Scalable, Energy Harvesting, Wireless Sensor Network for Structural Health Monitoring of Ships Navy SBIR FY2010.1 Sol No.: Navy SBIR FY2010.1 Topic No.: N101-095 Topic Title: Scalable, Energy Harvesting, Wireless Sensor Network for Structural Health Monitoring of Ships Proposal No.: N101-095-1427 Firm: MicroStrain, Inc. 459 Hurricane Lane Suite 102 Williston, Vermont 05495-3211 Contact: Steven Arms Phone: (802) 862-6629 Web Site: www.microstrain.com Abstract: Structural health monitoring (SHM) of large structures such as Navy ships requires an in depth knowledge of operational loads and how these loads may change over time. A network of low cost, wireless strain sensors can provide this information. During Phase I, we will demonstrate a highly synchronized, scalable network of energy harvesting wireless strain sensors. By converting ambient cyclic strains into power, these sensors can monitor operational loads for the lifetime of the ship without battery replacement. Synchronized strain, temperature, shock, vibration, and loads data may be collected at high data rates. Timing synchronization and data collection is orchestrated with a wired network of Ethernet enabled wireless controllers and wireless sensor data aggregators (WSDAs). The wireless sensing network uses time division multiple access to control communications and to reduce power consumption through duty cycling. The network is organized in critical structural clusters such that at least one node in the cluster is always actively sampling. In the Phase I Option, we will demonstrate that during relatively low loading conditions, energy is conserved and stored. In contrast, during relatively high levels of accumulated damage or when overloads are detected, the network automatically adjusts its operating modes to become more vigilant. Benefits: These advanced, scalable sensing systems can be used to reduce maintenance costs and increase safety for ships, aircraft, industrial machines, and wind turbines. Return