Embedded Files
International Journals
International Journals
[107]Β T. V. Khoe and I. P. Hong, β Design and Evaluation of a Cooperative-Schedule Priority Transmission Protocol for Image Transmission in WISNsβ,in IEEE Access, vol. 13, pp.1236-1248, 2025Β Β
[106] Pham D-T, Hoang T.H.G and I. P. Hong, "RIS-Assisted CR-MEC Systems Using Deep Reinforcement Learning Approach", in IEEE Access, vol. 12, pp. 198167-198183, 2024.
[105] Tran, Ha Thi, Yun-Seok Mun, and Ic-Pyo Hong. "Drone Detection Using Dynamic-DBSCAN and Deep Learning in an Indoor Environment." Journal of Electromagnetic Engineering and Science 24.5 (2024): 510-523.
[104] I. Kim, H. -R. Im, I. -P. Hong, H. Lee and J. -G. Yook, "An Accelerated Method of a Generalized Transition Matrix Model Using Characteristic Basis Functions for Large-Scale Open-Ended Cavities," in IEEE Transactions on Antennas and Propagation, vol. 72, no. 8, pp. 6813-6818, Aug. 2024, doi: 10.1109/TAP.2024.3407382
[103] Rana B, Cho S-S, Hong I-P. βCharacterization of Unit Cells of a Reconfigurable Intelligence Surface Integrated with Sensing Capability at the mmWave Frequency Bandβ, Electronics. 2024; 13(9):1689. https://doi.org/10.3390/electronics13091689
[102] J. -H. Kim and I. -P. Hong, βInverse Design of Electromagnetic Metasurfaces Utilizing Infinite and Separate Latent Space Yielded by a Machine Learning-Based Generative Modelβ, J. Electromagn. Eng. Sci. 2024;24(2):178-190
[101] J. -H. Kim and I. -P. Hong, "An Optimization Approach based on Separated Latent Space for Inverse Design of Metasurfaces," in IEEE Antennas and Wireless Propagation Letters, doi: 10.1109/LAWP.2024.3382885
[100] Pham, The Hien, and Ic Pyo Hong. "Shortβrange SAR imaging with a fast adaptive plugβandβplay ADMMβbased approach." Electronics Letters, vol. 60, no. 3, 2024.Β
[99] Hong, I.-P. Reviews Based on the Reconfigurable Intelligent Surface Technical Issues. Electronics 2023, 12, 4489. https://doi.org/10.3390/electronics12214489
[98] Fazal, D., Umar Khan, Q. & Hong, IP. βMultiband antenna design with enhanced radiations using characteristic mode analysisβ. Sci Rep 13, 17829, 2023.
[97] Fazal, D.; Hong, I.-P. A New Unit-Cell Design for a 2-Bit Reflective Metasurface for RIS Applications. Electronics 2023, 12, 4220. https://doi.org/10.3390/electronics12204220
[96] P. T. Hien and I. -P. Hong, "Millimeter Wave SAR Imaging Denoising and Classification by Combining Image-to-Image Translation With ResNet," in IEEE Access, vol. 11, pp. 70203-70215, 2023, doi: 10.1109/ACCESS.2023.3293644.Β
[95] J. H. Kim and I. P. Hong, "Cross-Domain Translation Learning Method Utilizing Autoencoder Pre-Training for Super-Resolution of Radar Sparse Sensor Arrays", in IEEE Access, vol. 11, pp. 61773-61785, 2023.
[94] Rana, B.; Cho, S.-S.; Hong, I.-P. βPassive Type Reconfigurable Intelligent Surface: Measurement of Radiation Patterns,β Micromachines, 14(4), 818. 2023
[93] Biswarup Rana, Sung-Sil Cho, and Ic-Pyo Hong, Review Paper on Hardware of Reconfigurable Intelligent Surfaces, in IEEE Access, vol. 11, pp. 29614-29634, 2023.
[92] V. P. Tuan and I. P. Hong, "IRS-Aided Wireless Communication: From Physics to Channel Modeling and Characterization," in IEEE Access, vol. 11, pp. 3184-3197, 2023, doi: 10.1109/ACCESS.2023.3234762.Β
[91] Pham T-H, Kim K-H, Hong I-P. βA Study on Millimeter Wave SAR Imaging for Non-Destructive Testing of Rebar in Reinforced Concrete,β Sensors, 22(20), 8030, 2022Β
[90] Rana, B.; Cho, S.-S.; Hong, I.-P. βParameters and Measurement Techniques of Reconfigurable Intelligent Surfaces,βMicromachines, 13(11), 1841. 2022
[89] P.T.Hien, V.P.Tuan and Ic-Pyo, Hong, βIRS-aided Network Scheme Supports Unmanned Aerial Vehicle Communicationβ, Journal of Communication and Networks,Β vol. 24, no. 5, pp 579-589, Oct. 2022.
[88] Y. -H. Noh, H. R. Im, W. Kim, I. -P. Hong and J. -G. Yook, "Bistatic RCS Estimation Using Monostatic Scattering Centers With Compressive Sensing," in IEEE Transactions on Antennas and Propagation, vol. 70, no. 8, pp. 7350-7355, Aug. 2022,
[87] In-Gon Lee, Jong-Yeong Kim, Ic-Pyo Hong, βDesign of Multi-Functional Transmitarray with Active Linear Polarization Conversion and Beam Steering Capabilitiesβ, Applied Sciences, no. 12(9), p4319, 2022
[86] Sung-Geon Kim, Euibum Lee, Ic-Pyo Hong, and Jong-Gwan Yook, Review of Intentional Electromagnetic Interference on UAV Sensor Modules and Experimental Study,Β Sensors, vol. 22(6), 2384, 2022.
[85] Pham Duy Thanh, Hoang Thi Huong Giang, and Ic-Pyo Hong, Anti-Jamming RIS Communications Using DQN-based Algorithm, IEEE Access, vol. 10, pp. 28422-28433, Mar. 2022.
[84] Β Biswarup Rana, In-Gon Lee, and Ic-Pyo Hong, A 4Γ4 Digitally Reconfigurable Transmitarray: Measurement of Radiation Patterns, IEICE Electronics Express, vol. 19, No.4, pp. 20210550-20210550, 2022
[83] Hyeong-Rae Im, Woobin Kim, Yeong-Hoon Noh, Ic-Pyo Hong and Jong-Gwan Yook, RCS Estimation of Singly Curved Dielectric Shell Structure with PMCHWT Method and Experimental Verification', Sensors, 22(3), 734, 2022.
[82] Sung-Sil Cho and Ic-Pyo Hong, Design of assembly-type frequency selective surface structure using Lego-type blocks, Microwave & Optical Technology Letters, vol. 64, no.2, pp. 288-293, Feb, 2022.
[81] Gyeongyeong Lee, Yeong-Hoon Noh, In-Gon Lee, Ic-Pyo Hong, Jong-Gwan Yook, Jong-Yeong Kim and Jihoon Kim, 3D printing of metasurface-based dual-linear polarization converter, Flexible and Printed Electronics, vol. 6, No. 4, 045012, 2021
[80] Van Phu Tuan and Ic-Pyo Hong, Performance Analysis of IRS-aided NOMA Communications in Presence of Imperfect SIC, Journal of Electromagnetic Engineering and Science, vol. 21, No.5, pp. 341-350, 2021.
[79] Pham The Hien and Ic-Pyo Hong,Β Material thickness classification using Scattering Parameters, Dielectric Constants and Machine Learning, AppliedΒ Sciences, 10682, 11(22), 2021
[78] Β Biswarup Rana, In-Gon Lee, and Ic-Pyo Hong, Digitally Reconfigurable Transmitarray with Beam-Steering and Polarization Switching Capabilities, IEEE Access, vol. 9, pp. 144140-144148, 2021
[77] Van Phu Tuan and Ic-Pyo Hong, Enhancing Secrecy Performance for NOMA Systems With Intelligent Reflecting Surface : Analysis and Optimization, IEEE Access, vol. 9, pp. 99060-99072, 2021
[76] Sung-Sil Cho, Sung-Ho Song and Ic-Pyo Hong, Analysis of the Electromagnetic Properties of Eco-friendly Transparent Wood, Microwave & Optical Technology Letters, vol.63, No.9, pp. 2237-2241, 2021
[75] Β Biswarup Rana, In-Gon Lee, and Ic-Pyo Hong, Experimental Characterization of 2Γ2 Electronically Reconfigurable Polarization Converter Unit-Cells at X-Band, International Journal of Antennas and Propagation,Β vol. 2021, June, 2021.Β Β
Β [74] Biswarup Rana, In-Gon Lee, and Ic-Pyo Hong, Experimental Characterization ofΒ 2 Γ 2 Electronically Reconfigurable 1 Bit Unit Cells for a Beamforming Transmitarray at X Band, Journal of Electromagnetic Engineering and Science, vol. 21, No. 2, pp. 153-160, 2021.
[73] In-Gon Lee,Β Young-Joon Yoon, Kwang-Sik Choi and Ic-Pyo Hong , DesignΒ ofΒ anΒ OpticalΒ TransparentΒ AbsorberΒ andΒ Defect Diagnostics Β Analysis Β BasedΒ onΒ NearβFieldΒ MeasurementΒ , Sensors, vol. 21, No. 9, 2021.
[72] Yeong-Hoon Noh, Woobin Kim, Hyun-Sung Tae, Jeong-Kyu Kim, Ic-Pyo Hong and Jong-Gwan Yook, RCS Feature Extraction Using Discretization Scatterer with Compressive Sensing, IEEE Antennas and Wireless Propagation Letters, vol. 20, no. 2, pp. 165-168, 2021.
[71] Le Thi Anh and Ic-Pyo Hong, "Secrecy Performance of a Multi-NOMA-MIMO System in the UEH Relaying Network Using the PSO Algorithm ", IEEE Access, vol. 9, pp. 2317-2331, 2021
[70] Trung Kien Nguyen and Ic-Pyo Hong, Evaluation of Common Building Wall in See-Through-Wall Application of Ultra-wideband Synthetic Aperture Radar, Journal of Electrical Engineering & Technology, vol. 16, No. 1, pp. 437-442, 2021.
[69] Woobin Kim, Hyeoung Rae Im, Yeong-Hoon Noh, Ic-Pyo Hong, Hyun-Sung Tae, Jung-Kyu Kim, Jong-Gwan Yook , Near-Field to Far-Field RCS Prediction on Arbitrary Scanning Surfaces Based on Spherical Wave Expansion, Sensors, vol. 20, No. 24, 2020.
[68] In-Gon Lee, Won-Seok Oh, Yoon-Jae Kim and Ic-Pyo Hong, "Design and Fabrication of Absorptive/Transmissive Radome Based on Lumped Elements Composed of Hybrid Composite Materials", IEEE Access, vol. 8, pp. 129576-129585, 2020
[67] Van Phu Tuan and Ic-Pyo Hong, "Secrecy Performance Analysis and Optimization of Intelligent Reflecting Surface-aided Indoor Wireless Communications ", IEEE Access, vol. 8, pp. 10940-10952, 2020
[66] Chan-Sun Park, Yoon-Jae Kim, Ic-Pyo Hong, and Jong-Gwan Yook, βAcceleration of Multilevel Characteristics Basis Function Method by Multilevel Multipole Approach,β, IEEE Trans. on Antennas and Propagation, Vol. 68, No. 10, pp. 7109-7120, Oct. 2020.Β
[65] Van Phu Tuan and Ic-Pyo Hong, Secure Communication in Cooperative SWIPT NOMA Systems with Non-Linear Energy Harvesting and Friendly Jamming, Sensors, Vol. 20, Iss 4, 2020.
[64] Trung Kien Nguyen and Ic-Pyo Hong, Application of Metaheuristic Optimization Algorithm and 3D Printing Technique in 3D Bandpass Frequency Selective Structure, Journal of Electrical Engineering & Technology, Feb. 2020.
[63] In-Gon Lee, Won-Seok Oh, Yoon-Jae Kim and Ic-Pyo Hong, Chipless frequency selective rasorber with stable performance for oblique incidence, Electronics Letters, Vol.55, 2019.
[62] In-Gon Lee, Yoon-Jae Kim and Ic-Pyo Hong, Practical absorptive frequency selective surface based on printed electronics technology for radome applications, Microwave & Optical Technology Letters, Vol.61, No.12, pp. 2709-2719, Dec. 2019.
[61] H.J.Kim, S.S.Cho, O.B.Kwon, Y.J.Kim and I.P.Hong, Paper-based uniplanar ultra-wideband frequency-selective surface design, Electronics Letters, Vol. 55, No.9, pp.506-508, May. 2019.
[60] Trung Kien Nguyen, In-Gon Lee, Obum Kwon, Yoon-Jae Kim, Ic-Pyo Hong, Metaheuristic Optimization Techniques for an Electromagnetic Multilayer Radome Design, Journal of Electromagnetic Engineering and Science, vol. 19, No. 1, pp.31-36, Jan. 2019.
[59] Sangsu Lee, Heejae Jun, Kyungyoung Jung, Hosung Choo, Icpyo Hong, YongBae Park, Dual Band RCS Reduction Using Modulated Grooves in A Conducting Plane, Journal of Electrical Engineering & Technology, Vol. 13, No. 1, Jan. 2019.
[58] Dong-Chan Son, Hokeun Shin, Yoon-Jae Kim, Ic-Pyo Hong, Heoung-Jae Chun, Hosung Choo, Yong-Bae Park, βDesign of a MultiβLayered Reconfigurable Frequency Selective Surface Using Water Channels,βJournal of Electrical Engineering & Technology, Vol. 13, No. 1, Jan. 2019.
[57] Dong-Chan Son, Hokeun Shin, Yoon-Jae Kim, Ic-Pyo Hong, Heoung-Jae Chun, Kyung-Young Jung, Hosung Choo, Yong-Bae Park,βDesign of a Hemispherical Reconfigurable Frequency Selective Surface Using Water Channelsβ, IEEE Access, Vol. 6, No.1, pp. 61445-61451, Dec. 2018.
[56] Sung-Sil Cho, Sun-Hong Yoon, and Ic-Pyo Hong, βDesign of Three-Dimensional Frequency Selective Structure With Replaceable Unit Structures Using a 3-D Printing Techniqueβ, IEEE Antennas and Wireless Propagation Letters, Vol. 17, No. 11, pp. 2041-2045, Nov. 2018.
[55] Yi-Ru Jeong, Ic-Pyo Hong, Jong-Gwan Yook,βApplication of a CMP to an EFIE-TDS surface integral equationβ, IET Microwaves, Antennas & Propagation, Vol. 12, No. 13, pp.2046-2052, Oct. 2018.
[54] Chan-Sun Park, Yi-Ru Jeong, Ic-Pyo Hong, and Jong-Gwan Yook, βBlock Size Optimization of CBFM for Scattering Problemsβ, IEEE Trans. on Antennas and Propagation, Vol. 66, No. 10, pp. 5370-5377, Oct. 2018.
[53] J. Kim, M. Jeong, I. Hong, S. Rhee, I. Cho and N. Kim βA hybrid shielding structure for reduction of the leakage magnetic field in wireless power transfer systemβ, Microwave & Optical Technology Letters, Vol.60, No.10, pp.2547-2551, Sept. 2018.
[52] In-Gon Lee, Nam Kim, In-Kui Cho and Ic-Pyo Hong,βDesign of a Mu-Near-Zero Metamaterial for Reducing the Backward Magnetic Flux Leakage of a Wireless Power Transfer Systemβ, IEICE Electronics Express, Vol.15, No.15, 1-11, 2018.
[51] Sang-Hwa Lee, Min-Sik Kim, Jong-Kyu Kim, Jongin Lim, and Ic-Pyo Hong, βSecurity Paper Design with Frequency-Selective Structure for X-band Electromagnetic Detection systemβ, International Journal of antenna & propagation, Vol. 2018, Aug. 2018.
[50] Sang-Hwa Lee, Min-Sik Kim, Jong-Kyu Kim, Ic-Pyo Hong, βDesign of Security Paper with Selective Frequency Reflection Characteristicsβ, Sensors, Vol. 18, No. 7, pp. 2263, Jul. 2018.
[49] Dong Chan Son, Hokeun Lee, Yoon Jae Kim, Ic Pyo Hong, Heoung Jae Chun and Yong Bae Park, βDesign and Fabrication of a Reconfigurable Frequency Selective Surface Using Fluidic Channelsβ, Journal of Electrical Engineering & Technology, Vol. 12, No. 6, pp. 2342-2347, Nov. 2017.
[48] In-Gon Lee, Yong-Bae Park, Heung-Jae Chun, Yoon-Jae Kim and Ic-Pyo Hong,βDesign of Active Frequency Selective Surface with Curved Composite Structures and Tunable Frequency Responseβ, International Journal of antenna & propagation, Vol. 2017, Nov. 2017.
[47] Yun-Seok Seo, Heoung-Jae Chun, Ic-Pyo Hong, Young-Bae Park, Yoon-Jae Kim, βFabrication of Hybrid Composite Plates with an Active Frequency Selective Surfaceβ, Composites Research, Vol. 30, No. 5, pp.273-279, Oct. 2017.
[46] Sung-Sil Cho, Jae-Sung Yoo, Jin-Man Kim and Ic-Pyo Hong, βPrediction of Electromagnetic Transmission Properties Using Dielectric Property Modeling of Foamed Concrete Containing BFSβ, Construction & Building Materials, Vol. 151, pp. 650-660, Oct. 2017.
[45] In-Gon Lee, Nam Kim, In-Kui Cho and Ic-Pyo Hong,βDesign of a Patterned Soft Magnetic Structure to Reduce Magnetic Flux Leakage of Magnetic Induction Wireless Power Transfer Systemsβ, IEEE Trans. on Electromagnetic Compatibility, Vol. 59, pp. 1856-1863, Dec. 2017
[44] Sung-Sil Cho and Ic-Pyo Hong, βReduction of Wireless Signals in Indoor Environments using an Active Frequency Selective Wall Based on Spectrum Sensingβ, International Journal of Communication Systems, Vol. 30, Dec. 2017
[43] Sung-Sil Cho, Jin-Man Kim and Ic-Pyo Hong, "Electromagnetic Shielding Characteristics of Eco-Friendly Foamed Concrete Wall', International Journal of antenna & propagation, Vol. 2017, Apr. 2017.
[42] In-Gon Lee and Ic-Pyo Hong, "Scalable Frequency Selective Surface with Stable Angles of Incidence on a Thin Flexible Substrate,', International Journal of antenna & propagation, Vol. 2016, Sep. 2016.
[41] Sung-Sil Cho and Ic-Pyo Hong,βDesign of a paper-based reconfigurable frequency selective surface structureβ, IEICE Electron. Express, Vol.13, No.16, pp.1-7, Aug. 2016.
[40] In-Gon Lee, Yoon-Jae Kim, Yong-Bae Park, Heung-Jae Chun, and Ic-Pyo Hong,βDesign of X-band reconfigurable frequency selective surface with high isolationβ, IEICE Electron. Express, Vol.13, No.16, pp.1-8, Aug. 2016.
[39] S.Y. Hyun, I. Jung, I.P.Hong, C.Jung, E.J. Kim and J.G.Yook, "Modified Sheet Inductance of Wire Mesh Using Effective Wire Spacing", IEEE Trans. on Electromagnetic Compatibility, Vol. 58, No. 3, pp. 911-914, June. 2016.
[38] Yi-Ru Jeong, Ic-Pyo Hong, Kyung-Won Lee, Jong-Hyun Lee, and Jong-Gwan Yook, βFast frequency βsweep using asymptotic waveform evaluation technique and thin dielectric sheet approximationβ, IEEE Trans. on Antennas and Propagation, Vol. 64, No.5, pp. 1800-1806, May. 2016.
[37] I. G. Lee, S. H. Yoon, J. S. Lee and I. P. Hong, βDesign of Wideband Radar Absorbing Material with Improved Optical Transmittance by Using Printed Metal-Mesh,β Electronics Letters, Vol. 52, no. 7, pp. 555-557, Apr. 2016.
[36] Yi-Ru Jeong, Ic-Pyo Hong, Heoung-Jae Chun, Yong Bae Park, Youn-Jae Kim and Jong-GwanYook, βFast Scattering Analysis over a wide frequency band using Clenshaw-Lord type Pade-Chebyshev approximationβ, IET Microwaves Antennas & Propagation, Vol. 10, pp. 245-250, Feb. 2016.
