TY - GEN
T1 - Predictive dependency constraint directed self-healing for wireless sensor networks
AU - Li, Jingyuan
AU - Wu, Yafeng
AU - Stankovic, John A.
AU - Son, Sang H.
AU - Zhong, Ziguo
AU - He, Tian
AU - Kim, Bong Wan
AU - Joo, Seong Soon
PY - 2010
Y1 - 2010
N2 - Wireless sensor networks are now being considered for mission critical applications, which are often largely unattended and need to operate reliably for years. However, due to the real world communication, sensing and failure realities, clock drift, and node faults, the system performance may degrade significantly over time. It is highly desirable that these natural deteriorations can be monitored continuously and can be corrected with self-healing when necessary. In this paper, we introduce a dependency constraint directed self-healing scheme for wireless sensor networks. We reveal that when self-healing services are being composed, certain dependency constraints, including invocation, parameter consistency, control and implicit assumption dependencies must be carefully identified and respected. We illustrate each of these dependency constraints through case studies in 3 different systems covering the typical functions of wireless sensor networks, including sensing, communication and tracking. Our research indicates that, following the dependency constraints in self-healing design is not only a must for the correctness of self-healing services, but is also a key to energy efficient self-healing.
AB - Wireless sensor networks are now being considered for mission critical applications, which are often largely unattended and need to operate reliably for years. However, due to the real world communication, sensing and failure realities, clock drift, and node faults, the system performance may degrade significantly over time. It is highly desirable that these natural deteriorations can be monitored continuously and can be corrected with self-healing when necessary. In this paper, we introduce a dependency constraint directed self-healing scheme for wireless sensor networks. We reveal that when self-healing services are being composed, certain dependency constraints, including invocation, parameter consistency, control and implicit assumption dependencies must be carefully identified and respected. We illustrate each of these dependency constraints through case studies in 3 different systems covering the typical functions of wireless sensor networks, including sensing, communication and tracking. Our research indicates that, following the dependency constraints in self-healing design is not only a must for the correctness of self-healing services, but is also a key to energy efficient self-healing.
KW - Communication
KW - Dependency
KW - Self-healing
KW - Sensing
KW - Tracking
KW - Wireless sensor networks
UR - http://www.scopus.com/inward/record.url?scp=78149262628&partnerID=8YFLogxK
U2 - 10.1109/INSS.2010.5573547
DO - 10.1109/INSS.2010.5573547
M3 - Conference contribution
AN - SCOPUS:78149262628
SN - 9781424479108
T3 - INSS 2010 - 7th International Conference on Networked Sensing Systems
SP - 22
EP - 29
BT - INSS 2010 - 7th International Conference on Networked Sensing Systems
T2 - 7th International Conference on Networked Sensing Systems, INSS 2010
Y2 - 15 June 2010 through 18 June 2010
ER -