Abstract :
The purpose of this study is to develop a non-invasive sleep monitoring system to distinguish sleep disturbances based on multiple sensors. Unlike clinical sleep monitoring which records biological information such as EEG, EOG, and EMG, in this study, we aim to identify occurrences of events from a sleep environment. A device with an infrared depth sensor, a RGB camera, and a four-microphone array is used to detect three types of events: motion events, lighting events, and sound events. Given streams of depth signals and color images, we build two background models to detect movements and lighting effects, and audio signals are scored simultaneously. Moreover, we classify events by an epoch approach algorithm and provide a graphical sleep diagram for browsing corresponding video clips. Experimental results in sleep condition show the efficiency and reliability of our system, and it is convenient and cost-effective to be used in home context.
Keywords :
audio signal processing; cameras; electroencephalography; image colour analysis; microphone arrays; reliability; sleep; video signal processing; EEG; EMG; EOG; RGB camera; audio information; audio signals; biological information; clinical sleep monitoring; color images; depth information; four-microphone array; graphical sleep diagram; lighting events; motion events; reliability; sleep events detection; sleep monitoring system; sound events; video clips; video information; Color; Lighting; Monitoring; Noise; Sensors; Sleep apnea; Event Detection; Image Sequence Analysis; Non-invasive Sleep Monitoring;
