Wearable Sensor Data Classification for Identifying Missing Transmission Sequence Using Tree Learning

• Published in: Sensors (Basel, Switzerland) Vol. 23; no. 10; p. 4924
• Main Authors: Gurumoorthy, Kambatty Bojan, Rajasekaran, Arun Sekar, Kalirajan, Kaliraj, Gopinath, Samydurai, Al-Turjman, Fadi, Kolhar, Manjur, Altrjman, Chadi
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 20.05.2023; MDPI
• Subjects: Accumulation; Analysis; Classification; classification learning; Communication; data accumulation; Data loss; data sequence; Data transmission; Decision making; Energy consumption; Information management; Internet of Things; Intervals; Missing data; Sensors; Synchronism; transmission error; Transmission loss; wearable sensors; Wearable technology; wearable sensors; transmission error; classification learning; data accumulation; data sequence
• ISSN: 1424-8220; 1424-8220
• DOI: 10.3390/s23104924

Wearable Sensor (WS) data accumulation and transmission are vital in analyzing the health status of patients and elderly people remotely. Through specific time intervals, the continuous observation sequences provide a precise diagnosis result. This sequence is however interrupted due to abnormal events or sensor or communicating device failures or even overlapping sensing intervals. Therefore, considering the significance of continuous data gathering and transmission sequence for WS, this article introduces a Concerted Sensor Data Transmission Scheme (CSDTS). This scheme endorses aggregation and transmission that aims at generating continuous data sequences. The aggregation is performed considering the overlapping and non-overlapping intervals from the WS sensing process. Such concerted data aggregation generates fewer chances of missing data. In the transmission process, allocated first-come-first-serve-based sequential communication is pursued. In the transmission scheme, a pre-verification of continuous or discrete (missing) transmission sequences is performed using classification tree learning. In the learning process, the accumulation and transmission interval synchronization and sensor data density are matched for preventing pre-transmission losses. The discrete classified sequences are thwarted from the communication sequence and are transmitted post the alternate WS data accumulation. This transmission type prevents sensor data loss and reduces prolonged wait times.