Temperature-Compensated Clock Skew Adjustment
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Author
Castillo Secilla, José María
Palomares Muñoz, José Manuel
Olivares Bueno, Joaquín
Publisher
MDPIDate
2013Subject
Clock skewWSN
Synchronization
Temperature
Oscillators
Tuning-fork
FTSP
AT-FTSP
A2T-FTSP
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This work analyzes several drift compensation mechanisms in wireless sensor
networks (WSN). Temperature is an environmental factor that greatly affects oscillators
shipped in every WSN mote. This behavior creates the need of improving drift compensation
mechanisms in synchronization protocols. Using the Flooding Time Synchronization
Protocol (FTSP), this work demonstrates that crystal oscillators are affected by temperature
variations. Thus, the influence of temperature provokes a low performance of FTSP in
changing conditions of temperature. This article proposes an innovative correction factor
that minimizes the impact of temperature in the clock skew. By means of this factor,
two new mechanisms are proposed in this paper: the Adjusted Temperature (AT) and the
Advanced Adjusted Temperature (A2T). These mechanisms have been combined with FTSP
to produce AT-FTSP and A2T-FTSP. Both have been tested in a network of TelosB motes
running TinyOS. Results show that both AT-FTSP and A2T-FTSP improve the average
synchronization errors compared to FTSP and other temperature-compensated protocols
(Environment-Aware Clock Skew Estimation and Synchronization for WSN (EACS) and
Temperature Compensated Time Synchronization (TCTS)).