[35] In-Han Hwang, Heoung-Jae Chun, Ik-Pyo Hong, Yong-Bae Park, Yoon-Jae Kim, βChange of transmission characteristics of FSSs in hybrid composites due to residual stressesβ, Steel and Composite Structures, Vol. 19, No. 6, pp. 1501-1510, Dec, 2015.
[34] In-Gon Lee, Ic-Pyo, Hong, βDesign of a Flexible and Reconfigurable Frequency Selective Surfaceβ, International Journal of Circuits, Systems and Signal Processing, Vol. 9, pp. 296-299, Sep. 2015.
[33] Ic-Pyo Hong, βTransparent Electromagnetic Absorber for Stable Angle of Incidenceβ, Microwave & Optical Technology Letters, Vol.57, No.9, pp.2023-2025, Sep. 2015.
[32] Ic-Pyo, Hong, βPaper-based frequency selective surface for stable angle of incidenceβ, IEICE Electron. Express, Vol.12, No.7, pp.1-6, Apr. 2015.
[31] Kyung-Mi Park, Yun-Seok Seo, Heoung-Jae Chun, Ik-Pyo Hong, Yong Bae Park and Yoon-Jae Kim, "Residual stress and electromagnetic characteristics in loop type frequency selective surface embedded hybrid structures", Journal of Mechanical Science and Technology, Vol. 29, No.1, pp.99-102, Jan. 2015.
[30] Yi-Ru Jeong, Ic-Pyo Hong, Heoung-Jae Chun, Yong Bae Park, Youn-Jae Kim and Jong-GwanYook, βScattering analysis of curved FSS using Floquet harmonics and asymptotic waveform evaluation techniqueβ, Steel and Composite Structures, Vol. 17, No. 5, pp. 561-572, Nov, 2014.
[29] Ic-Pyo Hong, βInvestigation of the Finite Planar Frequency Selective Surface with Defect Patterns", Journal of Electrical Engineering & Technology, Vol. 9, No. 4, pp. 1360-1364, Jun. 2014.
[28] Ji-Hyung Kim, Heoung-Jae Chun, Ic-Pyo Hong, Yoon-Jae Kim, and Yong-Bae Park, βAnalysis of FSS Radomes Based on Physical Optics Method and Ray Tracing Techniqueβ, IEEE Antennas and Wireless Propagation Letters, Vol. 13, pp. 868-871, 2014.
[27] In-Gon Lee, Ic-Pyo Hong, β3D Frequency Selective Surface for stable angle of incidenceβ, Electronics Letters, Vol. 50, No. 6, pp. 423-424, Mar. 2014.
[26] In-Gon Lee, Ic-Pyo Hong, βDesign of Window Applicable Blind-type Frequency Selective Surfaceβ, Journal of Electrical Engineering & Technology, Vol. 9, No. 2, pp. 682-685, Mar. 2014.
[25] Yi-Ru Jeong, Ic-Pyo Hong, Heoung-Jae Chun, Jong-Gwan Yook, βTransmission characteristics of a composite made with ground granulated blast furnace slagβ, IEICE Electron. Express, Vol.11, No.2, pp.1-7, Jan. 2014.
[24] Ic-Pyo Hong, βPropagation path loss characteristics of vertical dipole above perfect groundβ, IEICE Electron. Express, Vol.10, No.21, pp.1-8, Nov. 2013.
[23] Ic-Pyo Hong and In-Gon Lee, βDesign of a Film Antenna Using a Cloverleaf-Shaped Monopole Structure for WiBro and WLANβ, IEICE Electron. Express, Vol.9, No.7, pp.654-659, Apr. 2012.
[22] Ic-Pyo Hong, Young-Jin Jung and Soon-Young Eom βDesign of a Vertically Stacked Reconfigurable Dipole Antenna for a Base Station, Microwave & Optical Technology Letters, pp.964-967, Vol. 54, No. 3, Mar. 2012.
[21] Soon-Young Eom, Seong-Keun Kim, Ic-Pyo Hong and Jong-Gwan Yook, βHigh-gain multilayered disk array structure excited by stacked microstrip patches, Microwave & Optical Technology Letters, pp.768-770, Vol. 54, No. 2, Feb. 2012.
[20] Kyung-Won Lee, Yi-Ru Jeong, Ic-Pyo Hong, Myung-Gun Lee, Heoung-Jae Chun and Jong-Gwan Yook, βSimple design method of FSS radome analysis using equivalent circuit modelβ, IEICE Electron. Express, Vol. 8, No. 23, pp.2002-2009, Dec. 2011.
[19] S.Y.Eom, I.P.Hong and J.M.Kim, "Broadband Printed Cross-Dipole Element with Four Polarization Reconfigurations for Mobile Base Station Array Antenna Applications,', International Journal of antenna & propagation, Vol. 2011, Jul. 2011.
[18] K.W.Lee, I.P.Hong, Y.C.Chung, and J.G.Yook, "Studies on a Fiber-Reinforced Ceramic Composite Layer for On-Board Antenna Protection', IEICE Transactions on Electronics, Vol.E94-C, No.6, pp1135-1137. Jun. 2011.
[17] Y.C.Chung, K.W.Lee, I.P.Hong, M.G.Lee, H.J.Chun and J.G.Yook, "Simple prediction of FSS radome transmission characteristics using an FSS equivalent circuit model', IEICE Electronics Express, Vol.8, No.2, pp89-95. Jan. 2011.
[16] S.Y.Eom and I.P.Hong, "A Novel Band Rejection Filter of Transmission Line Type Using Double Spur-Lines", Microwave & Optical Technology Letters, pp.1880-1883, Vol. 52, No. 8, Aug. 2010.
[15] Y.C.Chung, K.W.Lee, I.P.Hong, K.H.Oh and J.K.Yook, "A New CCM Material with Improved Shielding Effectiveness for X-band Applications", IEICE Tran. on Electronics, pp.929-931, Vol.E93-C, No.6, Jun. 2010.
[14] J.H.Jung, I.P.Hong and R.Nevels, "The Time Domain Propagator Method for Lossless Multiconductor Quasi-TEM Lines", IEEE Trans. on Advanced Packaging, pp.619-626, Vol. 32, No. 3, Aug. 2009.
[13] I.P.Hong, N.I.Yun and J.K.Yook, "Design of Tight Coupled Backward-wave Directional Coupler Using Coupled Lines with Dielectric Guide and Finite Metallization Thickness", IEE Proceeding - Microwave, Antenna, Propagation, pp.283-286, Vol. 151, No. 4, Sep. 2004.
[12] I.P,Hong and S.K.Park, "Design of Novel Parallel-Coupled Band-Pass Filter With Dielectric Guide in Coupled Sections", IEICE Tran. on Electronics, pp.423-424, Vol. E87-C, No. 3, Mar. 2004.
[11] I.P,Hong and S.K.Park, "Implementation of Coupling Improvement in Coupled Lines With the Different Metallization Thickness", Microwave & Optical Technology Letters, Vol. 39, No. 5, pp.426-428, Dec. 2003.
[10] N.I.Yun, I.P.Hong and H.K.Park, "Investigation of Asymmetrical Coupled Microstrip Lines with Finite Metalization Thickness", Microwave & Optical Technology Letters, Vol. 28, No. 1, pp. 45-47, Jan. 2001.
[9] I.P.Hong and H.K.Park, "Quasi-static Analysis of Traveling-Wave Electrodes with Asymmetrical Finite Thickness for Electro-Optic Modulators", IEE Proceeding - Optoelectronics, vol. 147, No. 2, pp 120-122, Apr, 2000.
[8] I.P.Hong and H.K.Park, "Design of Parallel-Coupled Band-pass Filter with the Asymmetrical Metallization Thickness", Electronic Letter, Vol. 35, No. 20, pp 1751-1752, Sep, 1999.
[7] I.P.Hong, S.K.Park and H.K.Park, "Quasi-static Analysis of the Coupled Microstrip Lines with Asymmetrical Finite Metallization Thickness on Anisotropic Substrate", IEEE Trans. on Microwave Theory & Tech., Vol. 47, No. 9, pp 1739-1742, Sep, 1999.
[6] I.P.Hong, S.K.Park and H.K.Park, "Quasi-static Analysis of Coupled Coplanar Waveguide Traveling-Wave Electrodes for Electro-Optic Modulators", Microwave & Optical Technology Letter, Vol. 20, No. 2, pp 284-286, Feb, 1999.
[5] I.P.Hong, S.K.Park and H.K.Park, "Analysis on the Effect of Metal Penetrating Depth into the Anisotropic Substrate in Shielded Microstrip Line", International Journal of RF and Microwave Computer-Aided Engineering, Vol. 9, No. 1, pp 49-53, Jan, 1999.
[4] I.P.Hong, N.I.Yoon, S.K.Park and H.K.Park, "Investigation of Metal Penetrating Depth in Shielded Microstrip Line", Microwave & Optical Technology Letter, Vol. 19, No. 6, pp 396-398, Dec, 1998.
[3] J.W.Lee, I.P.Hong, T.H.Yoo and H.K.Park, "Quasi-static Analysis of Conductor-Backed Coupled Coplanar Waveguide", Electronic Letter, Vol. 34, No. 19, pp 1861-1862, Sep, 1998.
[2] I.P.Hong, Y.K.Lee and H.K.Park, "Dispersion Characteristics of a Broadside-Coupled Coplanar Wavegude", Electronic Letter, Vol. 33, No. 11, pp 965-966, May, 1997.
[1] I.P.Hong, and H.K.Park, "Dispersion Characteristics of a Unilateral Fin-Line using 2D-FDTD", Electronic Letter, Vol. 32, No. 21, pp 1992-1994, Oct, 1996.Β
International Conferences
International Conferences
[68] S.G. Koh, S.G.Kim, J.H.Kang, I.P.Hong, H.S.Tae and Y.G. Yook, βRCS Prediction Using Image-Based NFFFT Algorithm with Interpolationβ, International Symposium on Antennas and Propagation(ISAP 2024) Proceedings, Nov. 2024.
[67] Kim, Inhwan, Hyeong-Rae Im, Young-Jae Yoo, Ic-Pyo Hong, Hyunsoo Lee, and Jong-Gwan Yook. β Investigation on Multilevel Characteristic Basis Function Method using PMCHWT Formulation for Multi-dielectric and PEC Composite Structuresβ, International Symposium on Antennas and Propagation(ISAP 2024) Proceedings, Nov. 2024.
[66] B.Rana, S.S.Cho, and I.P.Hong, β Design of a 3D Reconfigurable Intelligence Surfaceβ, 14th International Conference on Metamaterials, Photonic Crystals and Plasmonics(META 2024), 2024.
[65] C.M.Lee, D.P.Park, Y.J. Kim, C.S.Cho, I.P.Hong and Jong-Gwan Yook. "FSS Design Approach for Low-E Glass Target using Micro Metal Patch." In 2024 IEEE International Symposium on Antennas and Propagation and INC/USNCβURSI Radio Science Meeting (AP-S/INC-USNC-URSI), pp. 1727-1728. IEEE, 2024.
[64] Kim, Inhwan, Hyeong-Rae Im, Ic-Pyo Hong, Hyunsoo Lee, and Jong-Gwan Yook. "Generalized Transition Matrix Method with Physical Optics Approximation for Large Open-Ended Cavities." In 2024 IEEE International Symposium on Antennas and Propagation and INC/USNCβURSI Radio Science Meeting (AP-S/INC-USNC-URSI), pp. 1727-1728. IEEE, 2024.
[63] Kim, Sung-Geon, IcβPyo Hong, KyungβWon Lee, Sunghun Jung, MyungβSik Lee, and JongβGwan Yook. "Design of 1-Bit Reconfigurable Transmissive Metasurface for Beam Manipulation." In 2024 IEEE International Symposium on Antennas and Propagation and INC/USNCβURSI Radio Science Meeting (AP-S/INC-USNC-URSI), pp. 1047-1048. IEEE, 2024.
[62] S.S.Cho and I.P.Hong, βDesign of Wideband Energy Selective Surface to Defend against High-power Signalsβ, The 7th International EMC Conference (EMC Turkiye 2023), Sept. 2023.
[61] G.Y.Lee, I.P.Hong. I.G.Lee and J.H.Kim,β3D-printed metasurface structure with thermal- compressed circuit patterns for phase shifter fabricationβ, European Materials Research Society 2023 Spring Meeting, May, 2023.
[60] H.R. Im, I.H.Kim, Y.H.Noh, I.P.Hong and Y.G. Yook, βAn Accelerated PMCHWT-CBFM with Multipole Method for Dielectric Scattering Problemβ, 2023 European Conference on Antennas and Propagation, Firenze, Mar. 2023.
[59] Pham The Hien, Ic-Pyo, Hong, βHigh resolution near-field SAR imaging with non-uniform measuring interval and low-sampling recovery methodβ, 2023 European Conference on Antennas and Propagation, Firenze, Mar. 2023.
[58] Gyeongyeong Lee, Jihoon Kim, Yeonghoon No, Jonggwan Yook, Icpyo Hong, Jongyeong Kim, βDigital light process of metasurface structure and its application to polarization converterβ, The 7th International Conference on Electronic Materials and Nanotechnology for Green Environment Proceeding, Nov, 2022.
[57] Pham The Hien, Van Phu Tuan, Ic-Pyo, Hong, βStudy on the Reflection of the IRS in the Presence of Misaligned Incident Angles,β27th Asia-Pacific Conference on Communications (APCC 2022), Oct, 2022.
[56] W.B.Kim, H.R.Lim, Y.H.Noh, I.P.Hong and J.G.Yook, β Near-Field to Far-Field RCS Prediction for Large-Scale Scatterers Based on Multi-Level Spherical Wave Expansionβ, 2022 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, July, 2022.
[55] H.R.Lim, Y.H.Noh, W.B.Kim, I.P.Hong and J.G.Yook, βExperimental Analysis for Monostatic RCS of TCO-Coated Acrylic Materialβ, 2022 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, July, 2022.
[54] Y.H.Noh, W.B.Kim, H.R.Lim, I.P.Hong and J.G.Yook, βEvaluating the Scattering Contribution by RCS Feature Extraction Using Point Scatterer Modeling with Compressive Sensingβ, 2022 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, July, 2022.
[53] Gyeongyeong Lee, Yeonghoon Noh, Taehyung Kim, Icpyo Hong, Jonggwan Yook, Jihoon Kim, β3D Printing of Meta-Surface-Based Polarization Converterβ, 6th International Conference on Advanced Electromaterials, Nov, 2021.
[52] Sungsil Cho, Ic-Pyo Hong, "3D Metastructure Design for Noise Suppression of Audible Frequency Band", META 2021, Jul. 2021.
[51] Niamat Hussain, Ji Woong Park, Min-joo Jeong, Domin Choi, Ic Pyo Hong and Nam Kim, "Design of Metamaterial for Efficiency Improvement of Magnetic Resonant WPT System", 2020 IEEE Wireless Power Transfer Conference (WPTC), Nov. 2020.
[50] Nguyen Trung Kien, In-Gon Lee and Ic-Pyo Hong, ?μ°ptimization Technique for Bandwidth Control of 3D Bandpass Frequency Selective Structure?? EMC Sapporo & APEMC 2019, June. 2019.
[49] In Gon Lee, Nam Kim, In-Kui Cho and Ic Pyo Hong, ?μΆhielding Effect of Mu-Near-Zero Metamaterial Slab to Reduce Magnetic Flux Leakage in Wireless Power Transfer System?? 2018 Asia-Pacific Microwave Conference, Dec. 2018.
[48] Ji Woong Park, Min-joo Jeong, Han Ul Bong, Ic Pyo Hong, Nam Kim, ?μ‘esign of a Triple Band Folded Dipole Antenna with Low SAR for GPS/WLAN Application?? 2018 Asia-Pacific Microwave Conference, Dec. 2018.
[47] Sung-Sil Cho, In-Gon Lee and Ic-Pyo Hong, ?μ€requency Selective Film Design for Building Walls for Blocking Wireless LAN Signal?? 2018 International Symposium on Antennas and Propagation (ISAP 2018), Oct. 2018.
[46] Sang-Hwa Lee, Min-Sik Kim, Jong-Kyu Kim and Ic-Pyo Hong, ?μΆecurity Paper and Detection System Design Using Frequency Selective Surface?? 2018 International Symposium on Antennas and Propagation (ISAP 2018), Oct. 2018.
[45] Chan-Sun Park, Ic-Pyo Hong, Inkyun Jung, and Jong-Gwan Yook,?μ Fast Computation of Far Interactions in MLCBFM for Electromagnetic Analysis of Large Structure?? 2018 International Symposium on Antennas and Propagation (ISAP 2018), Oct. 2018.
[44] Soon Hyeong Kwon, Bong Ho Kim, In-Gon Lee, Ic-Pyo Hong and Young Joon Yoon, ?μpplication of transparent conductive oxide films on rigid plastic substrate to electromagnetic absorbing devices?? 7th International Symposium on Transparent Conductive Materials, Oct. 2018.
[43] C.S.Park, Y.R.Jeong, I.P.Hong, H.R.Song and J.G.Yook, ?μcceleration of reduced matrix filling in near field region for M-CBFM using 2-level CBFs?? 2018 IEEE AP-S, Jul. 2018.
[42] S.H.Lee and I.P.Hong, ?μ‘esign of Frequency Selective Paper for Crack Detection of Concrete Building Structure?? 2018 IEEE AP-S, Jul. 2018.
[41] S.S.Cho, S.H.Le, I.G.Lee, and I.P.Hong ?μ‘ual Band Frequency Selective Film Design for Indoor Wireless LAN Environment Improvement?? 2018 European Conference on Antennas and Propagation, London, Apr. 2018.
[40] I.G.Lee, S.S.Cho, S.H.Youn and I.P.Hong, ?μ§mprovement of Communication Performance in Indoor Environment using Screen Printed Frequency Selective Film?? 2017 IEEE Conference on Antenna Measurements & Applications, Dec. 2017.
[39] C.S.Park, I.P.Hong, H.J.Chun, Y.B.Park, Y.J.Kim and J.G.Yook, ?μnalysis of impedance matrix fill-in time in CBFM optimization for large scale EMC problem?? 2017 Asia-Pacific International Symposium on Electromagnetic Compatibility, June. 2017.
[38] I.G.Lee, I.P.Hong and K.S.Lee, ?μ¬eakage Magnetic Field Suppression Effects of Expanded Graphite in LF-WPT System?? 2017 Asia-Pacific International Symposium on Electromagnetic Compatibility, June. 2017.
[37] J.S.Kang, K.H.Jeon, M.J.Jeong, I.P.Hong and N.Kim, ?μnalysis on Human Effect for Commercial Wireless Charging Device in Actual Usage Environment?? BioEM 2017, Hangzhou, June. 2017.
[36] S.S.Cho, S.H.Yoon and I.P.Hong,?μ‘esign of a Flexible Miniaturized Frequency Selective Surface Using a Screen Printing Technique?? Progress In Electromagnetics Research Sysmposium 2017, St.Peterburg, May. 2017.
[35] I.G.Lee, K.S.Lee and I.P.Hong, ?μ³eduction of Leakage Magnetic Fields in Wireless Power Transmission System Using Expanded Graphite?? Progress In Electromagnetics Research Sysmposium 2017, St.Peterburg, May. 2017.
[34] J.Kim, S.Lee, D.Choi, N.Kim, I.P.Hong and I.K.Cho, ?μ³esearch of Shielding Structure for Reducing Leakage Magnetic Field from Low Power Wireless Charging Coil?? 2016 URSI Asia-Pacific Radio Science Conference, Seoul, Aug. 2016.
[33] J.S.Kang, B.N.Kang, S.Lee, N.Kim, I.P.Hong and I.K.Cho, ?μ£valuating Human Exposure to Electromagenetic Field Radiated by the Commercial Wireless Power Charging Device?? 2016 URSI Asia-Pacific Radio Science Conference, Seoul, Aug. 2016.
[32] C.S.Park, Y.R.Jeong, I.P.Hong, H. J.Chun, Y.B.Park, Y.J.Kim and J.G.Yook ?μnalysis of Curved Frequency Selectiv e Surface for Radome Using Characteristic Basis Function Method?? 2016 European Conference on Antennas and Propagation, Davos, Apr. 2016.
