Rician electromagnetic environment modeling in reverberation chamber based on plane waves superposition model

LI Huan; LIU Xiaodong; LIU Qiang; ZHAO Xiang; YAN Liping

doi:10.11805/tkyda201906.1027

[1] REHAMMARR,SKARBRATTA.Antenna measurements in reverberation chambers and their relationtoMonteCarlo integration methods[C]// International Symposiumon Antennas &Propagation. Hobart,TAS,Australia:IEEE, 2015:1-3.

[2] SCHIPPERH,LEFERINKF. Shieldingeffectivenessmeasurementsofmaterials and enclosures using adual vibrating intrinsic reverberation chamber[C]// IEEE International Symposium on Electromagnetic Compatibility. Dresden,Germany: IEEE, 2015:23-28.

[3] LIU J,KE L,XIN B,et al. Absorption cross section measurements of absorbing materials in a reverberation chamber[C]// 2017 International Workshop on Electromagnetics:Applications and Student Innovation Competition. London,UK:[s.n.], 2017:157-159.

[4] KOSTAS J G,BOVERIE B. Statistical model for a mode-stirred chamber[J]. IEEE Transactions on Electromagnetic Compatibility, 1991,33(4):366-370.

[5] FIELITZ H,REMLEY K A,HOLLOWAY C L,et al. Reverberation-chamber test environment for outdoor urban wireless propagation studies[J]. IEEE Antennas & Wireless Propagation Letters, 2010,9(1):52-56.

[6] GENENDER E,HOLLOWAY C L,REMLEY K A,et al. Simulating the multipath channel with a reverberation chamber: application to Bit Error Rate measurements[J]. IEEE Transactions on Electromagnetic Compatibility, 2010,52(4):766-777.

[7] NGUYEN T M,CHUNG J Y,KWON J H. Optimal test set-up for generating Rayleigh fading channel in reverberation chamber[C]// International Symposium on Antennas and Propagation(ISAP). Okinawa,Japan:IEEE, 2017:736-737.

[8] SEN I,MATOLAK D W,XIONG W. Wireless channels that exhibit worse than Rayleigh fading:analytical and measurement results[C]// IEEE Military Communications Conference. Washington,DC,USA:IEEE, 2006:1-7.

[9] RACHED N B,KAMMOUN A,ALOUINI M S,et al. On the efficient simulation of outage probability in a log-normal fading environment[J]. IEEE Transactions on Communications, 2017,65(6):2583-2593.

[10] CHOI J H,PARK S O,YANG T S,et al. Generation of Rayleigh/Rician fading channels with variable RMS delay by changing boundary conditions of the reverberation chamber[J]. IEEE Antennas & Wireless Propagation Letters, 2010,9(1):510-513.

[11] COOPER J,WELLER T,DISTASI S,et al. An electronically reconfigurable reverberation chamber for the emulation of severe multipath channels[C]// IEEE Wireless & Microwave Technology Conference. Clearwater,FL,USA:IEEE,2009:1-4.

[13] CORONA P,FERRARA G,MIGLIACCIO M. Reverberating chamber electromagnetic field in presence of an unstirred component[J]. IEEE Transactions on Electromagnetic Compatibility, 2000,42(2):111-115.

[14] HILL D A. Plane wave integral representation for fields in reverberation chambers[J]. IEEE Transactions on Electromagnetic Compatibility, 1998,40(3):209-217.

[17] HOLLOWAY C L,HILL D A,LADBURY J M,et al. On the use of reverberation chambers to simulate a Rician radio environment for the testing of wireless devices[J]. IEEE Transactions on Antennas & Propagation, 2006,54(11):3167-3177.

[18] LEMOINE C,BESNIER P,DRISSI M. Advanced method for estimating direct-to-scattered ratio of Rician channel in reverberation chamber[J]. Electronics Letters, 2009,45(4):194-196.

[19] DURGIN G. Space-time wireless channels[M]. New Jersey:Prentice Hall, 2003.