Design Optimization of Composite Radar Absorbing Structures to Improve Stealth Performance |
Jang, Byungwook
(Graduate School of Aerospace and Mechanical Engineering, Korea Aerospace University)
Kim, Myungjun (Graduate School of Aerospace and Mechanical Engineering, Korea Aerospace University) Park, Jungsun (Department of Aerospace and Mechanical Engineering, Korea Aerospace University) Lee, Sooyong (Department of Aerospace and Mechanical Engineering, Korea Aerospace University) |
1 | Grant, R., The Radar Game: Understanding Stealth and Aircraft Survivability, Mitchell Institute Press, 1998. |
2 | Ball, R. E., The fundamentals of aircraft combat survivability analysis and design, AIAA, 2003. |
3 | Lee, D. S., Gonzalez, L. F., Srinivas, K. and Periaux, J., "Robust evolutionary algorithms for UVA/UCAV aerodynamic and RCS design optimisation", Computer and Fluids, Vol. 37, 2008, pp. 547-564. DOI |
4 | Bondeson, A., Yang, Y. and Weinerfelt, P., "Optimization of radar cross section by a gradient method", IEEE Trans. Magn., Vol. 40, 2004, pp. 1260-1263. DOI |
5 | Saville, P., "A review of radar absorbing material", TM 2005-003, Defence R&D Canada -Atlantic, 2005. |
6 | Hong, C. S., "Stealth aircraft and composites", J. of KSAS, Vol. 24, 1996, pp. 156-160. |
7 | Jung, W. K., Kim, B. K., Won, M. S. and Ahn, S. H., "Fabrication of radar absorbing structure(RAS) using GFRnano composite and spring-back compensation of hybrid composite RAS shells", Composite Structures, Vol. 75, 2006, pp. 571-576. DOI |
8 | Park, K. Y., Lee, S. E., Kim, C. G. and Han, J. H., "Fabrication and electromagnetic characteristics of electromagnetic wave absorbing sandwich structures", Composite Science and Technology, Vol. 66, 2006, pp. 576-584. DOI |
9 | Knott, E. F., Shaeffer, J. F. and Tuley, M. T., Radar Cross Section, Artech House, 1993. |
10 | Saville, P., "A review of optimization techniques for layered radar absorbing materials", TM 2004-260, Defence R&D Canada -Atlantic, 2004. |
11 | Oh, J. H., Oh, K. S., Kim, C.G. and Hong, C. S., "Design of radar absorbing structures using glass/epoxy composite containing carbon black in X-band frequency ranges", Composite Part B, Vol. 35, 2004, pp. 49-56. DOI |
12 | Musal, H. M. and Hahn, H. T., "Thin-layer electromagnetic absorber design", IEEE Trans. Magn., Vol. 25, 1989, pp. 3851-3853. DOI |
13 | Perini, J. and Cohen, L. S., "Design of broad-band radar absorbing materials for large angle of incidence", IEEE Trans. Electromagn. Compat, Vol. 35, 1993, pp. 223-230. DOI |
14 | Michielssen, E.. Sajer, S. M., Ranjithan, S. and Mittra, R., "Design of lightweight, broad-band microwave absorbers using genetic algorithms", IEEE Trans. Microwave Theory Tech, Vol. 41, 1993, pp. 1024-1031. DOI |
15 | Haupt, R. L., "Comparison between genetic algorithm and gradient based optimization algorithms for solving electromagnetic problems", IEEE Trans. Magn., Vol. 31, 1995, pp. 1932-1935. DOI |
16 | Kim, J. B., Lee, S. K. and Kim, C. G., "Comparison study on the effect of carbon nano materials for single-layer microwave absorber in X-Band", Composite Science and Technology, Vol. 68, 2008, pp. 2909-2916. DOI |
17 | Park, H. S., Choi, I. S., Bang, J. K., Suk, S. H., Lee, S. S. and Kim, H. T., "Optimization design of radar absorbing materials for complex target", J. of Electromagnetic Waves and Applications, Vol. 18, 2004, pp. 1105-1117. DOI |
18 | Lee, S. E., Kang, J. H. and Kim, C. G., "Fabrication and design of multi-layered radar absorbing structures of MWNT-filled glass/epoxy plain-weave composites", Composite Structures, Vol. 76, 2006, pp. 379-405 |
19 | Chin, W. S. and Lee, D. G., "Development of the composite RAS(radar absorbing structure) for X-band frequency range", Composite Structures, Vol. 77, 2007, pp. 457-465. DOI |
20 | Jenn, D. C., Radar and Laser Cross Section Engineering, AIAA Education Series, 2005. |
21 | Cheng, D. K., Fundamentals of engineering electromagnetics, Prentice Hall, 1992. |
22 | Collin, R. E., Foundations for microwave engineering, McGraw-Hill, 1992. |
23 | Mahafza, B. R., Radar systems analysis and design using MATLAB, Chapman & Hall/CRC, 2000. |
24 | Garrido, E. E. Jr. and Jenn, D. C., "A MATLAB physical optics RCS prediction code", ACES Newsletter, Vol. 5, 2000. |
25 | Myong, R. S. and Cho, T. H., "Development of a computational electromagnetics code for radar cross section calculations of flying vehicles", J. of KSAS, Vol. 33, 2005, pp. 1-6. |
26 | Cole, K. S. and Cole, R. H., "Dispersion and absorption in dielectrics I, alternating current characteristics", J. of Chemical Physics, Vol. 9, 1941, pp. 341-352. DOI |
27 | Goldberg, D. E., Genetic algorithm in search, optimization, and machine learning, Addison-Wesley, 1987. |
28 | Rao, S. S., Engineering Optimization Theory and Practice, A Wiley-interscience publication, 1996. |
29 | http://faculty.nps.edu/jenn/ |
30 | Kim, J. B., "Design of microwave absorbing composite laminates by using semi-empirical permittivity models", Ph.D. Thesis, KAIST, 2007. |