Publications
Journal Papers
[109] 1. A. Li, M. Zhao, M. A. B. Abbasi, and O. Yurduseven, “A Measurement Mode Selection Method for Microwave Computational Imaging,” IEEE Antennas and Wireless Propagation Letters, 2024.[108] A. M. Molaei, M. García-Fernández, G. Álvarez-Narciandi, R. Kumar, V. Skouroliakou, V. Fusco, M. A. B. Abbasi, and O. Yurduseven, “Application of Kirchhoff Migration Principle for Hardware-Efficient Near-Field Radar Imaging,” IEEE Transactions on Computational Imaging, 2024. (accepted for publication)[107] Z. Ebadi, A. M. Molaei, M. A. B. Abbasi, S. Cotton, A. Tukmanov, and O. Yurduseven, “Electromagnetic Informed Data Model Considerations for Near-Field DOA and Range Estimates,” Scientific Reports, 2024. (accepted for publication)[106] R. Sharma and O. Yurduseven, “Quantitative Microwave Imaging using Deep Learning Network Guided by Plane Wave Equation” IEEE Transactions on Radar Systems, 2024. (accepted for publication)[105] G. Álvarez-Narciandi, M. García-Fernández, V. Skouroliakou, and O. Yurduseven, “Dynamic Metasurface Antenna-based Mills-Cross Aperture for 3D Computational Microwave Imaging,” IEEE Antennas and Wireless Propagation Letters, 2024. (accepted for publication)[104] M. Zhao, J. Zhang, A. Li, R. Sharma, M. Garcia-Fernandez, G. Alvarez-Narciandi, S. Zhu, and O. Yurduseven, “Microwave Computational Imaging-based Near-Field Measurement Method,” IEEE Antennas and Wireless Propagation Letters, 2024. (accepted for publication)[103] S. Skitioui, C. Decroze, E. Kpré, C. Gaguiére, O. Yurduseven, and T. Fromentéze, “Single-Channel Imaging at Low Sampling Rates,” IEEE Antennas and Wireless Propagation Letters, 2024. (accepted for publication)[102] A. M. Molaei, B. Zakeri, S. M. H. Andargoli, M. A. B. Abbasi, V. Fusco, and O. Yurduseven, “A Comprehensive Review of Direction-of- Arrival Estimation and Localization Approaches in Mixed-Field Sources Scenario,” IEEE Access, 2024. (accepted for publication)[101] M. Zhao, S. Zhu, T. Fromenteze, M. A. B. Abbasi, X. Chen, Y. Huang, and O. Yurduseven, “Dual-Polarized Frequency-Diverse Metacavity Antenna for Computational Polarimetric Imaging”, IEEE Transactions on Antennas and Propagation, 2024. (accepted for publication)[100] J. Zhang, Rahul Sharma, Guillermo Álvarez-Narciandi, María García-Fernández, Muhammad Ali Babar Abbasi, and Okan Yurduseven, “Sensing Matrix Prediction from Back-scattered Data in Computational Microwave Imaging”, IEEE Antennas and Wireless Propagation Letters, 2024. (accepted for publication)[99] M. García-Fernández, G. Alvarez-Narciandi and O. Yurduseven, “Single Channel Frequency Diverse Computational Imaging System for Through-the-Wall Sensing,” IEEE Transactions on Geoscience and Remote Sensing, 2024. (accepted for publication)[98] A. Li, M. Zhao, D. P. Lynch, S. Zhu, M. A. B. Abbasi, and O. Yurduseven, “Frequency-Diverse Reflection Metasurface Antenna Design for Computational Microwave Imaging,” IEEE Open Journal of Antennas and Propagation, 2024. (accepted for publication).[97] A. M. Molaei, V. Fusco, and O. Yurduseven, “Direct One-Bit DOA Estimation Robust against Unequal Power Signals”, IEEE Access, 2024. (accepted for publication).[96] M. Zhao, S. Zhu, D. Li, T. Fromenteze, M. Khalily, X. Chen, V. Fusco, and O. Yurduseven, “Frequency-Diverse Bunching Metasurface Antenna for Microwave Computational Imaging,” IEEE Transactions on Antennas and Propagation, 2024. (accepted for publication).[95] M. Zhao, S. Zhu, R. Sharma, A. M. Molaei, X. Chen, and O. Yurduseven, “Metamaterial Iris-based Cavity Antenna for mm-Wave Computational Polarimetric Imaging”, IEEE Antennas and Wireless Propagation Letters, 2024 (accepted for publication).