[31] I.G.Lee, and I.P.Hong ?μ‘esign of a Thin Frequency Selective Surface with Miniaturized-element for Angle and Polarization Stability?? 2016 European Conference on Antennas and Propagation, Davos, Apr. 2016.
[30] Y.R.Jeong, J.G.Yook, I.P.Hong, K.W.Lee and S.Y.Choi, ?μ»ell-conditioned EFIE-TDS Surface Integral Equation?? 2015 International Symposium on Antennas and Propagation(ISAP), Hobart, Nov. 2015.
[29] S.Y.Hyun, I.P.Hong, C. Jung, E.J.Kim and J.G.Yook, ?μnalysis of Transmission Characteristic of Composite Material with Wire Mesh and Honeycomb Core in Aircraft?? 2015 Asia Electromagnetics Conference, Jeju, Aug. 2015.
[28] I.P.Hong and I.G.Lee, ?μ·ransparent Circuit Analog Electromagnetic Absorber for Window Applications?? 2015 European Conference on Antennas and Propagation, Lisbon, Apr. 2015.
[27] C.S.Park, Y.R.Jeong, J.G.Yook, I.P.Hong, H.J.Chun, Y.B.Park and Y.J.Kim, "Registration Sensitivity Study of Double-layer FSS Design for Radome", 2015 International workshop on Antenna and Technology, Seoul, Mar. 2015.
[26] Y.R.Jeong, J.G.Yook, I.P.Hong, K.W.Lee and C.H.Kook, "Transmission Characteristics of Cylindrical Dipole Infinite Array and Finite Array", 2015 International workshop on Antenna and Technology, Seoul, Mar. 2015.
[25] J.H.Kim, Y.B.Park, H.J.Chun, I.P.Hong and Y.J.Kim, ?μ£lectromagnetic Analysis of a Tangent-Ogive FSS Radome?? 2014 Korea-Japan Microwave Workshop, Suwon, Dec. 2014.
[24] I.G.Lee, I.P.Hong, C.S.Park, Y.G.Yook, H.J.Chun and Y.J.Kim, ?μ‘esign of Reconfigurable Frequency Selective Surfaces with Flexibility?? 2014 European Conference on Antennas and Propagation, Hague, Apr. 2014.
[23] Y.R.Jeong, I.P.Hong, H.J.Chun, Y.B.Park, Y.J.Kim and Y.G.Yook, ?μ€ast Analysis Over a Wide Band Using Chebyshev Approximation with Clenshaw?λ₯§ord Approximation?? 2014 European Conference on Antennas and Propagation, Hague, Apr. 2014.
[22] I.G.Lee, I.P.Hong, ??D?λ₯‘requency Selective Surfaces for Building Wall Applications?? 2014 European Conference on Antennas and Propagation, Hague, Apr. 2014.
[21] K.M.Park, Y.S.Seo, H.J.Chun, I.P.Hong, Y.B.Park and Y.J.Kim, ?μ³esidual Stress and Electromagnetic Characteristics in Loop Type Frequency Selective Surface Embedded Hybrid Structures?? 9th International Conference on Fracture & Strength of Solids, Jun. 2013.
[20] I.G.Lee, I.P.Hong, ?μ€requency Selective Surface Design for Blinds Application?? 2013 European Conference on Antennas and Propagation, Gothenburg, Apr.2013.
[19] Y.R.Jeong, I.P.Hong, H.J.Chun, M.G.Lee and Y.G.Yook, ?μΆcattering Analysis of Multilayered Cylindrical Frequency Selective Surface based on Dipole Patch?? 2nd International Conference on Computational Design in Engineering, Jeju, Nov. 2012.
[18] I.H.Hwang, H.J.Chun, K.M.Park, I.P.Hong, M.G.Lee and Y.B.Park, ?μhange in Transmission Characteristics of the Frequency Selective Surface in Hybrid Composite Structures due to Thermal Residual Stresses?? 2nd International Conference on Computational Design in Engineering, Jeju, Nov. 2012.
[17] J.H.Kim, Y.B.Park, H.J.Chun, I.P.Hong and M.G.Lee, ?μ£lectromagnetic Analysis of FSS Radome?? 2nd International Conference on Computational Design in Engineering, Jeju, Nov. 2012.
[16] C.S.Park, Y.R.Jeong, I.P.Hong, H.J.Chun, M.G.Lee and J.G.Yook, ?μΆcattering Analysis of Multilayered Periodic Tri-Pole Array?? 2nd International Conference on Computational Design in Engineering, Jeju, Nov. 2012.
[15] Y.R.Jeong, I.P.Hong, H.J.Chun, M.G.Lee and Y.G.Yook, ?μΆcattering of Cylindrical FSS with Rectangular Patch Array?? 2012 IEEE AP-S, Chicago, Jul, 2012.
[14] K.W.Lee, I.P.Hong and J.G.Yook, ?μnalysis of Tangent Ogive Radome based on High Frequency Techniques?? ICEIC 2012, Jeongseon, Feb, 2012
[13] K.W.Lee, I.R.Chung, I.P.Hong and J.G.Yook, ?μ±rediction of FSS Radome Performane Using Simple Design Equation?? 2012 EuCAP, Praha, Mar, 2012
[12] K.W.Lee, Y.C.Chung, I.P.Hong and J.G.Yook, "An Effective Design Procedure for A-Sandwich Radome", 2010 IEEE AP-S, Toronto, Jul, 2010.
[11] S.Y.Eom, I.P.Hong, "Broadband Cross-dipole Element with Four Polarization Reconfigurations for Mobile Base Station Antenna", 2009 EuCAP, Berlin, Mar. 2009.
[10] I.P.Hong, R.D.Nevels,, "A Negative Index Material Coated Microwave Heart Catheter for Tissue Ablation", 2008 IEEE AP-S, San Diego, Jul, 2008.Β
[9] I.P.Hong, R.D.Nevels,, "A Coaxial Line Fed Dipole Antenna Coated with a DNG Material", 2008 IEEE AP-S, San Diego, Jul, 2008.Β
[8] I.P.Hong, R.D.Nevels, "Microwave Applications of Metamaterials,??TAMU Physics of Quantum Electronics Symposium, College Station, Texas, Jan. 15-16, 2008, (Invited Paper).
[7] R.D.Nevels, J.H.Jeong and I.P.Hong, "Error, Dispersion, and an Explicit Numerical Evaluation of a Time Domain Path Integral for the Electromagnetic Field", 2006 IEEE AP-S, Albuquerque, pp528, Jul, 2006.Β
[6] K.W.Lee, Y.C.Cheong, I.P.Hong and J.G. Yook, "Design Equation of Shielding Effectiveness of Honeycomb", Proceedings of the ISAP 2005, Seoul, pp19-22, Aug, 2005.
[5] M.J.Kim, H.S.Lee, I.P.Hong, Y.S. Shin and H.J. Song, "Interference Analysis of Impulse UWB and Mobile Communication System", The 9th CDMA International Conference, Seoul, pp315-318, Oct, 2004.Β
[4] I.P.Hong and H.K.Park, "Quasi-static Analysis of the Planar Transmission Lines with Arbitrary Electrode Thickness ", 1999 IEEE AP-S, Florida, pp314-317, Jul, 1999.Β
[3] I.P.Hong and H.K.Park, "Frequency Dependent Characteristics of a Broadside-Coupled Coplanar Waveguide", APMC'97, HongKong, pp1065-1068, Dec, 1997.
[2] J.H.Yoo, I.P.Hong and H.K.Park, "Analysis of Distortion Effects in CDMA Reverse Link Transmitter", The 4th International Workshop on Mobile Multimedia Communications, Seoul, pp356-359, Oct, 1997.
[1] I.P.Hong, and H.K.Park, "Numerical Dispersive Characteristics and Stability Condition of the Multi-Resolution Time-Domain Method", 1997 International Symposium on EMC, Beijing, pp455-458, May, 1997.
Domestic Journals
Domestic Journals
[87] λ―Όκ²½μ, μ‘μ’ κ΄, κΉμ±κ±΄, νμ΅ν, μ΄κ²½μ, μ μ±ν, μ΄λͺ μ, βμ§μ¬κ°ν κΈμ μ¬λ‘―μ νμ©ν μ΄μ€λμ μ νΈ μ§μ€ μμλ³ν λ©ννλ©΄β, νκ΅κ΅°μ¬κ³ΌνκΈ°μ ννμ§, vol. 27, no. 5, pp. 558-566, 2024.
[86] λ¬Έμ€μ, μ΄μΉν, νμ΅ν, βμ€λ΄ 무μ ν΅μ μ νΈ κ°μ μ μν 1-bit μ¬κ΅¬μ± μ§λ₯ν νλ©΄β, νκ΅μ 보기μ ννλ Όλ¬Έμ§, vol. 22, no. 7, pp. 113-122, 2024.Β
[85] νΈλν°ν, λ¬Έμ€μ, νλνμ, νμ΅ν, "Indoor Environment Drone Detection through DBSCAN and Deep Learning", νκ΅μ κΈ°μ μνν λ Όλ¬Έμ§, Vol. 27, No.4, pp. 439-449, Dec. 2023.
[84] λ¬Έμ€μ, μ‘°μ±μ€, νμ΅ν, βWi-Fi 6E μμ€ν μ μ μ© κ°λ₯ν μ΄μ€λμ μ£Όνμ μ ννλ©΄ ꡬ쑰 μ€κ³β, νκ΅μ κΈ°μ μνν λ Όλ¬Έμ§, Vol. 27, No.1, pp.71-77, Mar. 2023.
[83] λΌλλΉμ€μλ½, μ‘°μ±μ€, νμ΅ν, "μ¬κ΅¬μ± μ§λ₯ν λ°μ¬ νλ©΄ ꡬνμ μν νΈνμ λ 립μ μΈ νΉμ±μ κ°λ μλν λ¨μꡬ쑰 μ€κ³", νκ΅μ 보기μ νν λ Όλ¬Έμ§, vol. 21, No. 2, pp. 77-83, Feb, 2023
[82] κΉμ±κ±΄, μ‘°μ±μ€, νμ΅ν, μ‘μ’ κ΄, "ν μ λ§ κ΅¬μ‘°λ¬Ό λλ‘ μνμ₯μ μ ννκ²½ λΆμ", νκ΅μ μννν λ Όλ¬Έμ§, vol. 34, No. 1, pp. 49-56, Jan, 2023.
[81] κΉμΈν,μνλ,νμ΅ν,κΉμμ£Ό,μ‘μ’ κ΄, "k-νκ· ν΄λ¬μ€ν°λ§ μκ³ λ¦¬μ¦μ νμ©ν CBFMμ CBF κ³μ° μκ° κ°μν", νκ΅μ μννν λ Όλ¬Έμ§, vol. 33, No.12, pp.926-930, Dec, 2022.
[80] κΉμ μ§, μ΄κ²½μ, μ΄μΈκ³€,νμ΅ν, κΉμ§ν, "μν¬μ ― νλ¦°ν 곡μ μ ν΅ν΄ μ μλ BaTiO3 Capacitorμ μ μ νΉμ± λΆμ ",Β μ κΈ°μ μμ¬λ£νν λ Όλ¬Έμ§, vol. 35, No.6, pp.610-615, Nov, 2022.
[79] Do Van An, νμ΅ν, βIndoor Positioning Technique applying new RSSI Correction method optimized by Genetic Algorithmβ, νκ΅μ κΈ°μ μνν λ Όλ¬Έμ§, Vol. 26, No.2, pp.186-195, June. 2022.
[78] μ‘°μ±μ€, μ€λμ, κΉμ§ν, μ€λλ΄, μ€κ²½ν, μ°λμ , λ°μ©λ°°, νμ΅ν, "μ μ¬κ° μμ μ±μ κ°λ λ°λ¦¬λ―Έν°ν λμ μ£Όνμ μ νμ λ μ΄λ μ€κ³", νκ΅μ μννν λ Όλ¬Έμ§, Vol. 33, No. 5, pp.340-347, May, 2022.
[77] Do Van An, νμ΅ν, βImprovement of Wi-Fi Location Accuracy Using Measurement Node-Filtering Algorithmβ, νκ΅μ κΈ°μ μνν λ Όλ¬Έμ§, Vol. 26, No.1, pp.67-76, Mar. 2022.
[76] λ Έμν, μ΄κ²½μ, μ΄μΈκ³€, κΉμ’ μ, νμ΅ν, κΉμ§ν, μ‘μ’ κ΄, β3D μΈμκΈ°μ μ μ΄μ©ν Xλμ μ΄μ€ μ ν νΈν λ³νκΈ° μ€κ³β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 32, No. 12, pp. 1039-1044, Dec, 2021.
[75] Do Van An, Biswarup Rana, νμ΅ν, βIdentification of Wi-Fi and Bluetooth Signals at the Same Frequency using Software Defined Radioβ, νκ΅μ κΈ°μ μνν λ Όλ¬Έμ§, Vol. 25, No.2, pp.252-260, June. 2021.
[74] μ‘°μ±μ€, νμ΅ν, βλ κ³ λΈλ‘ κΈ°λ° μ¬κ΅¬μ± μ£Όνμ μ ννλ©΄ ꡬ쑰 μ€κ³", νκ΅μ 보기μ νν λ Όλ¬Έμ§, Vol. 19, No. 5, pp.63-69, May. 2021.
[73] κΉμ±κ±΄, λ Έμν, νμ΅ν, μ‘μ’ κ΄, βλλ‘ μ ν΅μ μ νΈ λΆμμ μν λ¨κ³μ RF μΈ‘μ μλ리μ€β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 32, No. 4, pp.370-376, Apr, 2021.
[72] Pham The Hien, νμ΅ν, βImprove object recognition using UWB SAR imaging with compressed sensingβ, νκ΅μ κΈ°μ μνν λ Όλ¬Έμ§, Vol. 25, No.1, pp.76-82, Mar. 2021.
[71] λ Έμν, κΉμ°λΉ, μ‘μ’ κ΄, νμ΅ν, κΉμ€μ¬, μ€μμ βPO κΈ°λ²μ μ΄μ©ν λΆλΆ μ½ν λ μ κΈ°μ λν물체μ ISAR ν΄μ λ°©λ²β, νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν λ Όλ¬Έμ§, Vol. 23, No.4, pp.328-336, Apr. 2020.
[70] μ΄μν, μ€μμ, κΉμ€μ¬, νμ΅ν, βμ£Όνμ μ νμ λ μ΄λ κ²°ν¨μμ ν΄μμ μν λ°-무νλ°°μ΄κ΅¬μ‘° ν΄μ λ°©μμ κ΄ν μ°κ΅¬β, νκ΅μ κΈ°μ μνν λ Όλ¬Έμ§, Vol. 24, No.1, pp.1-8, Mar. 2020.
[69] μ΄μν, νμ΅ν, κΉμ€μ¬ βμ£Όνμ μ ν ꡬ쑰 λ μ΄λ μ μ κ³Όμ μμ λ°μ κ°λ₯ν λΆμ°μμ ꡬ쑰μ μν₯ λΆμβ, νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν λ Όλ¬Έμ§, Vol. 22, No.5, pp.369-375, Oct. 2019.
[68] κΉμ°λΉ, νμ΅ν, μ€μμ, κΉμ€μ¬, μ‘μ’ κ΄, βμ κΈ°μ λν 물체 RCS ν΄μμ μν 근거리-μ거리μ₯ λ³ν μκ³ λ¦¬μ¦ μ°κ΅¬β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 30, No. 10, pp.791-798, Oct, 2019.
[67] μνλ, λ Έμν, νμ΅ν, κΆμν, μ€μμ€, ν©λ―Όμ , μ΅κ΄μ, μ‘μ’ κ΄, βν¬λͺ μ λμ± μ°νλ¬Όμ΄ μ½ν λ μ μ 체μ λ¨λ°©ν₯ λ μ΄λ€ λ¨λ©΄μ μΈ‘μ β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 30, No. 9, pp.762-769, Sep, 2019.
[66] κΉνΈμ§, μ‘°μ±μ€, κΉμ€μ¬, μ‘μ’ κ΄ βμ΄κ΄λμ μ°¨λ¨ νΉμ±μ κ°λ μ’ μ΄κΈ°λ° μ£Όνμ μ νμ ꡬ쑰 μ€κ³β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 30, No. 7, pp.566-572, Jul, 2019.
[65] Trung Kien Nguyen and Ic-Pyo, Hong, βImproved object recognition performance of UWB radar according to different window functionsβ, νκ΅μ κΈ°μ μνν λ Όλ¬Έμ§, Vol. 23, No.2, pp.395-402, June. 2019.
[64] λ°μ°¬μ , νμ΅ν, κΆμ€λ², κΉμ€μ¬, μ‘μ’ κ΄ βμμ λνꡬ쑰 μ μκΈ° ν΄μμ μν CBFMμ λΉ λ₯Έ μ거리 μνΈ μμ© κ³μ° μκ³ λ¦¬μ¦β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 29, No. 9, pp.701-706, Oct, 2018.
[63] μ΄μν, νμ΅ν, βμ£Όνμ μ ν ꡬ쑰λ₯Ό μμ©ν μ½ν¬λ¦¬νΈ ꡬ쑰물μ κ· μ΄ ν λ° νμ μμΈ‘β, νκ΅μ 보기μ νν λ Όλ¬Έμ§, Vol. 16, No. 9, pp.59-66, Sept. 2018.
[62] μ‘°μ±μ€, μ΄μν, μ€μ ν, νμ΅ν, βμ€λ΄ νκ²½μ μ¨λ, μ΅λ λ³νλ₯Ό κ³ λ €ν 무μ LAN μ£Όνμ μ°¨λ¨ νλ¦μ μ£Όνμ μλ΅νΉμ± λΆμβ, νκ΅μ 보기μ νν λ Όλ¬Έμ§, Vol. 16, No. 9, pp.51-57, Sept. 2018.
[61] μ‘°μ±μ€, μ΄μν, μ€μ ν, νμ΅ν, βνλ¦ν μ΄μ€ λμ μ£Όνμ μ ν κ΅¬μ‘°κ° μ μ©λ μ€λ΄ νκ²½μ 무μ μ νΈκ°λ λΆμβ, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 29, No. 1, pp.382-390, Jan, 2018.
[60] μ΄μΈκ³€, μ€μ ν, νμ΅ν, β건물 λ΄ μ£Όνμ μ νμ κ³΅κ° κ΅¬νμ μν μΈμμ μ κΈ°μ κΈ°λ° νλ¦ν μ£Όνμ μ ν ν면ꡬ쑰 μ€κ³β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 28, No. 12, pp.382-390, Dec, 2017.
[59] μ΄μν, νμ΅ν, βκ±΄λ¬Όλ΄ WLANλμ μ ννκ²½ κ°μ μ μν μ΄μ€λμ μ£Όνμ μ νꡬ쑰μ μ€κ³β, νκ΅μ 보기μ νν λ Όλ¬Έμ§, Vol. 15, No. 9, pp.63-70, Sept. 2017.
[58] κ°μ€μ, μ΄μΉμ°, νμ΅ν, μ‘°μΈκ·, κΉλ¨,βμμ© μκΈ°μ λλ°©μ 무μ μ λ ₯μ μ‘ μμ€ν μ μΈμ²΄νν₯ λΆμβ, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 28, No. 5, pp.382-390, May, 2017.
[57] μ΄μν, λ°ννΈ, μ΅μμ£Ό, μ€μ ν, νμ΅ν, βμ λλ Έ λΆλ§κ³Ό μΉ΄λ³Έ μν¬λ₯Ό μ΄μ©ν μμ μΈμν NFC νκ·Έ μ€κ³β, νκ΅ν΅μ νν λ Όλ¬Έμ§, Vol. 42, No. 4, pp.716-722, Apr. 2017.
[56] μ‘°μ±μ€, μ μ¬μ±, κΉμ§λ§, νμ΅ν, βμΉνκ²½ κΈ°ν¬μ½ν¬λ¦¬νΈ λ²½μ μ μν ν¬κ³ΌνΉμ±β, νκ΅μ 보기μ νν λ Όλ¬Έμ§, Vol. 15, No. 2, pp.123-130, Feb. 2017.
[55] κΉμ’ μ°¬, μ΄μΉμ°, κ°λ³λ¨, νμ΅ν, μ‘°μΈκ·, κΉλ¨,βWPT μμ€ν μ λμ€μκ³ κ°μλ₯Ό μν μ μν μ°¨νꡬ쑰 κ°μ β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 28, No. 1, pp.61-68, Jan, 2017.
