Here I present some of the documents that have I have consulted while working on the Civionics project.
[1] H. Wenzel. (2009). Health Monitoring of Bridges.
[2] L. A. Bisby and M. B. Briglio, "An Introduction to Structural Health Monitoring," ISIS Canada and SAMCO Network of the European Commission2005.
[3] G. Park, et al., "The fundamental axioms of structural health monitoring," Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol. 463, pp. 1639-1664, 2007.
[4] D. Balageas, et al. (2006). Structural Health Monitoring.
[5] B. Bakht, et al., "Guidelines for Structural Health Monitoring," ed. Canada: ISIS Canada, 2001.
[6] M. F. Green, "Bridge Dynamics and Dynamic Amplification Factors - a review of analytical and experimental findings," Canadian Journal of Civil Engineering, pp. 876-877, 1993.
[7] C. E. Ventura, et al., "Effective Use of Ambient Vibration Measurements for Modal Updating of a 48 Storey Building in Vancouver, Canada," Natural Sciences and Engineering Research Council, Vancouver2001.
[8] C. Sikorsky, "Development of a Health Monitoring System for Civil Structures Using a Level IV Non-Destructive Damage Evaluation Methold," in Proceedings of the 2nd International Workshop on Structural Health Monitoring 2000, Stanford University, 2000, pp. 66-81.
[9] L. Han, et al., "Centralized remote structural monitoring and management of realtime data," in International Symposium on Smart Structures and Materials, San Diego, CA, 2004.
[10] E. H. Clayton, et al., "Monitoring Infrastructural Health: In-situ Damage Detection and Localization Utilizing Distributed Smart Sensor Technology," 4th World Conference on Structural Control and Monitoring, 2006.
[11] S. Cho, et al., "Smart Wireless Sensor Technology for Structural Health Monitoring of Civil Structures," Steel Structures Journal, pp. 267-275, 2008.
[12] C. R. Farrar, "Historical Overview of Structural Health Monitoring " in Lecture Notes on Structural Health Monitoring Using Statistical Pattern Recognition, ed. Los Alamos, 2001.
[13] J. P. Lynch, "A Summary Review of Wireless Sensors and Sensor Networks for Structural Health Monitoring," The Shock and Vibration Digest, vol. 38, pp. 91-128, 2006.
[14] F. L. Lewis, "Wireless Sensor Networks," in Smart Environments: Technologies, Protocols and Applications, D. J. Cook and S. K. Das, Eds., ed. New York: Jonh Wiley, 2004.
[15] L. Mittag, "Magic in the air," Embedded Systems Programming, vol. 14, pp. 49-60, 2001.
[16] C. Stiernberg. (2011). Five Things Every Scientist and Engineer Should Know about Wireless Sensor Measurements. Available: http://www.laboratoryequipment.com/article-wireless-sensor-measurements-0903.aspx
[17] D. Gislason, Zigbee Wireless Networking: Newnes, 2008.
[18] T. Lennvall, et al., "A comparison of WirelessHART and ZigBee for industrial applications," in Factory Communication Systems, 2008. WFCS 2008. IEEE International Workshop on, 2008, pp. 85-88.
[19] E. Sazonov, et al., "Self-Powered Sensors for Monitoring of Highway Bridges," IEEE Sensors Journal, vol. 9, pp. 1422-1429, 2009.
[20] U. Battery. What's the best battery? Available: http://batteryuniversity.com/learn/article/whats_the_best_battery
[21] E. G. Straser and A. S. Kiremidjian, "A Modular, Wireless Damage Monitoring System for Structures," Department of Civil and Environmental Engineering Stanford University1998.
[22] J. P. Lynch, et al., "A Wireless Modular Monitoring System for Civil Structures," in 20th International Modal Analysis Conference, Los Angeles, CA, 2002.
[23] K. Mitchell, et al., Lessons learned about wireless technologies for data acquisition vol. 4700. Bellingham, WA, INTERNATIONAL: Society of Photo-Optical Instrumentation Engineers, 2002.
[24] V. A. Kottapalli, et al., "Two-tiered wireless sensor network architecture for structural health monitoring," San Diego, CA, USA, 2003, pp. 8-19.
[25] J. P. Lynch, et al., "Field Validation of a Wireless Structural Monitoring Sytem on the Alamosa Canyon Bridge," presented at the SPIE's 10th Annual International Symposium on Smart Structures and Materials, San Diego, CA, 2003.
[26] S. Aoki, et al., "Intelligent bridge maintenance system using MEMS and network technology," San Diego, CA, USA, 2003, pp. 37-42.
[27] L. Mastroleon, et al., "Design of a new power-efficient wireless sensor system for structural health monitoring," San Diego, CA, USA, 2004, pp. 51-60.
[28] E. Sazonov, et al., "Wireless intelligent sensor network for autonomous structural health monitoring," San Diego, CA, USA, 2004, pp. 305-314.
[29] D. W. Allen, "Software for Manipulating and Embedding Data Interrogation Algorithms into Integrated Systems," Master, Virginia Polytechnic Institute and State University, 2004.
[30] C. R. Farrar, et al., "Sensor network paradigms for structural health monitoring," Structural Control and Health Monitoring, vol. 13, pp. 210-225, 2006.
[31] Y. Wang, et al., "Wireless Structural Sensors Using Reliable Communication Protocols for Data Acquisiton and Interrogation," in 23rd International Modal Analysis Conference (IMAC XXIII), 2005.
[32] F. Zhao and L. Guibas, Wireless Sensor Networks: An Information Processing Approach: Morgan Kaufmann, 2004.
[33] N. A. Tanner, et al., Structural health monitoring using modular wireless sensors vol. 14. London, ROYAUME-UNI: Sage, 2003.
[34] S. D. Glaser, "Some real-world applications of wireless sensor nodes," 2004, pp. 344-355.
[35] B. F. Spencer Jr, et al., "Smart sensing technology: Opportunities and challenges," Structural Control and Health Monitoring, vol. 11, pp. 349-368, 2004.
[36] Crossbow/MEMSIC, "TelosB - Datasheet," ed, 2005.
[37] Moteiv, "Tmote Sky - Datasheet," ed, 2006.
[38] L. Nachman, et al., "IMOTE2: Serious computation at the edge," 2008, pp. 1118-1123.
[39] D. Gascón. (2010, 2011). 12Km ZigBee link with Waspmote. Available: http://www.libelium.com/libeliumworld/articles/100550554427
[40] Libelium. Waspmote. Available: http://www.libelium.com/products/waspmote
[41] Crossbow/MEMSIC. Available: www.crossbow.com
[42] P. Levis, et al., "TinyOS: An Operating System for Sensor Networks," in Ambient Intelligence, W. Weber, et al., Eds., ed: Springer-Verlag, 2005, pp. 115-148.
[43] J. A. Rice and B. F. J. Spencer, "Flexible Smart Sensor Framework for Autonomous Full-scale Structural Health Monitoring," NSEL, NSEL Report2009.
[44] S. Bhatti, et al., "MANTIS OS: an embedded multithreaded operating system for wireless micro sensor platforms," Mob. Netw. Appl., vol. 10, pp. 563-579, 2005.
[45] Q. Cao and T. Abdelzaher, "liteOS: a lightweight operating system for C++ software development in sensor networks," presented at the Proceedings of the 4th international conference on Embedded networked sensor systems, Boulder, Colorado, USA, 2006.
[46] B. Sundararaman, et al., "Clock synchronization for wireless sensor networks: a survey," Ad Hoc Networks, vol. 3, pp. 281-323, 2005.