[94] M. Zhao, S. Zhu, X. Chen, T. Fromenteze, Q. H. Abbasi, A. Alomainy, V. Fusco, and O. Yurduseven, “Hyperuniform Frequency-Diverse Metacavity Transceiver for Three-Dimensional Computational Polarimetric Imaging”, IEEE Transactions on Instrumentation & Measurements, 2024 (accepted for publication).[93] R. Sharma, B. Deka, V. Fusco, and O. Yurduseven, “Integrated Convolutional Neural Networks for Real-time Super resolution and Classification of Near-field Millimetre-wave Radar Images” Elsevier Pattern Recognition, 2024 (accepted for publication).[92] J. Zhang, R. Sharma, M. García-Fernández, G. Álvarez-Narciandi, M. A. B. Abbasi and O. Yurduseven, "Deep Learning for Sensing Matrix Prediction in Computational Microwave Imaging with Coded-Apertures," IEEE Access (accepted for publication). [91] R. Sharma, M. Garcia-Fernandez, G. Alvarez-Narciandi, and O. Yurduseven, “Single Radar Imaging Motion Deblurring through PSF Estimation and Convolution Regularizer,” IEEE Transactions on Radar Systems, 2024 (accepted for publication).[90] T. Fromenteze, O. Yurduseven, C. Uche, E. Arnaud, D. R. Smith, and C. Decroze, "Morphogenetic metasurfaces: unlocking the potential of turing patterns," Nature Communications, 14(1), p.6249, 2023.[89] M. Zhao, S. Zhu, D. P. Lynch, Y. Nian, T. Fromenteze, M. Khalily, X. Chen, V. Fusco, and O. Yurduseven, "Frequency-diverse metacavity cassegrain antenna for differential coincidence imaging," IEEE Transactions on Antennas and Propagation, vol. 71, no. 11, pp. 9054-9059, 2023.[88] G. Jenkinson, M. A. B. Abbasi, A. M. Molaei, O. Yurduseven, and V. Fusco, "Deep Learning-Enabled Improved Direction-of-Arrival Estimation Technique," Electronics, 12(16), p. 3505, 2023.[87] A. M. Molaei, S. Hu, R. Kumar and O. Yurduseven, "MIMO Coded Generalized Reduced Dimension Fourier Algorithm for 3-D Microwave Imaging," IEEE Transactions on Geoscience and Remote Sensing, vol. 61, pp. 1-15, 2023.[86] A. M. Molaei, T. Fromenteze, S. Hu, V. Fusco, and O. Yurduseven, “Fourier-Based Near-Field Three-Dimensional Image Reconstruction in a Multistatic Imaging Structure Using Dynamic Metasurface Antennas,” IEEE Transactions on Computational Imaging, vol. 8, pp. 1089-1100, 2022.[85] V. Skouroliakou, A. M. Molaei, M. Garcia-Fernandez, G. Alvarez-Narciandi, and O. Yurduseven, “Frequency Domain Image Reconstruction with Multistatic Dynamic Metasurface Antennas,” IEEE Access, vol. 10, pp. 124728-124737, 2022.[84] R. Sharma, J. Zhang, B. Deka, V. Fusco, and O. Yurduseven, “3D Super-Resolution of Coded Aperture Millimeter-wave Images using Complex-Valued Convolutional Neural Network,” IEEE Sensors, vol. 22, no. 21, pp. 20921-20936, 2022.[83] S. Hu, A. M. Molaei, O. Yurduseven, H. Meng, R. Nilavalan, L. Gan, and X. Chen, “Multistatic MIMO Sparse Imaging Using Low Ran Matrix Recovery and Error Matrix,” IEEE Transactions on Microwave Theory and Techniques, vol. 71, no. 3, pp. 1285-1295, 2023.[82] Simon L. Cotton, M. A. B. Abbasi, G. G. Machado, and O. Yurduseven, “Intelligent Edges: Illuminating the Shadow Region in Wireless Networks,” IEEE Access, vol. 10, pp. 101732-101748, 2022.[81] Amir M. Molaei, Thomas Fromenteze, Vasiliki Skouroliakou, The Viet Hoang, Rupesh Kumar, Vincent Fusco, and O. Yurduseven, “Development of Fast Fourier-Compatible Image Reconstruction for 3D Near-Field Bistatic Microwave Imaging with Dynamic Metasurface Antennas”, IEEE Transactions on Vehicular Technology, vol. 71, no. 12, pp. 13077-13090, 2022.