[54] μ΄μΈκ³€, λ°μ°¬μ , μ‘μ’ κ΄, λ°μ©λ°°, μ ν₯μ¬, κΉμ€μ¬, νμ΅ν,βμ μ°ν ꡬ쑰λ₯Ό κ°λ X-Band μ¬κ΅¬μ± μ£Όνμ μ νꡬ쑰 μ€κ³β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 28, No. 1, pp.80-83, Jan, 2017.
[53] μ΄μΈκ³€, κΉλ¨, μ‘°μΈκ·, νμ΅ν,βμ°μμ±μ²΄λ₯Ό μ΄μ©ν μ μ£Όν 무μ μ λ ₯μ μ‘ μμ€ν μ λμ€ μκΈ°μ₯ μ κ°β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 28, No. 1, pp.76-79, Jan, 2017.
[52] μ΄μΈκ³€, λ°μ©λ°°, μ ν₯μ¬, κΉμ€μ¬, νμ΅ν,β격리λκ° ν₯μλ X-band μ¬κ΅¬μ± μ£Όνμ μ ν ν면ꡬ쑰 μ€κ³β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 27, No. 9, pp.791-799, Sep, 2016.
[51] μ‘°μ±μ€, νμ΅ν,βμ€λ΄ κ³΅κ° μ€ννΈλΌ μ μ΄λ₯Ό μν μ’ μ΄κΈ°λ° μ¬κ΅¬μ± μ£Όνμ μ νꡬ쑰 μ€κ³β, νκ΅ν΅μ νν λ Όλ¬Έμ§, Vol. 41, No. 7, pp.775-782, Jul, 2016.
[50] μ΄μΈκ³€, νμ΅ν,βλμ μ£Όνμ νμ₯μ±μ κ°λ μννλ μ£Όνμ μ ν ν면ꡬ쑰 μ€κ³β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 27, No. 6, pp.512-520, Jun, 2016.
[49] μ€μ ν, μ΄μ€μ, μ΄μΈκ³€, νμ΅ν, βMetal Grid Mesh μΈμλ₯Ό μ΄μ©ν ν¬λͺ μ ν ν‘μꡬ쑰 μ€κ³β, νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν λ Όλ¬Έμ§, Vol. 19, No.3, pp.369-375, Jun. 2016.
[48] μ‘°μ±μ€, λ°μ’ ν, νμ΅ν, βλ₯λ μ£Όνμ μ ν ꡬ쑰λ₯Ό μ΄μ©ν μ€λ΄ κ³΅κ° WLAN μ μ΄ μμ€ν μ€κ³β, νκ΅μ 보기μ νν λ Όλ¬Έμ§, Vol. 14, No. 3, pp.19-24, Mar. 2016.
[47] νμ΅ν, βμ€ν μ€ μ ν¬κΈ° μΊλ ΈνΌλ₯Ό μν ν¬λͺ μ μν ν‘μꡬ쑰 μ€κ³β, νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν λ Όλ¬Έμ§, Vol. 18, No.4, pp.369-375, Aug. 2015.
[46] νμ΅ν, βμ€ν μ€ κΈ°λ₯μ κ°λ μμ₯λ§μ RCS νΉμ± ν΄μβ, νκ΅μ 보기μ νν λ Όλ¬Έμ§, Vol. 13, No. 4, pp.53-60, Apr. 2015.
[45] μ μ΄λ£¨, νμ΅ν, μ΄κ²½μ, κ΅μ°¬νΈ, κΉλν, μ‘μ’ κ΄, βμν΅ν 무ν λ°°μ΄ κ΅¬μ‘°μ μν΅ν μ ν λ°°μ΄ κ΅¬μ‘°μ μ ν νΉμ± λΉκ΅β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 26, No. 2, pp.196-203, Feb, 2015.
[44] μ΄μΈκ³€, νμ΅ν, μ ν₯μ¬, λ°μ©λ°°, κΉμ€μ¬, β곑면 μ¬κ΅¬μ± μ£Όνμ μ νλ§μ ν¬κ³ΌνΉμ±β, νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν λ Όλ¬Έμ§, Vol.17, No.3, pp.311-317, Jun, 2014.
[43] μ΄μΈκ³€, νμ΅ν, μμ€μ, μ ν₯μ¬, λ°μ©λ°°, μ‘°μ°½λ―Ό, βν¨μΉ λ°°μ΄κ³Ό 그리λ ꡬ쑰λ₯Ό μ΄μ©ν μ¬κ΅¬μ± μ£Όνμ μ ν ꡬ쑰 μ€κ³β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 25, No. 1, pp. 92-98, Jan, 2014.
[42] λ°κ²½λ―Έ, μμ€μ, μ ν₯μ¬, νμ΅ν, λ°μ©λ°°, κΉμ€μ¬, βμ£Όνμ μ νλ§μ΄ μ½μ λ 볡ν©μ¬ ννμ μλ₯ μ΄μλ ₯κ³Ό μ€νλ§ λ°± ν¨κ³Όβ, νκ΅μ μ°κ΅¬μ‘°κ³΅νν λ Όλ¬Έμ§, Vol. 26, No.6, pp.475-481, Dec, 2013.
[41] λ°κ²½λ―Έ, ν©μΈν, μ ν₯μ¬, νμ΅ν, λ°μ©λ°°, κΉμ€μ¬, β루ν μ’ λ₯μ FSSκ° κ²°ν©λ 볡ν©μ¬λ£ ꡬ쑰μ μλ₯μλ ₯κ³Ό μ ν ν¬κ³Ό νΉμ±β, Composites Research νκ΅λ³΅ν©μ¬λ£νν λ Όλ¬Έμ§, Vol. 26, No.5, pp.279-288, Aug, 2013.
[40] λ¨μ§ν, μ ν₯μ¬, νμ΅ν, βμ¬λκ·Έ μ μμ ν¬κΈ° λ° μ²΄μ λΉμ λ°λ₯Έ μ¬λκ·Έ μ μκ°ν 볡ν©μ¬λ£μ κΈ°κ³μ νΉμ± μ°κ΅¬β, Composites Research νκ΅λ³΅ν©μ¬λ£νν λ Όλ¬Έμ§, Vol. 26, No.4, pp.218-222, Aug, 2013.
[39] νμ΅ν, βμκ°μμμμ μμ§ λ€μ΄ν΄μ μ νκ²½λ‘μμ€ νΉμ± ν΄μβ, νκ΅μ 보ν΅μ νν λ Όλ¬Έμ§, Vol. 17, No.7, pp. 1558-1563, Jul, 2013.
[38] νμ΅ν, βλ°νμ₯ λ€μ΄ν΄ μν λμ μκ°μμ κ³Όλμλ΅μ μ΄μ©ν μ νκ²½λ‘ μμ€νΉμ±β, νκ΅μ 보기μ νν λ Όλ¬Έμ§, Vol.11, No.5, pp.45-51, May, 2013.
[37] νμ΅ν, βμμλΆν λ²μ μ΄μ©ν 2μ°¨μ μ νμ°¨λΆ μκ°μμλ² ν΄μβ, νκ΅μ 보ν΅μ νν λ Όλ¬Έμ§, Vol. 17, No.5, pp. 1049-1054, May, 2013.
[36] λ°κ²½λ―Έ, ν©μΈν, μ ν₯μ¬, νμ΅ν, λ°μ©λ°°, κΉμ€μ¬, βN-pole μ’ λ₯μ FSSκ° κ²°ν©λ 볡ν©μ¬λ£ ꡬ쑰μ μλ₯μλ ₯κ³Ό μ νν¬κ³ΌνΉμ±β, νκ΅μ μ°κ΅¬μ‘°κ³΅νν λ Όλ¬Έμ§, Vol. 26, No.2, pp.123-130, Apr, 2013.
[35] νμ΅ν, βCagniard-de Hoop λ°©λ²μ μ΄μ©ν μκ°μμ μ νκ²½λ‘ μμ€ κ³μ°β, νκ΅μ 보기μ νν λ Όλ¬Έμ§, Vol.11, No.4, pp.63-68, Apr, 2013.
[34] νμ΅ν, μ ν₯μ¬, μ΄λͺ 건, μ μ©μ, βμ νν¬κΈ° FSSμ 곑λ₯ ν¨κ³Όμ λ°λ₯Έ μ£Όνμ νΉμ± ν΄μβ, νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν λ Όλ¬Έμ§, Vol.15, No.6, pp.779-785, Dec, 2012.
[33] μ΄μΈκ³€, νμ΅ν, βFSS λ¨μμ λ°°μ΄κ΅¬μ‘°μ λ°λ₯Έ ꡬν μ£Όνμ μ ν ꡬ쑰μ RCS νΉμ±λΉκ΅β, νκ΅μ κΈ°μ μνν λ Όλ¬Έμ§, Vol.16, No.4, pp.46-52, Dec, 2012.
[32] μ μ΄λ£¨, νμ΅ν, μ‘μ’ κ΄, μ ν₯μ¬, μ΄λͺ 건, βꡬν μ μ 체 μμ μλ ꡬν ν¨μΉμ 곡μ§νΉμ±κ³Ό λ°©μ¬νΉμ±β, νκ΅μ μννν λ Όλ¬Έμ§, Vol. 23, No. 4, pp. 515-523 Apr, 2012.
[31] μ΄μΈκ³€, νμ΅ν βν΄μμΈλͺ ꡬ쑰ν΅μ μ μν UHF λμ ννν λ§μ΄ν¬λ‘μ€νΈλ¦½ μν λ μ€κ³β, νκ΅μ κΈ°μ μνν λ Όλ¬Έμ§, Vol. 16, No. 1, pp. 62-68, Mar, 2012.
[30] μ΄μΈκ³€, νμ΅ν β체μ€ν ννλ₯Ό κ°λ μ£Όνμ μ νꡬ쑰 μ€κ³β, νκ΅μ κΈ°μ μνν λ Όλ¬Έμ§, Vol. 16, No. 1, pp. 15-19, Mar, 2012.
[29] μ΄μΈκ³€, νμ΅ν "λ€μ΄ν΄ ννλ₯Ό μ¬μ©ν 무μ LANμ© 2.45GHz λμ νν μν λ μ€κ³", νκ΅ μ 보기μ νν λ Όλ¬Έμ§, Vol. 9, No. 10, pp. 29-34, Oct, 2011.
[28] μ΄μΈκ³€, νμ΅ν "Design of a Film-Type Dipole Antenna Using a Director Element at UHF ISM Band", νκ΅ μ 보기μ νν λ Όλ¬Έμ§, Vol. 9, No. 9, pp. 77-82, Sep, 2011.
[27] μ μμ§, νμ΅ν, μμμ "μμ§ μ μΈ΅ν λ€μ΄ν΄ ꡬ쑰λ₯Ό κ°λ μ£Όνμ μ¬κ΅¬μ± μν λ μ€κ³", νκ΅ μ μννν λ Όλ¬Έμ§, Vol. 22, No. 6, pp. 610-616, Jun, 2011.
[26] κΉκ°μ°, μ ν₯μ¬, κ°κ²½ν, μ΄κ²½μ, νμ΅ν, μ΄λͺ 건 "μ£Όνμ μ νμ ν¬κ³Όλ§μ΄ κ²°ν©λ 볡ν©μ¬λ£μ μλ₯μλ ₯νκ° λ° μ νμ ν¬κ³Όλ§ μ€κ³", νκ΅ λ³΅ν©μ¬λ£νν λ Όλ¬Έμ§, No. 2, pp. 37-44, Feb, 2011.
[25] μ΄κ²½μ, λ°λ²μ€, μ μμ² , νμ΅ν, μ‘μ’ κ΄ "Particel Swarm Optimizationμ μ΄μ©ν λ€μΈ΅κ΅¬μ‘° λ μ΄λ μ€κ³", νκ΅ μ μννν λ Όλ¬Έμ§, Vol. 21, No. 7, pp. 1161-1170, Jul, 2010.
[24] νμ΅ν, μ΄κ²½μ, μ‘μ’ κ΄, μ‘°μ°½λ―Ό, μ ν₯μ¬ "PSOλ₯Ό μ΄μ©ν μ£Όνμ μ νꡬ쑰 κΈ°λ° μΈκ³΅μκΈ°λ체 μ€κ³", νκ΅ μ μννν λ Όλ¬Έμ§, Vol. 21, No. 6, pp. 610-616, Jun, 2010.
[23] νμ΅ν, "κ³ μ°¨λͺ¨λ μκ°μμ μ νμ°¨λΆλ²μ μ΄μ©ν μν΅ν λ©νλ¬Όμ§ Slabμ ν΄μ", νκ΅ ν΄μμ 보ν΅μ νν λ Όλ¬Έμ§, Vol. 14, No. 1, pp. , Jan, 2010.
[222] μ΄κ²½μ, λ°λ²μ€, μ μμ² , νμ΅ν, μ‘μ’ κ΄ "λ©νλ¬Όμ§ μ½μ΄λ₯Ό κ°λ A-Sandwich λ μ΄λ μ ννΉμ± ν΄μ", νκ΅ μ μννν λ Όλ¬Έμ§, Vol. 20, No. 11, pp. 1161-1170, Nov, 2009.
[21] μ΄κ²½μ, νμ΅ν, μ μμ² , μ‘μ’ κ΄ "μμ€ νΉμ±μ λ©νλ¬Όμ§μ΄ ν¬ν¨λ λ€μΈ΅κ΅¬μ‘° Slabμ νΉμ±λΆμ", νκ΅ μ μννν λ Όλ¬Έμ§, Vol. 19, No. 12, pp. 1384-1393, Dec, 2008.
[20] μ΄κ²½μ, νμ΅ν, μ μμ² , μ‘μ’ κ΄ "Drude λͺ¨ν νΉμ±μ κ°λ λ©ν λ¬Όμ§μ μκ³κ°μ κ΄ν μ°κ΅¬", νκ΅ μ μννν λ Όλ¬Έμ§, Vol. 19, No. 9, pp. 1020-1027, Sep, 2008.
[19] νμ΅ν, "2D-FDTD λ°©λ²μ μ΄μ©ν λ©νλ¬Όμ§ Slab μ μ£Όνμ μμ νΉμ± ", νκ΅ ν΄μμ 보ν΅μ νν λ Όλ¬Έμ§, Vol. 12, No. 7, pp. 1165-1172, Jul, 2008.
[18] λλ°ν, λ ΈμΉν, νμ΅ν, μ μ κ΄, βκ³μΈ΅μ Mobile IPv6μμ κ³ μ νΈλμ€λ²(Fast Handover) κ°μ μ κ΄ν μ°κ΅¬β, νκ΅ν΅μ νν λ Όλ¬Έμ§, Vol. 33, No. 5, pp. 509-514, May, 2008.
[17] νμ΅ν, "Design of Novel Wiggly Directional Coupler with the Fractal Coupled Sections for Improving Coupling", νκ΅ ν΄μμ 보ν΅μ νν μλ¬Έλ Όλ¬Έμ§, Vol. 6, No. 1, pp. 55-58, Mar, 2008.
[16] νμ΅ν, "2D μν΅ν μ’νκ³λ₯Ό μν FDTD λ°©λ²μμ UPML κ³Ό Liao ν‘μκ²½κ³μ‘°κ±΄μ λΉκ΅ ", νκ΅ ν΄μμ 보ν΅μ νν λ Όλ¬Έμ§, Vol. 11, No. 6, pp. 1054-1061, Jun, 2007.
[15]Β μ μ¬ν, νμ΅ν "TEM λ€μ€ μ μ‘μ λ‘μ λν Closed-Form ννμ μκ°μμν΄μ ", νκ΅ μ μννν λ Όλ¬Έμ§, Vol. 18, No. 6, pp. 680-688, Jun, 2007.
[14] μ μ©μ, νμ΅ν, κΉμμ, λ°νκ·, "μ€ννΈλΌ μ¬μ©κ³μλ₯Ό μ΄μ©ν μ€ννΈλΌ μ λν μΈ‘μ ", νκ΅ μ μννν λ Όλ¬Έμ§, Vol. 17, No. 1, pp. 81-88, Jan, 2006.
[13] μ΄κ²½μ, νμ΅ν, μ‘μ’ κ΄, "μμ λ μ€κ³ λ°©μ μμ μ΄μ©ν νλμ»΄ ꡬ쑰μ μ°¨νν¨κ³Ό μμΈ‘ ", νκ΅ μ μννν λ Όλ¬Έμ§, Vol. 16, No. 9, pp. 862-871, Sep, 2005.
[12] κΉν, νμ΅ν, μ‘μ’ κ΄, βDebye 맀μ§μ λν λ©λͺ¨λ¦¬ ν¨μ¨μ μΈ JEC(FD)2TD μμΉν΄μκΈ°λ² β, νκ΅ μ μννν λ Όλ¬Έμ§, Vol. 16, No. 5, pp. 447-454, May, 2005.
[11] νμ΅ν, βQuasi-static Analysis on the Effect of the Finite Metal with the Anisotropic Grooved Dielectric in Microstrip lines β, νκ΅ λ§μ΄ν¬λ‘μ μ λ° ν¨ν€μ§νν λ Όλ¬Έμ§, Vol. 12, No. 1, pp. 17-20, Mar, 2005.
[10] κΉλͺ μ’ , μ΄νμ, νμ΅ν, μ μ©μ, βUWB μμ€ν κ³Ό μ΄λν΅μ μμ€ν κ°μ κ°μμΈ‘μ λΆμβ, νκ΅ μ μννν λ Όλ¬Έμ§ Vol. 15, No. 10, pp. 1011-1017, Oct, 2004.
[9] νμ΅ν, μ€λ¨μΌ, μ‘μ’ κ΄, "λ체λκ»λ₯Ό κ°μ§ κ²°ν©μ λ‘λ₯Ό μ΄μ©νμ¬ κ°ν κ²°ν©νΉμ±μ κ°λ 1/4νμ₯ μλ°©ν₯ λ°©ν₯μ± κ²°ν©κΈ°μ μ€κ³", μ μννν λ Όλ¬Έμ§ , Vol. 14, No.10, pp. 1004-1010, Oct, 2003.
[8] νμ΅ν, μ€λ¨μΌ, μ‘μ’ κ΄, "λ체λκ»λ₯Ό κ°μ§ λΉλμΉ κ²°ν©μ λ‘λ₯Ό μ΄μ©ν μ λ°©ν₯ -3dB λ°©ν₯μ± κ²°ν©κΈ°μ μ€κ³λ° μ μ", νκ΅ν΅μ ννλ Όλ¬Έμ§, Vol.28, No.8A, pp.626-632, Aug, 2003.
[7] μ€λ¨μΌ, νμ΅ν, λ°νκ·, "λ€μΈ΅κ΅¬μ‘°μμ λ체 λκ»λ₯Ό κ³ λ €ν λΉλμΉ κ²°ν©μ λ‘μ νΉμ±ν΄μ", νκ΅ν΅μ ννλ Όλ¬Έμ§, Vol. 25, No. 3A, pp. 424-429, Mar, 2000.
[6] μ΄μ¬μ , μ νν, νμ΅ν, λ°νκ·, "Conformal Mapping λ°©λ²μ μ΄μ©ν λ체μ μ§λ₯Ό κ°μ§ λμΌνλ©΄ λνκ΄ κ²°ν©μ λ‘μ ν΄μ, " νκ΅ν΅μ νν λ Όλ¬Έμ§, Vol. 24, No. 3, pp. 479-485, Mar, 1999.
[5] νμ΅ν, μ₯λ³μ€, μ μ¬νΈ, λ°νκ·, " CDMA μλ°©ν₯ λ§ν¬ μ‘μ λΆμ μ ν λ° λΉμ ν μ곑 ν¨κ³Ό λΆμ, " νκ΅ν΅μ νν λ Όλ¬Έμ§, Vol. 22, No. 10, pp. 2165-2170, Oct, 1997.
[4]Β μ νν, νμ΅ν, μ΄μ©κ΅, λ°νκ·, " μ£Όνμ μμ ν΄μλ²μ μ΄μ©ν λμΉ/λΉλμΉ κ΄μκ²°ν© λμΌ νλ©΄λνκ΄ μ λ‘μ νΉμ± ν΄μ, " νκ΅ν΅μ νν λ Όλ¬Έμ§, Vol. 22, No. 9, pp. 1968-1974, Sep, 1997.
