and ANNs to recognize a particular human activity. Our proposed activity-recognition method recognizes three states and 15 activities with an average accuracy of 97.9% using only a single triaxial accelerometer attached to the subject's chest.

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Improved trust-aware recommender system using small-worldness of trust networks

Yuan

Guan

Lee

et al. 2010

Knowledge-Based Systems

153

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Vessel enhancement filter using directional filter bank

Truc¹,

Khan²,

Lee³

et al. 2009

Computer Vision and Image Understanding

118

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Sliding window-based frequent pattern mining over data streams

Tanbeer

Ahmed

Jeong

et al. 2009

Information Sciences

135

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Young-Koo Lee

Efficient Tree Structures for High Utility Pattern Mining in Incremental Databases

A Triaxial Accelerometer-Based Physical-Activity Recognition via Augmented-Signal Features and a Hierarchical Recognizer

Improved trust-aware recommender system using small-worldness of trust networks

Vessel enhancement filter using directional filter bank

Sliding window-based frequent pattern mining over data streams

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