論文- 今野 佳祐 -
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件数:41件
[2015]
21.Beam scanning capability and suppression of endfire radiation of dipole array antennas coupled to two-wire transmission line.[IEICE Commun. Express,vol. 4(no. 12),(2015),358-362]K. Konno, K. Takeda, and Q. Chen
22.Improvement of the light outcoupling efficiency of organic light-emitting diodes using a hemispherical lens and a multi-patterned one-dimensional photonic crystal fabricated by autocloning.[Appl. Phys. Exp., 8, 082102(2015),(2015)]H. Fujimoto, M. Yahiro, T. Kawashima, K. Konno, Q. Chen, K. Sawaya, S. Kawakami, C. Adachi
23.Design of compact multiband antenna for triple-band cellular base stations.[IEEE Antennas and Wireless Propag. Lett.,vol.14,(2015),64-67]K. Itoh, K. Konno, Q. Chen, and S. Inoue
[2014]
24.Design of directivity of tapered slot antenna for triple-band cellular base station.[Proc. IEICE Int. Symp. Antennas. Propag.,(2014)]K. Itoh, K. Konno, Q. Chen, and S. Inoue
25.Numerical Analysis of Planar Dipole Antennas in the Vicinity of Dielectric Object Using HO-CBFM.[Proc. IEICE Int. Symp. Antennas. Propag.,(2014)]K. Konno and Q. Chen
26.The numerical analysis of an antenna near a dielectric object using the higher-order characteristic basis function method combined with a volume integral equation.[IEICE Trans. Commun.,vol.E97-B(no.10),(2014),2066-2073]K. Konno and Q. Chen
27.Numerical analysis of antenna near dielectric object by using CBFM with arbitrary block division.[Proc. IEEE AP-S Int. Symp.,(2014),2112-2113]K. Konno and Q. Chen
28.Acceleration of Various Direct/Iterative Solvers for MoM by GPU and Its Computational Cost.[Proc. IEICE Int. Symp. Electromagn. Compat.,(2014),824-827]K. Konno, Q. Chen and H. Katsuda
29.Design of finite FSS-backed reflectarray by using BDP-CG method.[Proc. iWAT2014,(2014),200-202]K. Konno, Q. Chen, S. Kameda and N. Suematsu
[2013]
30.Quantitative study of computing time of direct/iterative solver for MoM by GPU computing.[IEICE Commun. Express,2(8),(2013),359-364]K. Konno, H. Katsuda, K. Yokokawa, Q. Chen, K. Sawaya, and Q. Yuan
31.Novel Design Method for Reflectarray by Induced Electromotive Force Method.[Proc. IEEE AP-S Int. Symp.,(2013),1342-1343]K.Konno, Q. Chen
[2012]
32.Optimum Block Division in CBFM for Fast MoM.[Proc. IEICE Int. Symp. Antennas. Propag.,3D1-1,(2012)]K. Konno, Q. Chen, and K. Sawaya
33.Optimization of block size for CBFM in MoM.[IEEE Trans. Antennas Propag.,vol.60(no.10),(2012),4719-4724]K. Konno, Q. Chen, K. Sawaya, and T. Sezai
34.Analysis of linear antenna near dielectric object by CBFM.[Proc. IEEE AP-S Int. Symp.,(2012),1-2]K. Konno, Q. Chen, K. Sawaya, and T. Sezai
[2011]
35.Statistical analysis of huge-scale periodic array antenna including randomly distributed faulty elements.[IEICE Trans. Commun.,E94-C(10),(2011),1611-1617]K. Konno, Q. Chen, K. Sawaya, and T. Sezai
36.Optimization of block size for CBFM in MoM.[Proc. IEICE Int. Symp. Antennas. Propag.,(2011),1-4]K. Konno, Q. Chen, K. Sawaya, and T. Sezai
[2010]
37.Application of impedance extension method to 2D large-scale periodic array antenna with faulty elements.[Proc. IEICE Int. Symp. Antennas. Propag.,(2010),1-4]K. Konno, Q. Chen, K. Sawaya, and T. Sezai
38.Application of Impedance Extension Method to 2D Large-Scale Periodic Array Antenna with Faulty Elements.[Proc. 2010 International Symposium on Antennas and Propagation (ISAP 2010),(2010),969-972]Keisuke Konno, Qiang Chen, Kunio Sawaya, Toshihiro Sezai
39.Quantitative evaluation for computational cost of CG-FMM on typical wiregrid models.[IEICE Trans. Commun.,E93-B(10),(2010),2611-2618]K. Konno, Q. Chen, and K. Sawaya
[2009]
40.Analysis of huge-scale periodic array antenna using impedance extension method.[IEICE Trans. Commun.,E92-B(12),(2009),3869-3874]K. Konno, Q. Chen, K. Sawaya, and T. Sezai
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