[3] νμ΅ν, μ νν, μ€μμ€, λ°νκ·, "λ€ν΄μλ μκ°μμλ²μ μμΉμ λΆμ°νΉμ±κ³Ό μμ 쑰건", μ μννν λ Όλ¬Έμ§, Vol. 7, No. 4, pp. 328-336, Oct, 1996.
[2] νμ΅ν, μ΅λν, λ°νκ·, "λ€ν΄μλλ²μ μ΄μ©ν μ νμ°¨λΆ μ£Όνμμμλ²μ λΆμ°νΉμ±", νκ΅ν΅μ νν λ Όλ¬Έμ§, Vol. 21, No. 10, pp. 2724-2730, Oct, 1996.
[1] νμ΅ν, μ₯λ³μ€, μ€μμ€, λ°νκ·, " μ νμ°¨λΆ μκ°μμλ²μ μ΄μ©ν λ¨μΌνλ©΄ μ μ‘μ λ‘μ νΉμ±ν΄μ," νκ΅ν΅μ νν λ Όλ¬Έμ§, Vol. 20, No. 8, pp. 2304-2315, Aug, 1995.
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[205] νλνμ, νμ΅ν, βPnP DL-based ADMM for short-range 3-D SAR imagingβ, 2024λ νκ΅μ μννν μΆκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Nov, 2024.
[204] μλΆλ² μ΄μ»€, νμ΅ν, βTransparent 2 x 1 MIMO Antenna Based on Micro Metal Meshβ, 2024λ νκ΅μ μννν μΆκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Nov, 2024.
[203] νΈλν°ν, νμ΅ν, βEnhancing 3D Object Detection Accuracy Using Adaptive Augmentation Strategiesβ, 2024λ νκ΅μ μννν μΆκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Nov, 2024.
[202] λ°μ€, νμ΅ν, βSAR Using Multiple Convolutional Neural Networks for Ship Detectionβ, 2024λ νκ΅μ μννν μΆκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Nov, 2024.
[201] κ°μ¬ν, κΉμ±κ±΄, κ³ μ¬κΈ°, νμ΅ν, μ‘μ’ κ΄, βISAR κΈ°λ° νλλ―Έμ¬μΌ νμ’ μλ³μ μν μ°λμ κ°μμ± ν₯μ λ°©μβ, 2024λ νκ΅μ μννν μΆκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Nov, 2024.
[200] κ³ μ¬κΈ°, κΉμ±κ±΄, ννμ±, νμ΅ν, μ‘μ’ κ΄, βInterpolationμ μ μ©ν μ΄λ―Έμ§ κΈ°λ° NFFFT μκ³ λ¦¬μ¦ RCS(radar cross section) μμΈ‘ μ°κ΅¬β, 2024λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2024.
[199] κΉμΈν, μνλ, νμ΅ν, μ΄νμ, μ‘μ’ κ΄, βCharacteristic Basis Function Methodλ₯Ό νμ©ν κ°λ°©ν 곡λ ꡬ쑰μ Generalized Transition Matrix λͺ¨λΈλ§β, 2023λ νκ΅μ μννν μΆκ³νμ λν λ Όλ¬Έμ§, Nov. 2023.
[198] κΉμ±κ±΄, μ΄κ²½μ, μ΄λͺ μ, μ΄μ’ ν, νμ΅ν, μ‘μ’ κ΄, βν¬κ³Όν Space-Time-Cdoing λ©ννλ©΄ μ€κ³ μ°κ΅¬β, 2023λ νκ΅μ μννν μΆκ³νμ λν λ Όλ¬Έμ§, Nov. 2023.
[197] λ―Όκ²½μ, κΉμ±κ±΄, νμ΅ν, μ΄κ²½μ, μ΄λͺ μ, μ΄μ’ ν, μ‘μ’ κ΄, βμ§μ¬κ°ν κΈμ μ¬λ‘―μ μ΄μ©ν μ΄μ€λμ μ νΈ μ§μ€ μμλ³ν λ©ννλ©΄ μ€κ³, 2023λ νκ΅μ μννν μΆκ³νμ λν λ Όλ¬Έμ§, Nov. 2023.
[196] νλνμ, λ¬Έμ€μ, κΉμ’ ν, νΈλν°ν, νμ΅ν, βHuman and UAV tracking scheme in indoor environmentβ, 2023λ νκ΅μ μννν μΆκ³νμ λν λ Όλ¬Έμ§, Nov. 2023.
[195] λ¬Έμ€μ, μ΄μΉν, κΉμ’ ν, νμ΅ν, β무μ λ 5GHz λμμ μ μ©ν μ μλ 1-bit Reconfigurable Intelligent Surfaceβ, 2023λ νκ΅μ μννν μΆκ³νμ λν λ Όλ¬Έμ§, Nov. 2023.
[194] νμ΅ν, μ‘μ’ κ΄, βκ΅μ° μ μΈμ ν¬κΈ°μ μμ‘΄μ± ν₯μμ μν RF μ€ν μ€ κΈ°μ β, 2023λ λ ν곡μ°μ£Όμμ€ν 곡νν μΆκ³νμ λν λ Όλ¬Έμ§, Oct, 2023.
[193] νλνμ, νμ΅ν, βIntegrating ResNet to pix2pix Model for Improving Denoising SAR Imageβ, 2023λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2023.
[192] λ¬Έμ€μ, νμ΅ν, βμλμ°¨μ© κ³ μ Twisted-pair μ΄λλ· μΌμ΄λΈμ μ€κ³ λ° ν΄μβ, 2023λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2023.
[191] μ΄μΉν, νμ΅ν, βλΌμ¦λ² 리νμ΄λ₯Ό μ΄μ©ν RIS μ μ΄λ³΄λ μ€κ³β, 2023λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2023.
[190] κΉμ±κ±΄, ννμ±, νμ΅ν, μ‘μ’ κ΄, βMulti-level Spherical Wave Expansion κΈ°λ° κ·Όμ κ³-μμ κ³ λ³ν μκ³ λ¦¬μ¦ λ° μΆμν λͺ¨λΈμ νμ©ν λ μ΄λ€ λ¨λ©΄μ μμΈ‘ μ°κ΅¬β, 2023λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2023.
[189] μ΄μ£ΌνΈ, λ§ΉμΌνΈ, μ΄μ©μ, μ‘°μ©κΈ°, μ§μμ² , νμ΅ν, βλ¨ν(HF) λ° μ΄λ¨ν(VHF)μ μ£Όνμ λμμμ μ°¨ν μ±λ₯μ κ°μ ν μλμ°¨μ© λμΆμΌμ΄λΈ κ°λ° μ°κ΅¬β, 2023λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2023.
[188] νΈλν°ν, νμ΅ν, βA Comparison of the Localization Accuracy of Ultrasonic Beacons in various Indoor Environmentsβ, 2023λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2023.
[187] κΉμ’ ν, νμ΅ν, βResNet-Variational AutoEncoderμ μ μ¬λ³μ μΆμ κΈ°λ²μ νμ©ν Electromagnetic Metasurfaceμ Inverse Design λ°©λ²λ‘ μ°κ΅¬β, 2023λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2023.
[186] B. Rana, μ‘°μ±μ€, νμ΅ν, βCharacterization of 1Γ3 Unit Cells of Reconfigurable Intelligent Surface having Sensing Capabilityβ, 2023λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2023.
[185] D. Fazal, νμ΅ν,βNon-Uniform Unit-Cell Design of 1-Bit Active Metasurface for RIS Applicationsβ, 2023λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2023.
[184] κΉμΈν, μνλ, μ΄νμ, νμ΅ν, μ‘μ’ κ΄ βAdaptive-cross Approximation μ μ© λ°©μμ λ°λ₯Έ Multilevel CBFMμ κ°μν μ±λ₯ λΆμβ, 2023λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2023.
[183] μ‘°μ±μ€, νμ΅ν, βκ³ μΆλ ₯ μ¬λ°μ νΈ λ°©μ΄λ₯Ό μν ESS ꡬ쑰 μ€κ³β, 2023λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2023.
[182]Β B. Rana, μ‘°μ±μ€, νμ΅ν, βDesign of Unit Cell of Reconfigurable Intelligence Surface with Integrated Sensing Capabilityβ, 2023λ λ νκ΅ν΅μ νν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2023.
[181] D. Fazal, νμ΅ν, β1-bit Dual-Band Active Reflective Metasurface design for RIS Applicationsβ, 2023λ λ νκ΅ν΅μ νν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2023.
[180] μ΄κ²½μ, μ€μκ·Ό, λ Έμν, νμ΅ν, μ΄μΈκ³€, μ‘μ’ κ΄, κΉμ§ν, βEffect of Thermal Pressing Method on 3D Printed Metasurface Structureβ, 2023λ λ νκ΅μ κΈ°μ μμ¬λ£νν νκ³νμ λν λ Όλ¬Έμ§, Jun, 2023.
[179] λ―Όκ²½μ, κΉμ±κ±΄, λ Έμν, μ΄κ²½μ, μ μ±ν, νμ΅ν, μ‘μ’ κ΄ βPhase-Gradient κΈ°λ° λ©ννλ©΄μ νμ©ν μ΄λ ν₯μ λ°©μ μ°κ΅¬β, 2023λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2023.
[178] κΉμ±κ±΄, ννμ±, νμ΅ν, μ‘μ’ κ΄ βMulti-level Spherical Wave Expansion κΈ°λ°μ κ·Όμ κ³-μμ κ³ λ³ν μκ³ λ¦¬μ¦μ ν΅ν λ μ΄λ€ λ°μ¬ λ©΄μ μμΈ‘ μ°κ΅¬β, 2023λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2023.
[177] λ Έμν, κΉμ±κ±΄, νμ΅ν, μ‘μ’ κ΄ βμ΄λ―Έμ§ κΈ°λ° κ·Όκ±°λ¦¬μ₯-μ거리μ₯ λ³νμ μν Basis Pursuit Denoising κΈ°λ² κΈ°λ° μ΄μ° μ μ°λμ λͺ¨λΈλ§β, 2023λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2023.
[176] μ΄μΉν, νμ΅ν,βλ¬΄μΈ μ΄λ체 μμ μ± ν보λ₯Ό μν μ§μκΈ°νΉμ± λΆμβ,2023λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2023.
[175] λ¬Έμ€μ, μ‘°μ±μ€, νμ΅ν, βWi-Fi 6E μμ€ν μ μ μ© κ°λ₯ν μ΄μ€λμ μ£Όνμ μ ννλ©΄ ꡬ쑰 μ€κ³β,2023λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2023.
[174] μνλ, κΉμΈν, νμ΅ν, μ‘μ’ κ΄, βMLFMM κΈ°λ²μ νμ©ν CBFMμ κ°μν λ° κ³μ°μκ° κ°μ μ±λ₯ λΆμβ,2023λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2023.
[173] μ‘°μ±μ€, νμ΅ν, β3.5GHzμμ λμνλ μλν RIS ꡬ쑰 μ€κ³β,2023λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2023.
[172] Biswarup Rana, μ‘°μ±μ€, νμ΅ν, βDesign of a Cost Effective Unit Cell for Reconfigurable Intelligent Surfaceβ, 2023λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2023.
[171] κΉμ’ ν, νμ΅ν,βConditional GAN κΈ°λ°μ Image-to-Image translation κΈ°λ²μ νμ©ν Radar Sparse Sensor Arrayμ μ΄ν΄μλ μμ μΆμ β, 2023λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2023.
[170] κΉμ°λΉ, κΉμ±κ±΄, ννμ±, νμ΅ν, μ‘μ’ κ΄, βλ€λ¨κ³ ꡬνν νμ₯ κΈ°λ² λ° κ·Όμ¬ κΈ°μ ν¨μλ₯Ό μ¬μ©ν RCS μμΈ‘ μκ³ λ¦¬μ¦ κ°μνβ, 2023λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2023.
[169] P. T. Hien, νμ΅ν, βA Study on Improving Object Detection using Near-Field FMCW SAR imaging with GAN pix2pix modelβ, 2023λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2023.
[168] μ΄κ²½μ, κΉμ§ν, λ Έμν, μ‘μ’ κ΄, νμ΅ν, κΉμ’ μ, βFabrication of 3D-Printed Phase Shifter with Thermal-Pressed Conductive Patternβ, 2022 νκ΅μ κΈ°μ μμ¬λ£νν νκ³νμ λν λ Όλ¬Έμ§, June, 2022
[167] λ Έμν, μ΄μΈκ³€, νμ΅ν, μ‘μ’ κ΄, βμ ννΈν λ³ν λ° λΉ μ‘°ν₯μ© Xλμ μ¬κ΅¬μ± ν¬κ³Όλ°°μ΄κ΅¬μ‘° μ€κ³β, 2022λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2022.
[166] μνλ, λ Έμν, κΉμ°λΉ, νμ΅ν, μ‘μ’ κ΄, βPMCHWT μκ³ λ¦¬μ¦ κΈ°λ°μ λ¨μΌ 곑면 μ μ 체 ꡬ쑰 μ°λ νΉμ± ν΄μ λ° μΈ‘μ β, 2022λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2022.
[165] Pham The Hien, νμ΅ν, βMillimeter Wave Synthetic Aperture Radar Imaging for Non-Destructive Testing of Re ar in Reinforced Concreteβ, 2022λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2022.
[164] κΉμ±κ±΄, νμ΅ν, μ‘μ’ κ΄, β무μΈμ΄λ체 μ€λ΄μνμ₯μ μ ννΉμ±β, 2022λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2022.
[163] Do Van An, νμ΅ν, βIndoor positioning technique in tunnel by smartphoneβ, 2022λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2022.
[162] λΌλλΉμ€μλ½, μ‘°μ±μ€, νμ΅ν, βReconfigurable Intelligent Surface in the Sub GHz Frequency Bandβ, 2022λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2022.
[161] μνλ, κΉμ°λΉ, λ Έμν, νμ΅ν, μ‘μ’ κ΄, "Multipole methodλ₯Ό μ μ©ν CBFM κΈ°λ° μ μ 체 ν΄μ μκ³ λ¦¬μ¦ κ΅¬μ‘° μ°κ΅¬",Β 2022λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, June, 2022.
[160] κΉμ°λΉ, λ Έμν, μνλ, νμ΅ν, μ‘μ’ κ΄, "Multi-Level SWE-NFFFT RCS μμΈ‘ μκ³ λ¦¬μ¦μ κ°μν Basis Function μ°κ΅¬", 2022λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, June, 2022.
[159] λ Έμν, μ΄μΈκ³€, νμ΅ν, μ‘μ’ κ΄, "μ ν νΈν λ³ν λ° λΉ μ‘°ν₯μ΄ κ°λ₯ν X λμ μ¬κ΅¬μ± νΈλμ€λ° μ΄λ μ΄ μ€κ³", 2022λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, June, 2022.
[158] λλ°μ, νμ΅ν, βIndoor Positing Technique using Combined RSSI Correction method and Genetic Algorithmβ, 2022λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2022.
[157] λΌλλΉμ€μλ½, κ³ νμ, μ‘°μ±μ€, νμ΅ν, βEmbedded Phase Shifter Based Transmitarray for Beam-Steering and Polarizationβ, 2022λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2022.
[156] κΉμ°λΉ, μνλ, λ Έμν, νμ΅ν, ννμ±, μ‘μ’ κ΄ βλ€λ¨κ³ ꡬ면ν νμ₯ κΈ°λ² κΈ°λ° NFFFTλ₯Ό μ μ©ν RCS μμΈ‘ κ°μν μκ³ λ¦¬μ¦ μ°κ΅¬β, 2022λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2022
[155] νλνμ, νμ΅ν, βIRS Network scheme for UAV trajectory optimizationβ, 2022λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2022.
[154] νμ£Όμ΄ν, νμ΅ν, βAnti-Jamming RIS Communication Using DQN Algorithmβ, 2022λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2022.
[153] λΌλ λΉμ€μλ½, νμ΅ν, βDesign of a Reconfigurable Intelligent Surface for 6G Communicationsβ, 2022λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2022.
[152] μ΄κ²½μ, κΉμ§ν, λ Έμν, μ‘μ’ κ΄, νμ΅ν, κΉμ’ μ, "Manufacture of metasurface-based polarization converter using 3D printing technology", 2021 νκ΅μ μ°μΈμμ μνν νμ λν λ Όλ¬Έμ§, Dec, 2021.
[151] μ΄κ²½μ, κΉμ§ν, λ Έμν, μ‘μ’ κ΄, νμ΅ν, κΉμ’ μ, "Digital light process of meta-surface- based polarization converter", 2021λ λ νκ΅μ¬λ£νν μΆκ³νμ λν λ Όλ¬Έμ§, Nov, 2021.
[150] μνλ, κΉμ°λΉ, νμ΅ν, κΉμμ£Ό, μ‘μ’ κ΄, βOpen Cavity ꡬ쑰μ μ ν μ°λ νΉμ± κ·Όμ¬ ν΄μμ μν λ±κ° μ μ λͺ¨λΈλ§β, 2021λ λ νκ΅μ μννν μΆκ³νμ λν λ Όλ¬Έμ§, Nov, 2021.
[149] λ Έμν, μ΄μΈκ³€, κΉνν, νμ΅ν, βX λμ μ¬κ΅¬μ± Transmitarrayμ© μλ λ‘κ·Έ μμμ²μ΄κΈ° μ€κ³β, 2021λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Nov, 2021.
[148] μ΄μΈκ³€, κΉνν, νμ΅ν, βμ ν νΈν λ³ν λ° λΉ μ¬κ΅¬μ±μ΄ κ°λ₯ν νΈλμ€λ° μ΄λ μ΄ μ€κ³β, 2021λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Nov, 2021.
[147] μ΄μΈκ³€, κΉνν, νμ΅ν, βPIN λ€μ΄μ€λλ₯Ό μ΄μ©ν λ€κΈ°λ₯ νΈλμ€λ° μ΄λ μ΄ μ€κ³ μ°κ΅¬β, 2021λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2021.
[146] λ°νΈλμ, νμ΅ν, βA Study of Wireless Channel for the IRS-aided communicationsβ, 2021λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2021.
[145] Do Van An, νμ΅ν, βAdvanced method for Virtual Access Point locationing by smartphoneβ, 2021λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2021.
[144] Pham The Hien, νμ΅ν, βMachine Learning classification of wall thickness using Scattering Parameters and Nicolson-RossWeir methodβ, 2021λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2021.
[143] λΌλλΉμ€μλ½, μ΄μΈκ³€, νμ΅ν, βElectronically Reconfigurable 2-Bit Unit Cell for a Beamforming Transmitarrayβ, 2021λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2021.
[142] μνλ, λ Έμν, μ‘μ’ κ΄, κΉμμ£Ό, νμ΅ν, βμ κΈ°μ λν ꡬ쑰 μ μκΈ° ν΄μμ μν CBFM κΈ°λ° μ μ 체 ν΄μ μκ³ λ¦¬μ¦β, 2021λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2021.
[141] λΌλλΉμ€μλ½, μ΄μΈκ³€, νμ΅ν, βReconfigurable Transmitarray Unit Cell in X-band for Beam-Steering and Polarization Switching Applicationsβ, 2021λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2021.
[140] λ°νΈλμ, νμ΅ν, βA Deep Reinforcement Learning approach for optimizing tile allocation and phase shifts for IRS-aided communicationsβ, 2021λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2021.
[139] λ Έμν, κΉμ°λΉ, μ‘μ’ κ΄, κΉμ κ·, λ°νΈλ―Ό, νμ΅ν, βμμΆ μΌμ± κΈ°λ° μ΄μ° μ μ°λμ λͺ¨λΈλ§μ ν΅ν RCS νΉμ± μΆμΆ λ°©λ²β, 2021λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2021.
[138] κΉμ°λΉ, μνλ, λ Έμν, μ‘μ’ κ΄, κΉμ κ·, λ°νΈλ―Ό, νμ΅ν, βμμμ κ·Όμ κ³ μ€μΊ λ°©μμ μ μ© κ°λ₯ν SWE κΈ°λ° NFFFT μκ³ λ¦¬μ¦ μ°κ΅¬β, 2021λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2021.
[137] Pham The Hien, νμ΅ν, βCompressed sensing method for RCS Synthetic Aperture Radar imagingβ, 2021λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2021.
