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A Self-organizing Sensing System for Structural Health Monitoring of Aerospace Vehicles

  • N. Hoschke
  • C. J. Lewis
  • D. C. Price
  • D. A. Scott
  • V. Gerasimov
  • P. Wang
Part of the Advanced Information and Knowledge Processing book series (AI&KP)

Keywords

Genetic Programming Cellular Automaton Multiagent System Mobile Agent Cellular Automaton 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Camazine, S., Deneubourg, J-L., Franks, N.R., Sneyd, J., Theraulaz, G., Bonabeau, E. (2001). Self-Organization in Biological Systems. Princeton University Press, Princeton, NJ.Google Scholar
  2. Dorigo, M., and Di Caro, G. (1999). Ant Colony Optimization: A New Meta-Heuristic, (1999). Congress on Evolutionary Computation, pp. 1470–1477, Washington D.C., July 1999.Google Scholar
  3. Dorigo, M., and Stützle, T. (2004). Ant Colony Optimization. MIT Press, Cambridge, MA.zbMATHGoogle Scholar
  4. Hedley, M., Johnson, M.E., Lewis, C.J., Carpenter, D.A., Lovatt, H., Price, D.C. (2003). Smart Sensor Network for Space Vehicle Monitoring, Proceedings of the International Signal Processing Conference. Dallas, TX, March 2003. http://www.gspx.com/GSPX/papers_online/papers_list.phpGoogle Scholar
  5. Hoschke, N., Lewis, C.J., Price, D.C., Scott, D.A., Edwards, G.C., Batten, A. (2006). A self-organising sensing system for structural health management. In Gabrys, B., Howlett, R.J., and Jain, L.C., editors, Knowledge-Based Intelligent Information and Engineering Systems, 10th International Conference, KES 2006, Bournemouth, UK, October 9-11 2006, Proceedings, Part III, volume 4253 of Lecture Notes in Artificial Intelligence, pages 349–357. Springer, Berlin.Google Scholar
  6. Kohonen, T. (2001). Self-organizing Maps. Springer, Heidelberg (3rd Ed.).zbMATHGoogle Scholar
  7. Kohonen, T. (2003). Self-organized maps of sensory events, Philosophical Transactions of the Royal Society, Lond. A, 361:1177–1186.MathSciNetCrossRefGoogle Scholar
  8. Muster, T., Cole, I., Ganther, W., Paterson, D., Corrigan, P. and Price, D. (2005). Establishing a physical basis for the in-situ monitoring of airframe corrosion using intelligent sensor networks, Proceedings of the 2005 Tri-Service Corrosion Conference. Orlando, FL, November 2005.Google Scholar
  9. Price, D.C., Batten, A., Edwards, G.C., Farmer, A.J.D., Gerasimov, V., Hedley, M., Hoschke, N., Johnson, M.E., Lewis, C.J., Murdoch, A., Prokopenko, M., Scott, D.A., Valencia, P. and Wang, P. (2004). Detection, evaluation and diagnosis of impact damage in a complex multi-agent structural health management system. In Proceedings of the 2nd Australasian Workshop on Structural Health Monitoring, Melbourne, December 2004, pp. 16–27.Google Scholar
  10. Prokopenko, M., Boschetti, F., Ryan, A.J. (2007). An information-theoretic primer on complexity, self-organisation and emergence. Submitted to Advances in Complex Systems.Google Scholar
  11. Prokopenko, M., Poulton, G., Price, D.C., Wang, P., Valencia, P., Hoschke, N., Farmer, A.J.D., Hedley, M., Lewis, C., Scott, D.A. (2006). Self-organising impact sensing networks in robust aerospace vehicles. In Fulcher, J., editor, Advances in Applied Artificial Intelligence, pages 186–233. Idea Group, Hershey, PA.Google Scholar
  12. Prokopenko, M., Wang, P., Foreman, M., Valencia, P., Price, D. and Poulton, G. (2005a). On connectivity of reconfigurable impact networks in ageless aerospace vehicles. Journal of Robotics and Autonomous Systems, 53(1):36–58..CrossRefGoogle Scholar
  13. Prokopenko, M., Wang, P., Scott, D.A., Gerasimov, V., Hoschke, N., Price, D.C. (2005b). On self-organising diagnostics in impact sensing networks. In Khosla, R., Howlett, R. J., and Jain, L. C., eds., Knowledge-Based Intelligent Information and Engineering Systems, 9th International Conference, KES 2005, Melbourne, Australia, September 14-16, 2005, Proceedings, Part IV, volume 3684 of Lecture Notes in Computer Science, pages 170–178. Springer, Heidelberg.Google Scholar
  14. Rose, J. L. (1999). Ultrasonic Waves in Solid Media. Cambridge University Press, Cambridge, UK.Google Scholar
  15. Scott, D.A., Batten, A., Edwards, G.C., Farmer, A.J., Hedley, M., Hoschke, N., Isaacs, P., Johnson, M., Murdoch, A., Lewis, C., Price, D.C., Prokopenko, M., Valencia, P., Wang, P. (2005). An intelligent sensor system for detection and evaluation of particle impact damage, Review of Progress in Quantitative Nondestructive Evaluation, 24:1825–32. In Thompson, D.O. and Chimenti, D.E., editors, American Institute of Physics Conference Proceedings, volume 760.Google Scholar
  16. Trego, A., Price, D., Hedley, M., Corrigan, P., Cole, I. and Muster, T. (2005). Development of a system for corrosion diagnostics and prognostics, Proceedings of 1st World Congress on Corrosion in the Military: Cost Reduction Strategies, Sorrento, Italy, June 2005.Google Scholar

Copyright information

© Springer-Verlag London Limited 2008

Authors and Affiliations

  • N. Hoschke
  • C. J. Lewis
  • D. C. Price
  • D. A. Scott
  • V. Gerasimov
  • P. Wang

There are no affiliations available

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