[136] μ΄μΈκ³€, μ€νμ§, μ€μμ€, μ΅κ΄μ, νμ΅ν, βX-λμ ν¬λͺ μ νν‘μ체 μ€κ³ λ° κ²°ν¨μμ κ²μΆ μ°κ΅¬β, 2021λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2021.
[135] Do Van An, νμ΅ν, βIdentification the Wi-Fi and Bluetooth signal at the same frequency using Software Defined Radioβ, 2021λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2021.
[134] λ ν°μ, νμ΅ν, βSecrecy rate maximization of IRS supported relaying network in presence of eavesdropperβ, 2021λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2021.
[133] μ‘°μ±μ€, νμ΅ν, βUWB νΉμ±μ κ°λ λΉλ°λ μν λ μ€κ³β, 2021λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2021.
[132] μ€μ§μ, νμ΅ν, βCAN Line κΈΈμ΄μ λ°λ₯Έ μ μλΌμΈ λ°©μ¬ λ Έμ΄μ¦ νκ° μΈ‘μ λ°©λ² μ°κ΅¬β, 2020λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2020.
[131] μ‘°μ±μ€, κΉνΈμ§, νμ΅ν, β3D νλ¦°ν κΈ°λ²μ μ΄μ©ν 3μ°¨μ μν₯λ©νλ¬Όμ§ κ΅¬μ‘° μ€κ³β, 2020λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2020.
[130] κΉμ°λΉ, λ Έμν, μνλ, ννμ±, νμ΅ν, μ‘μ’ κ΄ βμμ κ³ RCS λ³νμ μν κ·Όμ κ³ RCS λ°μ΄ν° μ²λ¦¬ μκ³ λ¦¬μ¦ μ°κ΅¬β, 2020λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2020.
[129] Van Phu Tuan, νμ΅ν, βPerformance Analysis of Intelligent Reflecting Surface (IRS) aided NOMA Communication Systemsβ, 2020λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2020.
[128] Biswarup Rana, μ΄μΈκ³€, νμ΅ν, βElectronically Reconfigurable 1-Bit Unit Cell for Transmitarray in X-Bandβ, 2020λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2020.
[127] μ‘°μ±μ€, λ¬Έμ€νΈ, νμ΅ν, β5G ν΅μ DAS μ€κ³κΈ°μ© WR28-Microstrip Transition μ€κ³β, 2020λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2020.
[126] μ΄μΈκ³€, μ€μμ, κΉμ€μ¬, νμ΅ν, βνμ΄λΈλ¦¬λ 볡ν©μ¬ κΈ°λ° μ£Όνμ μ νμ ν‘μ/ν¬κ³Ό ꡬ쑰 μ€κ³β, 2020λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2020.
[125] μ‘°μ±μ€, νμ΅ν, βλ κ³ νμ λΈλ‘μ μ΄μ©ν μ£Όνμ μ ννλ©΄ ꡬ쑰 μ€κ³β, 2020λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2020.
[124] Anees Abbas, νμ΅ν, κΉλ¨, "A UWB Patch Antenna with WLAN Band-Rejection Using EBG Structureβ, 2019λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2019.
[123] μ‘°μ±μ€, μ΄μΈκ³€, νμ΅ν, "μ£Όνμ μ νꡬ쑰μ κ³ μ¨ μ μκΈ°νΉμ± μΈ‘μ μ μν κ°μ΄μ±λ² μ μβ, 2019λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2019.
[122] μ‘°μ±μ€, μ‘μ±νΈ, νμ΅ν, "λ―Έλ κ±΄μΆ μμ¬μΈ ν¬λͺ μ°λμ λν μ μκΈ° νΉμ± λΆμ μ°κ΅¬β, 2019λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2019.
[121] μ΄μν, νμ΅ν, "무μ μ λ ₯μ μ‘ μμ€ν μ λμ€ μκΈ°μ₯ μ κ°μ μν ν¬λͺ λ©νꡬ쑰μ μ€κ³β, 2019λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2019.
[120] Nguyen Trung Kien, νμ΅ν, "Detection of Objects Behind Various Buildings Walls by Synthetic Aperture Radar Imagingβ, 2019λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2019.
[119] μνλ, μ‘μ’ κ΄, νμ΅ν, κΆμν, μ€μμ€, βTCO μ λμ± μ½ν λ μ μ 체μ Monostatic RCS μΈ‘μ λΆμβ, 2019λ λ λ§μ΄ν¬λ‘ν λ° μ νμ ν ν©λ νμ λν λ Όλ¬Έμ§, May, 2019.
[118] κΉμ°λΉ, μ‘μ’ κ΄, νμ΅ν, κΉμ€μ¬, βμ κΈ°μ λν 물체 RCS ν΄μμ μν 근거리-μ거리μ₯ λ³νμ κ΄ν μ°κ΅¬β, 2019λ λ λ§μ΄ν¬λ‘ν λ° μ νμ ν ν©λ νμ λν λ Όλ¬Έμ§, May, 2019.
[117] μ΄μν, μ΄μ¬μ, νμ΅ν, βμΈμκΈ°μ μ μ΄μ©ν NFC νκ·Έμ μ€κ³β, 2019λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2019.
[116] Nguyen Trung Kien, νμ΅ν, βOptimization Technique for 3D FSS Bandwidth Control Designβ, 2019λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2019.
[115] κΉνΈμ§, μ‘°μ±μ€, νμ΅ν, βκ΄λμ ν‘μ/λ°μ¬ νΉμ±μ κ°λ λ§€μ° μμ μ£Όνμ μ νꡬ쑰 μ€κ³β, 2019λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2019.
[114] μ΄μν, κΆμ€λ², κΉμ€μ¬, νμ΅ν, βλλ©΄μ μ£Όνμ μ ν ꡬ쑰μμ λ°μνλ λΆμ°μ ꡬ쑰μ μ μκΈ°νΉμ± λΆμβ, 2019λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2019.
[113] μ΄μΈκ³€, κΆμ€λ², κΉμ€μ¬, νμ΅ν, βμΈμμ μ κΈ°μ κΈ°λ° ν‘μν μ£Όνμ μ νμ ꡬ쑰 μ€κ³β, 2019λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2019.
[112] μ‘°μ±μ€, μ€μ ν, νμ΅ν, βμ¬κ΅¬μ±μ΄ κ°λ₯ν 3μ°¨μ μ£Όνμ μ ννλ©΄ ꡬ쑰 μ€κ³β, 2019λ λ νκ΅μ μννν λκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Feb, 2019.
[111] κΉνΈμ§, μ΄μΈκ³€, νμ΅ν, "UWB μ°¨λ¨/ν‘μ νΉμ±μ κ°λ μ£Όνμ μ ν ν면ꡬ쑰 μ€κ³β, 2018λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2018.
[110] μ‘°μ±μ€, μ΄κΈ°μ , νμ΅ν, "ν½μ°½ νμ°μ μ΄μ©ν λμ μ μ§ μ£Όνμ μ ν νλ©΄ ꡬ쑰 μ€κ³β, 2018λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2018.
[109] μ΄μν, κΉλ―Όμ, κΉμ’ κ·, νμ΅ν, "μ£Όνμ μ ν ꡬ쑰λ₯Ό μ μ©ν μ μκΈ° κ°μ 보μμ©μ§ μ μβ, 2018λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2018.
[108] N. T. Kien, I. G. Lee, O. B. Kwon, Y. J. Kim, and I. P. Hong, "Multilayer Radome Design Using Continuous Ant Colony Optimization Techniqueβ, 2018λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2018.
[107] μ€μ§μ, κΉν΄λ£‘, λ°κΈ°ν, νμ΅ν, "λ°λ체 μμμ μ€λμ λ° νκ΄΄νΉμ±μ μν₯μ λ―ΈμΉλ μ μ κΈ°μ λν μ°κ΅¬β, 2018λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2018.
[106] κΉμ°λΉ, νμ΅ν, κΉμ€μ¬, μ‘μ’ κ΄, β2D ISAR λ₯Ό μ΄μ©ν RCS κΈ°μ¬λ μμΈ‘β, 2018λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2018.
[105] μ΄μΈκ³€, κΉμ€μ¬, μ‘μ’ κ΄, νμ΅ν, βμ£Όνμ μ ννλ©΄ ꡬ쑰λ₯Ό ν¬ν¨νλ νμ΄λΈλ¦¬λ 볡ν©μ¬ ꡬ쑰μ μ΅μ μ€κ³ νλΌλ―Έν° μ°κ΅¬β, 2018λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2018.
[104] μ΄μΈκ³€, κΆμν, μ€μμ€, ν©λ―Όμ , νμ΅ν, βITOν¬λͺ μ½ν ꡬ쑰μ κ΄ν¬κ³Όμ¨κ³Ό μ μννΉμ± κ΄κ³μ°κ΅¬β, 2018λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2018.
[103] μ΄μν, νμ΅ν, βμ£Όνμ μ ν ꡬ쑰 κΈ°μ μ μ΄μ©ν ꡬ쑰물μ κ· μ΄ νμ μμΈ‘β, 2018λ λ νκ΅ν΅μ νν λκ³μ’ ν©νμ λ°νν λ Όλ¬Έμ§, Jan. 2018.
[102] μ΄μΈκ³€, κΉλ¨, μ‘°μΈκ·, νμ΅ν, βμ λ‘ ν¬μμ¨ νΉμ±μ κ°λ λ©νλ¬Όμ§μ μ΄μ©ν 무μ μ λ ₯μ μ‘ μμ€ν μ λμ€ μκΈ°μ₯ μ κ°β, 2018λ λ νκ΅ν΅μ νν λκ³μ’ ν©νμ λ°νν λ Όλ¬Έμ§, Jan. 2018.
[101] μλμ°¬, κΉμ€μ¬, μ ν₯μ¬, νμ΅ν, λ°μ©λ°° "μ μ 체 μ¬λ© λ΄λΆμ λ¬Ό κ΄λ§μ μ΄μ©ν μ¬κ΅¬μ± μ£Όνμ μ ν νλ©΄ μ€κ³ λ° μ μβ, 2017λ λ νκ΅μ μννν μ’ ν©νμ λν λ Όλ¬Έμ§, Nov, 2017.
[100] μ΄μν, μ€μ ν, νμ΅ν, "μ μκΈ°λ²μ λ°λ₯Έ μ£Όνμ μ νꡬ쑰μ μ ν ν¬κ³Ό νΉμ± λΉκ΅β, 2017λ λ νκ΅μ μννν μ’ ν©νμ λν λ Όλ¬Έμ§, Nov, 2017.
[99] μ λ³λ Ή, μ ν₯μ¬, λ°μ©λ°°, νμ΅ν, κΉμ€μ¬, βλ¬Όμ μ¬μ©ν λ§μ΄ν¬λ‘ μ±λνμ FSSμ ꡬ쑰μμ μ± ν΄μβ, 2017λ λ λνκΈ°κ³νν μΆμΆνμ λν, May, 2017.Β
[98] μ‘°μ±μ€, μ΄μν, μ€μ ν, λ°μ±κ· , νμ΅ν, "μ€ν¬λ¦° νλ¦°ν κΈ°λ²μ μ΄μ©ν μ£Όνμ μ νμ ν¬λͺ μ°¨ννλ¦ μ€κ³β, 2017λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2017.
[97] μ΄μν, νμ΅ν, "μ€λ΄κ³΅κ° 무μ LAN μ€ννΈλΌ μ μ΄λ₯Ό μν λ¨μΌνλ©΄ μ΄μ€ λμ μ£Όνμ μ ν ꡬ쑰 μ€κ³β, 2017λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2017.
[96] μ΄μν, νμ΅ν, "X-band μ£Όνμ μ νꡬ쑰λ₯Ό μ΄μ©ν ꡬ쑰물 μμ νμ§β, 2017λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2017.
[95] μ‘°μ±μ€, κΉμ§λ§, νμ΅ν, "κΈ°ν¬ μ½ν¬λ¦¬νΈλ²½μ μ νν¬κ³ΌνΉμ±μ μμΈ‘νκΈ° μν μ μ νΉμ± λͺ¨λΈλ§β, 2017λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2017.
[94] μλμ°¬, κΉμ€μ¬, νμ΅ν, μ ν₯μ¬, λ°μ©λ°°, "μ 체 κ΄λ§μ΄ μ½μ λ λ€μΈ΅ μ¬λ©μ μ μν ν¬κ³Ό νΉμ± λΆμβ, 2017λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2017.
[93] μ΄μΈκ³€, κΉλ¨, μ‘°μΈκ·, νμ΅ν, "ν¨ν΄νλ μ°μμ±μ²΄λ₯Ό μ΄μ©ν μ μ£Όν 무μ μ λ ₯μ μ‘ μμ€ν μ λμ€ μκΈ°μ₯ μ κ° κ΅¬μ‘° μ€κ³β, 2017λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2017.
[92] μ΄μΈκ³€, λ°μ©λ°°, μ ν₯μ¬, κΉμ€μ¬, νμ΅ν, βλ¨μΌ 곑λ₯ μ κ°λ 볡ν©μ¬ ꡬ쑰 κΈ°λ°μ λ₯λ μ£Όνμ μ νꡬ쑰 μ€κ³β, 2017λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2017.
[91] λ°μ°¬μ , νμ΅ν, μ ν₯μ¬, λ°μ©λ°°, κΉμ€μ¬, μ‘μ’ κ΄, βμ μκΈ° λνꡬ쑰 ν΄μμ μν CBFM λΈλ‘ ν¬κΈ° μ΅μ ν κ³Όμ μ€ impedance matrix filling time μν₯ λΆμβ, 2017λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2017.
[90] μ΄μΈκ³€, λ°ννΈ, μ΅μμ£Ό, μ€μ ν, νμ΅ν, βμ€ν¬λ¦° νλ¦°ν κΈ°λ²μ μ΄μ©ν νλ¦ν μ£Όνμ μ ν ν면ꡬ쑰 μ€κ³β, 2017λ λ νκ΅ν΅μ νν λκ³μ’ ν©νμ λ°νν λ Όλ¬Έμ§, Jan. 2017.
[89] μ‘°μ±μ€, νμ΅ν, βλ€μν κ±΄μΆ μμ¬μ λν μ ν ν¬κ³ΌνΉμ± μΈ‘μ β, 2017λ λ νκ΅ν΅μ νν λκ³μ’ ν©νμ λ°νν λ Όλ¬Έμ§, Jan. 2017.
[88] μ μ±ν, μ ν₯μ¬, νμ΅ν, λ°μ©λ°°, κΉμ€μ¬, βλ―ΈμΈμ 체κ΄λ§κ΅¬μ‘° μ£Όνμ μ νμ ν¬κ³Όλ§μ ꡬ쑰μ μμ μ± λ° μ£Όνμ ν¬κ³Ό νΉμ±μ λν μ°κ΅¬β, λνκΈ°κ³νν 2016λ λ νμ λν, Dec, 2016.
[87] μ‘°μ±μ€, κΉμ§λ§, νμ΅ν, "κ³ λ‘μ¬λκ·Έλ₯Ό ν¬ν¨ν μΉνκ²½ μ½ν¬λ¦¬νΈμ μ μ μ¨ νΉμ±β, 2016λ λ νκ΅μ μννν μ’ ν©νμ λν λ Όλ¬Έμ§, Dec, 2016.
[86] μ΄μν, νμ΅ν, "Four Circle Fractal ꡬ쑰λ₯Ό μμ©ν μ΄μ€λμ μ£Όνμ μ ν ꡬ쑰 μ€κ³β, 2016λ λ νκ΅μ μννν μ’ ν©νμ λν λ Όλ¬Έμ§, Dec, 2016.
[85] μλμ°¬, κΉμ€μ¬, νμ΅ν, μ ν₯μ¬, λ°μ©λ°°, "λ―ΈμΈμ 체κ΄λ§μ μ΄μ©ν μ¬κ΅¬μ± μ£Όνμ μ ν νλ©΄ μ€κ³ λ° μ μβ, 2016λ λ νκ΅μ μννν μ’ ν©νμ λν λ Όλ¬Έμ§, Dec, 2016.
[84] μ μ±ν, μ ν₯μ¬, νμ΅ν, λ°μ©λ°°, κΉμ€μ¬, βλ―ΈμΈμ 체κ΄λ§μ μ΄μ©ν μ¬κ΅¬μ± μ£Όνμ μ νμ ν¬κ³Όλ§μ ꡬ쑰μ μμ μ± λ° μ£Όνμ ν¬κ³Ό νΉμ±β, 2016νκ΅μ μ°κ΅¬μ‘°κ³΅νν νμ μ¬ν¬μ§μ, Nov, 2016.
[83] μ μ±ν, μ ν₯μ¬, νμ΅ν, λ°μ©λ°°, κΉμ€μ¬, βλ₯λν μ£Όνμ μ νμ ν¬κ³Όλ§μ΄ κ²°ν©λ νμ΄λΈλ¦¬λ 볡ν©μ¬λ£μ ꡬ쑰μ μμ μ± λΆμβ, 2016νκ΅μ μ°κ΅¬μ‘°κ³΅νν νμ μ¬ν¬μ§μ, Nov, 2016.
[82] μ΄μΈκ³€, λ°μ©λ°°, μ ν₯μ¬, κΉμ€μ¬, νμ΅ν "X-bandμμ λμνλ μ μ° λ₯λ μ£Όνμ μ ν ꡬ쑰 μ€κ³β, 2016λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μΆκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Nov, 2016.
[81] κ°μ€μ, κ°λ³λ¨, μ΄μΉμ°, νμ΅ν, κΉλ¨, "Study on the analytic methods of EMF effect radiated by the commercial wireless power charging deviceβ, μ 20ν μ μκΈ°μ₯μ μ체μν₯μ κ΄ν μν¬μ, Aug, 2016.
[80] μ΄μν, μ€μ ν, λ°ννΈ, λ°μ±κ· , νμ΅ν, "μμ μΈμν μ€ν¬λ¦° νλ¦°ν κΈ°λ²μ μ΄μ©ν 13.56MHz NFC νκ·Έ μ€κ³ λ° μ μβ, 2016λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2016.
[79] μ‘°μ±μ€, νμ΅ν, "μν¬μ ― νλ¦°ν (Inkjet printing) κΈ°μ μ μ΄μ©ν μ¬κ΅¬μ± μ£Όνμ μ ν ν면ꡬ쑰 μ€κ³β, 2016λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2016.
[78] μ΄μΈκ³€, μ΄μΉμ°, κΉλ¨, νμ΅ν, μ‘°μΈκ·, "WPC Qi-A10 μ½μΌ 근거리μ₯ λΆμ λ° μ°μμ±μ²΄λ₯Ό μ΄μ©ν λμ€ μκΈ°μ₯ μ κ° μ°κ΅¬β, 2016λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2016.
[77] μ΄μΈκ³€, νμ΅ν, "μ μ¬νμ νΈνμ μ μ¬κ°μ μμ μ μΈ μ±λ₯μ κ°λ μννλ μ£Όνμ μ ν ν면ꡬ쑰μ μ€κ³β, 2016λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2016.
[76] μ΄μΈκ³€, λ°μ©λ°°, μ ν₯μ¬, κΉμ€μ¬, νμ΅ν, "PIN λ€μ΄μ€λλ₯Ό μ΄μ©ν Four-legged loaded element κΈ°λ° X-band μ¬κ΅¬μ± μ£Όνμ μ νꡬ쑰β, 2016λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2016.
[75] μλμ°¬, μ νΈκ·Ό, κΉμ€μ¬, νμ΅ν, μ ν₯μ¬, λ°μ©λ°°, "λ―ΈμΈ μ 체κ΄λ§μ΄ μ½μ λ μ μ 체 μ¬λ©μμμ μ μν ν¬κ³Ό λΆμβ, 2016λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2016.
[74] μ μ±ν, νμ΅ν, λ°μ©λ°°, κΉμ€μ¬, μ ν₯μ¬, βλ²λν° λ€μ΄μ€λλ₯Ό μ΄μ©ν λ₯λν μ£Όνμ μ ν ν¬κ³Όλ§μ΄ μ½μ λ νμ΄λΈλ¦¬λ 볡ν©μ¬λ£ ννμ μ μμ λ°λ₯Έ μλ₯μ΄μλ ₯μ κ΄ν μ°κ΅¬β, λνκΈ°κ³νν CAE λ° μμ©μνλΆλ¬Έ 2016λ λ μΆκ³νμ λν λ Όλ¬Έμ§, Apr. 2016.
[73] λ°μ°¬μ , μ μ΄λ£¨, νμ΅ν, μ ν₯μ¬, λ°μ©λ°°, κΉμ€μ¬, μ‘μ’ κ΄, βCBFMμ νμ©ν 곑면 νμ FSS λ μ΄λ ν΄μβ, 2016 μ€ν μ€κΈ°μ νμ λν λ Όλ¬Έμ§, Feb. 2016.
[72] κΉμ§ν, μ ν₯μ¬, νμ΅ν, κΉμ€μ¬, λ°μ©λ°° βFSS λ μ΄λ λ΄λΆ μν λ°°μ΄ μν λμ μ μν λ³΅μ¬ ν΄μβ, 2016 μ€ν μ€κΈ°μ νμ λν λ Όλ¬Έμ§, Feb. 2016.
[71] μ΅μ¬μΌ, νμ΅ν, λ°μ©λ°°, μ ν₯μ¬, κΉμ€μ¬, βλ―ΈμΈκ΄λ§μ΄ μ½μ λ 볡ν©μ¬λ£ λ μ΄λμ κΈ°κ³μ νΉμ± μ°κ΅¬β, 2016 μ€ν μ€κΈ°μ νμ λν λ Όλ¬Έμ§, Feb. 2016.
[70] μ΅μ¬μΌ, νμ΅ν, λ°μ©λ°°, μ ν₯μ¬, κΉμ€μ¬, βνμ΄λΈλ¦¬λ 볡ν©μ¬λ£ νν μ μκ³Όμ μμ λ°μνλ μλ₯μλ ₯μ΄ λ₯λν μ£Όνμ μ νλ§μ λ―ΈμΉλ μν₯μ λν μ°κ΅¬β, 2016 μ€ν μ€κΈ°μ νμ λν λ Όλ¬Έμ§, Feb. 2016.
[69] μ ν₯μ¬, μ μ±ν, νμ΅ν, λ°μ©λ°°, κΉμ€μ¬, βλ²λν° λ€μ΄μ€λκ° μ½μ λ λ₯λν μ£Όνμ μ νλ§μ΄ μ μ©λ νμ΄λΈλ¦¬λ 볡ν©μ¬λ£ ννμ μ μκΈ° νΉμ±μ κ΄ν μ°κ΅¬β, 2016 μ€ν μ€κΈ°μ νμ λν λ Όλ¬Έμ§, Feb. 2016.
[68] μ΄μΈκ³€, λ°μ°¬μ , κΉμ€μ¬, λ°μ©λ°°, μ ν₯μ¬, μ‘μ’ κ΄, νμ΅ν, βPIN λ€μ΄μ€λλ₯Ό μ΄μ©ν X-band μ¬κ΅¬μ± μ£Όνμ μ ν ν면ꡬ쑰 μ€κ³β, 2016 μ€ν μ€κΈ°μ νμ λν λ Όλ¬Έμ§, Feb. 2016.
[67] μ‘°μ±μ€, λ°μ’ ν, μ΄μΈκ³€, νμ΅ν, βμ€ννΈλΌ μΌμ±μ μ΄μ©ν μ£Όνμ μ νꡬ쑰 μ μ΄ μμ€ν μ€κ³β, 2016λ λ νκ΅ν΅μ νν λκ³μ’ ν©νμ λ°νν λ Όλ¬Έμ§, Jan. 2016.
[66] κΉμ’ μ°¬, μ΄μΉμ°, νμ΅ν, κΉλ¨, μ‘°μΈκ·, βμμ©λ¬΄μ μΆ©μ μ½μΌμ μ¬μ©λ νλΌμ΄νΈμ ꡬ쑰λ³νμ λ°λ₯Έ μ½μΌμ μκΈ°μ₯μ λ³νβ, 2015λ λ νκ΅μ μννν μ’ ν©νμ λν λ Όλ¬Έμ§, Nov. 2015.
[65] μ΄μΉμ°, κΉμ’ μ°¬, κ°μ€μ, νμ΅ν, κΉλ¨, μ‘°μΈκ·, β무μ μΆ©μ μ₯μΉμ νλΌμ΄νΈ ꡬ쑰 λ³νμ λ°λ₯Έ μ μνμΈμ²΄μν₯ λΆμβ, 2015λ λ νκ΅μ μννν μ’ ν©νμ λν λ Όλ¬Έμ§, Nov. 2015.
[64] κΉμ§ν, λ°μ©λ°°, μ ν₯μ¬, νμ΅ν, κΉμ€μ¬, βμ μ 체 λ μ΄λ λ΄λΆ λ°°μ΄ μν λ λ³΅μ¬ νΉμ± ν΄μβ, 2015λ λ νκ΅μ μννν μ’ ν©νμ λν λ Όλ¬Έμ§, Nov. 2015.
[63] μ΅μ¬μΌ, νμ΅ν, λ°μ©λ°°, κΉμ€μ¬, μ ν₯μ¬, βλ―ΈμΈκ΄λ§μ μ΄μ©ν μ£Όνμ μ νμ ν¬κ³Όλ§μ΄ κ²°ν©λ 볡ν©μ¬μ κΈ°κ³μ νΉμ±μ°κ΅¬β, 2015λ λ λνκΈ°κ³νν νμ λν, Nov. 2015.
[62] μ μ±ν, λ°λ²μ² , μ ν₯μ¬, λ°μ©λ°°, νμ΅ν, κΉμ€μ¬, βλ₯λν μ£Όνμ μ νλ§μ΄ μ μ©λ νμ΄λΈλ¦¬λ νν 볡ν©μ¬λ£ ꡬ쑰μ μ μμ λ°λ₯Έ μλ₯μλ ₯μ λν μ°κ΅¬β, 2015λ λ λνκΈ°κ³νν νμ λν, Nov. 2015.
[61] μ μ΄λ£¨, νμ΅ν, λ°μ©λ°°, μ ν₯μ¬, κΉμ€μ¬, μ‘μ’ κ΄, "Calderon multiplicative preconditionerκ° μ μ©λ EFIE-TDS νλ©΄ μ λΆ λ°©μ μμ μ΄μ©ν FSS λ μ΄λμ ν΄μβ, 2015λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μΆκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Nov, 2015.
[60] μ΄μ¬κ±΄, μ΄μΈκ³€, λ°μ±κ· , νμ΅ν, βμ€λ¦°λν μ μ μ©λ μΌμ λ° λ³μ μΈ‘μ μμ€ν μ€κ³β, 2015λ λ νκ΅μ 보ν΅μ νν μΆκ³νμ λν λ Όλ¬Έμ§, Oct, 2015.
[59] μ μ΄λ£¨, νμ΅ν, λ°μ©λ°°, μ ν₯μ¬, κΉμ€μ¬, μ‘μ’ κ΄, "EFIE-TDSλ₯Ό μ΄μ©ν FSS λ μ΄λμ ν΄μβ, 2015λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2015.
[58] λ°λ²μ² , μ΅μ¬μΌ, μμ€μ, μ ν₯μ¬, νμ΅ν, λ°μ©λ°°, κΉμ€μ¬, βνμ΄λΈλ¦¬λ 볡ν©μ¬λ₯Ό μ΄μ©ν λ₯λν μ£Όνμ μ νꡬ쑰 μ€κ³ κΈ°λ²β, 2015λ λ λνκΈ°κ³νν CAE λ° μμ©μν λΆλ¬Έ μΆκ³ νμ λν λ Όλ¬Έμ§, Apr, 2015.
[57] νμ΅ν, βμ€ν μ€ μ±λ₯μ κ°λ X-band ν¬λͺ μ νν‘μꡬ쑰 μ€κ³β, 2015λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2015.
[56] μ΄μΈκ³€, νμ΅ν, β건μΆλ¬Ό μμ©μ μν μ’ μ΄κΈ°λ° μ£Όνμ μ ν ν면ꡬ쑰μ μ€κ³β, 2015λ λ νκ΅μ 보ν΅μ νν μΆκ³μ’ ν©νμ λν λ Όλ¬Έμ§, May, 2015.
[55] μ΄μ±ν, μ΄μ¬κ±΄, κ°μ©μ£Ό, νμ΅ν, βμ μ μ€λ¦°λ λ΄ νΌμ€ν€ μμΉμΈ‘μ μ μν μ μ μ©λ μΌμ μ€κ³β, 2015λ λ νκ΅μ 보ν΅μ νν μΆκ³μ’ ν©νμ λν λ Όλ¬Έμ§, May, 2015.
[54] κΉμ§ν, λ°μ©λ°°, μ ν₯μ¬, νμ΅ν, κΉμ€μ¬, "μλΏ ννμ FSS λ μ΄λ μ μν ν΄μβ, 2014λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2014.
[53] λ°μ°¬μ , μ μ΄λ£¨, νμ΅ν, μ ν₯μ¬, λ°μ©λ°°, κΉμ€μ¬, μ‘μ’ κ΄, "2μΈ΅ FSSλ₯Ό ν¬ν¨νλ Radome ꡬ쑰μ Registration Sensitivityβ, 2014λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2014.Β
[52] κΉμ§ν, λ°μ©λ°°, μ ν₯μ¬, νμ΅ν, κΉμ€μ¬ βλ°°μ΄ μν λκ° λ΄λΆμ μλ Von Karman ꡬ쑰μ FSS λ μ΄λ μ ν νΉμ± ν΄μβ, 2014λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jul, 2014.
[51] μ μ΄λ£¨, νμ΅ν, μ ν₯μ¬, λ°μ©λ°°, κΉμ€μ¬, μ‘μ’ κ΄ β곑면 FSSμ ν¨μ¨μ μΈ ν΄μβ, 2014λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jul, 2014.
[50] κΉκ²½λ―Ό, μμ€μ, μ ν₯μ¬, νμ΅ν, λ°μ©λ°°, κΉμ€μ¬, βν¨μΉλ°°μ΄κ³Ό 그리λ ꡬ쑰λ₯Ό κ°λ λ₯λν μ£Όνμ μ νμ ν¬κ³Όλ§μ΄ μ μ©λ νμ΄λΈλ¦¬λ νν 볡ν©μ¬λ£μ μ£Όνμ ν¬κ³Ό νΉμ± μ°κ΅¬β, 2014λ λ νκ΅λ³΅ν©μ¬λ£νν μΆκ³νμ λν, May, 2014.
[49] μ΄μΈκ³€, νμ΅ν, βμ€λ§νΈ λΉλ©μ μν 3μ°¨μ μ£Όνμ μ νꡬ쑰 μ€κ³β, 2014λ λ μΆκ³ λ§μ΄ν¬λ‘ν λ° μ ν νμ λν λ Όλ¬Έμ§, Vol.37, No.1, May, 2014.
[48] μ μ΄λ£¨, νμ΅ν, μ ν₯μ¬, λ°μ©λ°°, κΉμ€μ¬, μ‘μ’ κ΄ βCalderon Preconditionerλ₯Ό μ΄μ©ν FSSμ ν΄μβ, 2013λ λ νκ΅μ μννν μ’ ν©νμ λ°νν λ Όλ¬Έμ§, Dec, 2013.
[47] μ΄μΈκ³€, νμ΅ν, βμ μ¬κ° μμ μ±μ κ°λ 3D μ£Όνμ μ νμ νλ©΄ ꡬ쑰μ€κ³β, 2013λ λ νκ΅μ μννν μ’ ν©νμ λ°νν λ Όλ¬Έμ§, Dec, 2013.
[46] λ°μ°¬μ , μ μ΄λ£¨, νμ΅ν, μ ν₯μ¬, λ°μ©λ°°, κΉμ€μ¬, μ‘μ’ κ΄ βλͺ¨λ©νΈ λ²μ μ΄μ©ν λ€μΈ΅ ꡬ쑰 FSS λ μ΄λμ μ°λ νΉμ± ν΄μβ, 2013λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2013.
[45] μ΄μΈκ³€, νμ΅ν, μμ€μ, μ ν₯μ¬, λ°μ©λ°°, μ‘°μ°½λ―Ό βλ¨Έμ¬λ£Έ ꡬ쑰λ₯Ό μμ©ν μ¬κ΅¬μ± FSSμ€κ³β, 2013λ λ νκ΅μ μννν νκ³μ’ ν©νμ λν λ Όλ¬Έμ§, Aug, 2013.
[44] μ΄μΈκ³€, νμ΅ν, λ°μ©λ°°, μ ν₯μ¬, κΉμ€μ¬ βμ μ°μ±μ κ°λ X-band λ₯λ μ£Όνμ μ νꡬ쑰 μ€κ³β, 2013λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jul, 2013.
[43] κΉμ§ν, λ°μ©λ°°, μ ν₯μ¬, νμ΅ν, κΉμ€μ¬ βTangent-Ogive ꡬ쑰μ FSS λ μ΄λ μ ν νΉμ± ν΄μβ, 2013λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jul, 2013.
[42] μ μ΄λ£¨, νμ΅ν, μ ν₯μ¬, λ°μ©λ°°, κΉμ€μ¬, μ‘μ’ κ΄ βMoM κΈ°λ²κ³Ό Pade κ·Όμ¬λ²μ μ΄μ©ν μ νν FSSμ ν΄μβ, 2013λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jul, 2013.
[41] μμ€μ, λ°κ²½λ―Έ, μ ν₯μ¬, λ°μ©λ°°, νμ΅ν, κΉμ€μ¬, βμ£Όνμ μ νλ§μ΄ μ½μ λ 볡ν©μ¬νμ΄λΈλ¦¬λ ꡬ쑰μ 곑λ₯ μ΄ μ€νλ§λ°± ν¨κ³Όμ λ―ΈμΉλ μν₯β, 2013λ λνκΈ°κ³κ³΅νν CAEλ° μμ©μν λΆλ¬Έ μΆκ³νμ λν, May, 2013.
[40] λ°κ²½λ―Έ, μμ€μ, μ ν₯μ¬, λ°μ©λ°°, νμ΅ν, κΉμ€μ¬, βνΌμ΄ N-pole ν¨ν΄μ κ°μ§λ μ£Όνμ μ νμ ν¬κ³Όλ§μ΄ κ²°ν©λ νμ΄λΈλ¦¬λ ꡬ쑰μ μ ν νΉμ±μ λ―ΈμΉλ μν₯β, 2013λ λ νκ΅λ³΅ν©μ¬λ£νν μΆκ³νμ λν, May, 2013.
[39] λ°κ²½λ―Έ, μμ€μ, μ ν₯μ¬, λ°μ©λ°°, νμ΅ν, κΉμ€μ¬, βμ£Όνμ μ νλ§μ΄ μ½μ λ 볡ν©μ¬ ννμ μ€νλ§ λ°± ν¨κ³Όβ, νκ΅μ μ°κ΅¬μ‘°κ³΅νν 2013 μ κΈ°νμ λν, Apr, 2013.
[38] λ°μ°¬μ , μ μ΄λ£¨, νμ΅ν, μ ν₯μ¬, μ΄λͺ 건, μ‘μ’ κ΄, βμ£ΌκΈ°μ 3κ° μμ λ°°μ΄μ μ°λνΉμ± ν΄μβ, 2013 μ€ν μ€κΈ°μ νμ λν, Feb, 2013.
[37] κΉμ§ν, λ°μ©λ°°, μ ν₯μ¬, νμ΅ν, μ΄λͺ 건, βκΈ°ν κ΄νλ² λ° λ¬Όλ¦¬ κ΄νλ²μ μ΄μ©ν FSS λ μ΄λ μ ννΉμ± ν΄μβ, 2013 μ€ν μ€κΈ°μ νμ λν, Feb, 2013.
[36] μ μ΄λ£¨, νμ΅ν, μ ν₯μ¬, μ΄λͺ 건, μ‘μ’ κ΄, βAWEλ₯Ό μ΄μ©ν κ΄λμ μ°λ νΉμ± ν΄μβ, 2013 μ€ν μ€κΈ°μ νμ λν, Feb, 2013.
[35] μμ€μ, λ°κ²½λ―Έ, μ ν₯μ¬, νμ΅ν, λ°μ©λ°°, μ΄λͺ 건, βλ€μ€ μν루ν μ£Όνμ μ νμ ν¬κ³Όλ§ νμ΄λΈλ¦¬λ 볡ν©μ¬λ£μ μ±ν 건μ μ± νκ°β, 2013 μ€ν μ€κΈ°μ νμ λν, Feb, 2013.
[34] λ°κ²½λ―Έ, ν©μΈν, μ ν₯μ¬, νμ΅ν, λ°μ©λ°°, μ΄λͺ 건, βN-pole μ’ λ₯μ μ£Όνμ μ νμ ν¬κ³Όλ§μ κ²°ν©ν νΌ μ½μ μλμμΉ λ³΅ν©μ¬ ꡬ쑰μ μλ₯μλ ₯μ°κ΅¬β, 2012λ λ νκ΅λ³΅ν©μ¬λ£νν μΆκ³νμ λν λ Όλ¬Έμ§, Nov, 2012.
[33] λ°κ²½λ―Έ, ν©μΈν, μ ν₯μ¬, νμ΅ν, λ°μ©λ°°, μ΄λͺ 건, β루ννμ μ£Όνμ μ νμ ν¬κ³Όλ§μ κ²°ν©ν νΌμ½μ μλμμΉ λ³΅ν©μ¬ μ μΈ΅ ꡬ쑰μ μλ₯μλ ₯ μ°κ΅¬β, 2012λ λ λνκΈ°κ³νν μΆκ³νμ λν λ Όλ¬Έμ§, Nov, 2012.
[32] λ°κ²½λ―Έ, ν©μΈν, μ ν₯μ¬, μ΄λͺ 건, νμ΅ν, λ°μ©λ°°, βDipoleκ³Ό Tri-pole μ£Όνμ μ νμ ν¬κ³Όλ§μ΄ κ²°ν©λ 볡ν©μ¬μ μλ₯μλ ₯μ λν μ°κ΅¬β, 2012λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2012.
[31] κ°κ²½ν, ν©μΈν, μ ν₯μ¬, νμ΅ν, μ΄λͺ 건, βμ¬κ°λ£¨ν νμ μ£Όνμ μ νμ ν¬κ³Όλ§ 볡ν©μ¬μ μλ₯μλ ₯μ λν μ°κ΅¬β, 2012λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2012.
[30] κΉμ§ν, λ°μ©λ°°, μ ν₯μ¬, νμ΅ν, μ΄λͺ 건, βμν κ°κ΅¬λ©΄μ΄ μλ ν¨μ²΄λ‘λΆν°μ λ³΅μ¬ μ μκΈ°μ₯ κ³μ°β, 2012λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2012.
[29] μ μ΄λ£¨, νμ΅ν, μ ν₯μ¬, μ΄λͺ 건, μ‘μ’ κ΄, βμμν ν¨μΉκ΅¬μ‘°λ₯Ό μ΄μ©ν μν΅ν FSSμ μ°λνΉμ± ν΄μβ, 2012λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2012.
[28] μ΄μΈκ³€, μ΄μλ―Ό, νμ΅ν, μ κ΄μ°, βν΄μ μΈλͺ ꡬ쑰 μμ€ν μ μν λ€μ€ μν λ μ€κ³β, 2012λ λ νκ΅μ 보기μ νν μΆκ³νμ λν λ Όλ¬Έμ§, May. 2012
[27] ν©μΈν, μ ν₯μ¬, κ°κ²½ν, νμ΅ν, μ΄λͺ 건, βμ£Όνμ μ νμ ν¬κ³Όλ§μ΄ μ½μ λ 볡ν©μ¬μ κΈμν¨ν΄μ λ³νμ μν μ£Όνμ λ³νμ κ΄ν μ°κ΅¬β, 2011λ λ νκ΅λ³΅ν©μ¬λ£νν μΆκ³νμ λν λ Όλ¬Έμ§, Nov, 2011.
[26] κ°κ²½ν, μ ν₯μ¬, ν©μΈν, κΉκ°μ°, μ΄λͺ 건, νμ΅ν. βμ£Όνμ μ νμ ν¬κ³Όλ§μ΄ κ²°ν©λ 볡ν©μ¬λ£μ μλ₯μλ ₯μ λ°λ₯Έ μ£Όνμ λ³ν μμΈ‘β, 2011λ λ λνκΈ°κ³νν μΆκ³νμ λν λ Όλ¬Έμ§, Nov, 2011.
[25] ν©μΈν, μ ν₯μ¬, κ°κ²½ν, κΉκ°μ°, μ΄λͺ 건, νμ΅ν, βκΈμ ν¨ν΄μ΄ λ€μ΄κ° 볡ν©μ¬λ£ λΌλ―Έλ€μ΄νΈμ μλ₯μλ ₯μμΈ‘ λ° κ²μ¦β, 2011λ λ λνκΈ°κ³νν μΆκ³νμ λν λ Όλ¬Έμ§, Nov, 2011.
[24] μ΄μΈκ³€, νμ΅ν, β체μ€ν ννλ₯Ό κ°λ λ€μ€ λμ μ£Όνμ μ νꡬ쑰 μ€κ³β, 2011λ λ νκ΅μ μννν μ ν λ° κ΄ννμ λν λ Όλ¬Έμ§, Nov, 2011.
[23] κ°κ²½ν, ν©μΈν, μ ν₯μ¬, νμ΅ν, μ΄λͺ 건, βμ£Όνμ μ νμ ν¬κ³Όλ§μ΄ κ²°ν©λ 볡ν©μ¬λ£μ μ€νλ§ λ°± μμΈ‘β, 2011λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2011.
[22] μ μ΄λ£¨, νμ΅ν, μ‘μ’ κ΄, μ ν₯μ¬, μ΄λͺ 건, βꡬν μ μ 체μ μλ μν ν¨μΉμ 곡μ§μ£Όνμμ λ°©μ¬ν¨ν΄ κ³μ°β, 2011λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2011.
[21] μ΄μΈκ³€, μ μ±λ―Ό, νμ΅ν, β무μ LANμ© λ€μ΄ν΄ ꡬ쑰 ννν μν λ μ€κ³β, 2011λ λ μΆκ³ λ§μ΄ν¬λ‘ν λ° μ ν νμ λν λ Όλ¬Έμ§, Vol.34, No.1, Jun, 2011.
[20] μ μ΄λ£¨, νμ΅ν, μ‘μ’ κ΄, μ ν₯μ¬, μ΄λͺ 건, βμμ 곡κ°μμ ꡬνν¨μΉμ 곡μ§νΉμ± ν΄μβ, 2011λ λ μΆκ³ λ§μ΄ν¬λ‘ν λ° μ ν νμ λν λ Όλ¬Έμ§, Vol.34, No.1, Jun, 2011.
[19] κΉκ°μ°, μ ν₯μ¬, νμ΅ν, κ°κ²½ν, μ΄λͺ 건, βμ£Όνμ μ νμ ν¬κ³Όλ§μ΄ κ²°ν©λ 볡ν©μ¬λ£μ μλ₯μλ ₯νκ°β, κ΅λ°©κ³Όνμ°κ΅¬μ μ°½μ€ 40μ£Όλ κΈ°λ μ’ ν©νμ λν λ Όλ¬Έμ§, Aug. 2010.
[18] μ΄κ²½μ, νμ΅ν, μ‘μ’ κ΄, μ ν₯μ¬, μ‘°μ°½λ―Ό, βPSOλ₯Ό μ΄μ©ν μ£Όνμ μ νμ νλ©΄ μ€κ³β, 2010λ λ νκ΅κ΅°μ¬κ³ΌνκΈ°μ νν μ’ ν©νμ λν λ Όλ¬Έμ§, Jun, 2010.
[17] μ μμ§, μμμ, νμ΅ν, βWLAN/PCS λμ λ§μ΄ν¬λ‘μ€νΈλ¦½ ν¨μΉ μ¬κ΅¬μ±μν λβ, 2010λ λ μΆκ³ λ§μ΄ν¬λ‘ν λ° μ ν νμ λν λ Όλ¬Έμ§, Vol.33, No.1, Jun, 2010.
[16] μ΄κ²½μ, νμ΅ν, μ‘μ’ κ΄, βPSOλ₯Ό μ΄μ©ν Jaumann ν‘μ체 μ€κ³β, 2010λ λ μΆκ³ λ§μ΄ν¬λ‘ν λ° μ ν νμ λν λ Όλ¬Έμ§, Vol.33, No.1, Jun, 2010.
[15] μμμ, νμ΅ν, βμλ‘μ΄ μ΄μ€ μ€νΌλΌμΈ ꡬ쑰μ μν λμ μ΅μ νν° νΉμ± β, 2009λ λ νκ΅ν΅μ νν νκ³μ’ ν©νμ λν, Vol.28, No.1, Jun, 2009.
[14] μμΆμ°, μ΄κ²½μ, λ°λ²μ€, νμ΅ν ,μ‘μ’ κ΄, "νκ³΅μ© κ΄λμ λ μ΄λ λΆμ λ° μ€κ³", μ 12μ°¨ ADD ν΅μ μ μνμ λν, Oct. 2008.
[13] μ΄μ¬μ , νμ΅ν, λ°νκ·, βConformal Mapping λ°©λ²μ μ΄μ©ν μ ν μ μ 체 μμ CPW κ²°ν©μ λ‘μ ν΄μβ, 1998λ λ νκ΅ν΅μ νν μΆκ³μ’ ν©νμ λν, Vol.17, No.2, Nov, 1998.
[12] λ°μ λ―Ό, νμ΅ν, λ°νκ·, βμ νμ±μ΄ μ°μν GaAs MESFET λ¨μΌνν μ νμ± μ£Όνμ νΌν©κΈ°μ μ€κ³β, 1998λ λ μΆκ³ λ§μ΄ν¬λ‘ν λ° μ ν νμ λν λ Όλ¬Έμ§, Vol.21, No.2,Sep, 1998.
[11] λ°μ λ―Ό, νμ΅ν, λ°νκ·, βμ νμ±μ΄ μ°μν μ νμ± λ―ΉμκΈ°μ μ€κ³β, 1998λ λ νκ΅ν΅μ νν νκ³μ’ ν©νμ λν, Vol.17, No.1, Jul, 1998.
[10] μ΄μ¬μ , νμ΅ν, λ°νκ·, βConformal Mapping λ°©λ²μ μ΄μ©ν λ체μ μ§λ₯Ό κ°μ§ λμΌνλ©΄ κ²°ν©μ λ‘μ ν΄μβ, 1998λ λ μΆκ³ λ§μ΄ν¬λ‘ν λ° μ ν νμ λν λ Όλ¬Έμ§, Vol.21, No.1, May, 1998.
[9] μ΅μ©μ£Ό, νμ΅ν, λ°νκ·, βλΉμ ν μ λ ₯μ¦νκΈ°λ₯Ό μν Schottky Diode μ ννκΈ° μ€κ³β, νκ΅ν΅μ νν μΆκ³μ’ ν©νμ λν, Vol.16, No.2, Nov, 1997.
[8] κΉκ±΄μ±, νμ΅ν, λ°νκ·, βλ€μ€μ¬λ‘―ꡬ쑰λ₯Ό μ΄μ©ν λμν΅κ³Ό μ¬νκΈ°μ κ΄ν μ°κ΅¬β, νκ΅ν΅μ νν νκ³μ’ ν©νμ λν, Vol.16, No.1, Jul, 1997.
[7] μ₯λ³μ€, νμ΅ν, λ°νκ·, βCDMA μλ°©ν₯ λ§ν¬ μ‘μ λΆμ μ νμ곑ν¨κ³Ό λΆμβ, 1997λ λ μΆκ³ λ§μ΄ν¬λ‘ν λ° μ νμ νμ°κ΅¬ν νμ λ°νν λ Όλ¬Έμ§, Vol.20, No.1, May, 1997.
[6] μ νν, νμ΅ν, λ°νκ·, βμ£Όνμ μμ ν΄μλ²μ μ΄μ©ν κ΄μκ²°ν© λμΌ νλ©΄ λνκ΄ μ λ‘μ νΉμ±ν΄μβ, 1997 λ λ μΆκ³ λ§μ΄ν¬λ‘ν λ° μ νμ νμ°κ΅¬ν νμ λ°νν λ Όλ¬Έμ§ Vol.20, No.1, May, 1997.
[5] μ€νꡬ, νμ΅ν, λ°νκ·, βQuasi 3D Ray Tracingμ μ΄μ©ν μ€λ΄μ ννΉμ± ν΄μβ, νκ΅ν΅μ νν μΆκ³μ’ ν©νμ λν, Vol.15, No.2, Dec, 1996.
[4] νμ΅ν, λ°νκ·, β μ€λ³μ 2D-FDTDλ₯Ό μ΄μ©νΒ Unilateral Fin-Line λΆμ° νΉμ±ν΄μ,β νκ΅ν΅μ νν μΆκ³μ’ ν©νμ λν, Vol.14, No.2, Nov, 1995.
[3] νμ΅ν, λ°νκ·, β GRTλ₯Ό μ΄μ©ν λ§μ΄ν¬λ‘μ€νΈλ¦½ λΆμ°μμ FDTDν΄μ, β λνμ μ곡νν μΆκ³μ’ ν©νμ λν, Vol.18, No.2, Dec, 1995.
[2] νμ΅ν, λ°νκ·, β μ νμ°¨λΆ μκ°μμλ²μ μ΄μ©ν λ¨μΌνλ©΄ μ μ‘μ λ‘μ νΉμ±ν΄μ,β νκ΅ν΅μ νν νκ³μ’ ν©νμ λν, Vol.14, No.1, Jul, 1995.
[1] μ₯λ³μ€, νμ΅ν, λ°νκ·, β μ νμμΈ‘λ²μ μ΄μ©ν λ§μ΄ν¬λ‘μ€νΈλ¦½ νλ‘μ FDTD ν΄μ.β 1995λ λ μΆκ³ λ§μ΄ν¬λ‘ν λ° μ νμ νμ°κ΅¬ν νμ λ°νν λ Όλ¬Έμ§, Vol.18, No.1, May. 1995.Β
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Patents
[38] 3μ°¨μ ꡬ쑰λ₯Ό κ°μ§λ μ¬κ΅¬μ± κ°λ₯ν μ§λ₯ν νλ©΄ ꡬ쑰체, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2024-0123054, 2024λ 9μ10μΌ μΆμ
[37] μ§κ·Έμ νΌμ¦ κ°λ μ λμ ν RIS, λνλ―Όκ΅ νΉνμ², 2023λ 3μ 14μΌ μΆμ(10-2023-0033284), 2024λ 7μ23μΌ λ±λ‘(10-2689005)
[36] 360λ μμμ²μ΄κΈ° λ° λ€κΈ°λ₯ λ©ν μν λ μ₯μΉ, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2021-0114618, 2021λ 8μ30μΌ μΆμ, 2022λ 4μ15μΌ λ±λ‘(10-2388847)
[35] λ₯λν νΈν λ³ν νΉμ±μ κ°λ νΈλμ€λ° μ΄λ μ΄ λ° λ₯λν νΈν λ³νκΈ°, λνλ―Όκ΅ νΉνμ², 2022λ 3μ8μΌ λ±λ‘(10-2374151)
[34] λ€μΈ΅ ꡬ쑰 μμ μ²μ΄κΈ°, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2021-0114119 2021λ 8μ 27μΌ μΆμ
[33] μ λμ± μνΈ, μ λμ± μνΈλ₯Ό ν¬ν¨νλ μ£Όνμ μ ν μ₯μΉ λ° μ μ‘° λ°©λ², λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2018-0147217, 2019λ 11μ18μΌ λ±λ‘(10-2047987)
[32] μ΄κ΄λμ μ£Όνμ μ°¨λ¨νΉμ±μ κ°λ μ£Όνμ μ ννλ©΄ ꡬ쑰, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2019-0065475, 2019λ 7μ24μΌ λ±λ‘(10-2005512)
[31] μ μ₯κ°λ₯ν μ£Όνμ μ νꡬ쑰, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2020-0005984, 2020λ 1μ 16μΌ μΆμ, 2021λ 3μ19μΌ λ±λ‘(10-2232164)
[30] μμΉλ³κ²½μ΄ κ°λ₯ν νμ λΆλ₯Ό ꡬλΉνλ μ£Όνμ μ ν μ₯μΉ, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2020-0002111, 2020λ 1μ 7μΌ μΆμ
[29] μ 측ꡬ쑰λ₯Ό μ΄μ©ν μ£Όνμ μ νꡬ쑰, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2020-0002110, 2020λ 1μ 7μΌ μΆμ, 2020λ 11μ27μΌ λ±λ‘(10-2186091)
[28] ν¬λͺ 벽체λ₯Ό ν΅ν 무μ μ λ ₯μ μ‘ μ₯μΉ,λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2019-0167875, 2019λ 12μ 16μΌ μΆμ
[27] λ μ΄λμ μ§λ¨ μμ€ν λ° λ°©λ², λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2019-0106382, 2019λ 8μ 29μΌ μΆμ, 2020λ 11μ30μΌ λ±λ‘(10-2187094)
[26] 건μΆλ¬Όμ μΈ΅κ°μμμ 보 κ΄λ¦¬μμ€ν , λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2017-0092869, 2017λ 7μ21μΌ μΆμ, 2019λ 5μ10μΌ λ±λ‘(10-1979372)
[25] μΈ΅κ° μμ μλ¦Ό μμ€ν λ° λ°©λ², λνλ―Όκ΅ νΉνμ² λ±λ‘λ²νΈ 10-1923833, 2018λ 11μ 23μΌ λ±λ‘
[24] ν¬λͺ νλ©΄ν λ©νꡬ쑰λ₯Ό μ΄μ©ν 무μ μ λ ₯μ μ‘ μμ€ν , λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2018-0031323, 2018λ 3μ 19μΌ μΆμ, 2020λ 1μ20μΌ λ±λ‘(10-2070337)
[24] GPSμ¬λ°μ λ°©μ§νκΈ° μν΄ FSSλ₯Ό λμ ν λ μ΄λ, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2018-0062858, 2018λ 5μ 31μΌ μΆμ, 2019λ 9μ 6μΌ λ±λ‘(10-2021381)
[23] λμΆν 3μ°¨μ ν¨ν΄ ꡬ쑰λ₯Ό κ°μ§λ μ£Όνμ μ ν νλ©΄ ꡬ쑰, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2017-0060145, 2017λ 5μ 15μΌ μΆμ, 2019λ 1μ 3μΌ λ±λ‘(10-1936834)
[23] 벽체λ₯Ό μ΄μ©ν 무μ μ λ ₯μ μ‘ μμ€ν , λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2018-0031322, 2018λ 3μ 19μΌ μΆμ, 2020λ 2μ 4μΌ λ±λ‘(10-2075577)
[22] μ§κ·Έμ νΌμ¦ κ°λ μ λμ ν μ£Όνμ μ νꡬ쑰, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2017-0053075, 2017λ 4μ 25μΌ μΆμ, 2018λ 7μ 16μΌ λ±λ‘(10-1880439)
[21] λ€μ€ μ£Όνμ λμμ© FSS ꡬ쑰, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2017-0041127, 2017λ 3μ 30μΌ μΆμ, 2018λ 11μ 19μΌ λ±λ‘(10-1921580)
[20] μ μν μ°¨νμ© λΈλ‘νλ¦, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2016-0167407, 2016λ 12μ 9μΌ μΆμ
[19] μννλ λ¨μꡬ쑰μ λ°λ³΅ λ°°μ΄μ κ°μ§λ λμ μ μ§ λμ μ£Όνμ μ ν ν면ꡬ쑰, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2016-0068336, 2016λ 6μ 1μΌ μΆμ, 2017λ 7μ 5μΌ λ±λ‘(10-1756816)
[18] λ₯λν μ£Όνμ μ ν ꡬ쑰λ₯Ό μ΄μ©ν μ£Όνμ μ μ΄ μ₯μΉ λ° λ°©λ², λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2015-0159147, 2015λ 11μ12μΌ μΆμ, 2017λ 5μ 11μΌ λ±λ‘(10-1737108)
[17] μ£Όνμ μ ν ꡬ쑰λ₯Ό μ΄μ©ν ꡬ쑰물 μ§λ¨μ₯μΉ λ° λ°©λ², λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2015-0159164, 2015λ 11μ12μΌ μΆμ, 2017λ 1μ 18μΌ λ±λ‘(10-1699438)
[16] μ νμ μ μν ν‘μκΈ°λ₯μ κ°λ μνΈ, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2015-0059043, 2015λ 4μ 27μΌ μΆμ, 2016λ 10μ 5μΌ λ±λ‘(10-1664995)
[15] μ μ¬κ°μ λ 립μ μΈ μ£Όνμ μ νμ μ μν ν‘μμ₯μΉ λ° κ·Έ μ μ‘°λ°©λ², λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2014-0165382, 2014λ 11μ 25μΌ μΆμ, 2016λ 1μ 14μΌ λ±λ‘(10-1587251)
[14] λ€μΈ΅ μΈμ νλ‘ κΈ°νμ μ£Όνμ μ ν νλ©΄ ꡬ쑰, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2014-0012972, 2014λ 2μ 5μΌ μΆμ, 2015λ 3μ 13μΌ λ±λ‘(10-1504326)
[13] 무μ μ λ ₯μ μ‘μ μ΄μ©ν μ¬κ΅¬μ± μ£Όνμ μ νꡬ쑰 μμ€ν , λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2013-0141383, 2013λ 11μ μΆμ
[12] λ¨Έμ¬λ£Έ ꡬ쑰λ₯Ό μ΄μ©ν μ¬κ΅¬μ± μ£Όνμ μ ν ꡬ쑰, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2013-0134659, 2013λ 11μ μΆμ, 2014λ 9μ23μΌ λ±λ‘(10-1445576)
[11] μ£Όνμ νΉμ±μ λ³νμν¬ μ μλ μ£Όνμ μ ννλ©΄ ꡬ쑰 λ° μ΄λ₯Ό μ΄μ©νμ¬ μ μν μ°¨λ¨κΈ°λ₯μ κ°μ§λ λΈλΌμΈλ μμ€ν , λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2013-0041020, 2013λ 4μ μΆμ, 2014λ 6μ 10μΌ λ±λ‘(10-1408306)
[10] μ£Όνμ νΉμ± κ°λ³ FSS νν°, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2012-0012540, 2012λ 2μ μΆμ, 2013λ 8μ19μΌ λ±λ‘(10-1299675)
[9] νλ©΄ μν λ, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2011-0100329, 2011λ 9μ μΆμ, 2012λ 8μ10μΌ λ±λ‘(10-1174825)
[8] μ£Όνμ μ¬κ΅¬μ± λμμ μν μν λ ꡬ쑰, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2009-0026345, 2009λ 3μ μΆμ, 2012λ 2μ 9μΌ λ±λ‘(10-1117154)
[7] μ΄μ€ μ€νΌλΌμΈμ μ΄μ©νλ μ μ‘μ λ‘ νν° κ΅¬μ‘°, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2009-0025698, 2009λ 3μ μΆμ, 2012λ 1μ 12μΌ λ±λ‘(10-1107596)
[6] μμ νΈμ§μ΄ μ©μ΄ν μ¬ν΄μμΈ‘μ§λμ± μ, λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2007-0064285, 2008λ 3μ λ±λ‘(10-0821662)
[5] κΈ°μ§κ΅ μ‘μμ μν λ λ° κ·Έμ μ΄μ© λ°©λ², λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2007-0086467, 2007λ 8μ, 2009λ 8μ 17μΌ λ±λ‘(10-0912506)
[4] Diversity Apparatus and Method For a Mobile Communication Terminal, US 7,149,489 B2, 2006λ 12μ
[3] μ΄λν΅μ μ’ λ¨μ λ€μ΄λ²μν°λ°©λ², μ€κ΅ CN 1208985 C, 2005λ 6μ
[2] νκ·λΆμ μκ³ λ¦¬μ¦μ μ μ©ν μ¨λ μ½λ μμΈ‘λ°©λ², λνλ―Όκ΅ νΉνμ² μΆμλ²νΈ 10-2002-0008173, μΆμ
[1] μ΄λν΅μ λ¨λ§κΈ°μ λ€μ΄λ²μν° μ₯μΉ λ° λ°©λ², λνλ―Όκ΅ νΉνμ² λ±λ‘λ²νΈ 10-0446507, 2004λ 8μ
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