[80] M. Khalily, O. Yurduseven, T. J. Cui, Y. Hao, G. V. Eleftheriades, "Engineered Electromagnetic Metasurfaces in Wireless Communications: Applications, Research Frontiers and Future Directions," IEEE Communications Magazine, vol. 60, no. 10, pp. 88-94, 2022. [79] A. M. Molaei, V.Skouroliakou, V. Fusco, and O. Yurduseven, "Efficient 3D Image Reconstruction for NEar-Field Microwave Imaging using Dynamic Metasurface Antenna," IEEE Access, vol. 10, pp. 68491-68498, 2022. [78] A. Araghi, M. Khalily, O. Yurduseven, P. Xiao, and R. Tafazolli, "Guided-wave Manipulation of SIW H-Plane Horn Antenna by Combining Phase Correction and Holographic-Based Leakage," Scientific Reports, vol. 12, pp. 1-13, 2022.[77] A. M. Molaei, S. Hu, V. Skouroliakou, V. Fusco, X. Chen and O. Yurduseven, "Fast Processing Approach for Near-Field Terahertz Imaging With Linear Sparse Periodic Array," IEEE Sensors Journal, vol. 22, no. 5, pp. 4410-4424, 2022.[76] T. V. Hoang, R. Kumar, T. Fromenteze, M. Garcia-Fernandez, G. Alvarez-Narciandi, V. Fusco, and O. Yurduseven, “Frequency Selective Computational Through Wall Imaging Using a Dynamically Reconfigurable Metasurface Aperture” IEEE Open Journal of Antennas and Propagation, vol. 3, pp. 353-362, 2022.[75] M. A. B. Abbasi, O. Yurduseven, M. O. Akinsolu, V. Fusco, B. Liu, M. Khalily, S. Cotton, and M. A. Imran, “Machine Learning-Assisted Direction-of-Arrival Accuracy Enhancement Technique Using Oversized Lens-Loaded Cavity,” IET Microwaves, Antennas & Propagation, vol. 16, no. 6, pp. 305-315, 2022. [74] M. A. B. Abbasi, M. O. Akinsolu, B. Liu, O. Yurduseven, Vincent F. Fusco, and M. A. Imran, “Machine Learning-Assisted Dynamic Lens-Loaded Aperture Optimization for Millimeter-wave Direction-of-Arrival Estimation,” Scientific Reports, vol. 12, no. 1, pp. 1-13, 2022.[73] Ashifa M. Musthafa, Mohsen Khalily, Ali Araghi, O. Yurduseven, and Rahim Tafazolli, "Compact Multi-Mode Quadrifilar Helical Antenna for GNSS-R Applications", IEEE Antennas and Wireless Propagation Letters, vol. 21, no. 4, pp. 755-759, 2022. [72] A. M. Molaei, P. D. Hougne, V. Fusco and O. Yurduseven, "Efficient Joint Estimation of DoA, Range and Reflectivity in Near-Field by Using Mixed-Order Statistics and a Symmetric MIMO Array," IEEE Transactions on Vehicular Technology, vol. 71, no. 3, pp. 2824-2842, 2021. [71] K. Tekbıyık, O. Yurduseven, and G. Karabulut Kurt, "Graph Attention Network Based Single-Pixel Compressive Direction of Arrival Estimation." IEEE Communications Letters, vol. 26, no. 3, pp. 562-566, 2021. [70] S. D. Assimonis, S. Chandravanshi, O. Yurduseven, M. A. B. Abbasi, D. Zelenchuk, O. Malyuskin, V. Fusco, and S. Cotton, “Implementation of Resonant Electric Based Metamaterials for Electromagnetic Wave Manipulation at Microwave Frequencies,” MDPI Sensors, vol. 21, pp. 8452, 2021.[69] O. Yurduseven, Mohsen Khalily, Symon Podilchak, Goutam Chattopadhyay, and Nelson Fonseca, "Guest Editorial: Special Cluster on Recent Advances in Antennas for Earth and Planetary Science." IEEE Antennas and Wireless Propagation Letters , vol. 20, no. 11, 2083-2084, 2021. [68] G. Gradoni, M. Di Renzo, A. Diaz-Rubio, S. Tretyakov, C. Caloz, Z. Peng, A. Alu, O. Yurduseven, et al. "Smart Radio Environments." arXiv preprint arXiv:2111.08676 (2021). [67] A. M. Molaei, S. Hu, V. Skouroliakou, V. Fusco, X. Chen, and O. Yurduseven, "Fourier Compatible Near-Field Multiple-Input Multiple-Output Terahertz Imaging with Sparse Non-Uniform Apertures." IEEE Access, vol. 9, pp. 157278-157294, 2021. [66] R. Sharma, R. Hussung, A. Keil, F. Friederich, T. Fromenteze, M. Khalily, B. Deka, V. Fusco, and O. Yurduseven, “Coded-Aperture Computational Millimeter-wave Image Classifier using Convolutional Neural Network,” IEEE Access, vol. 9, pp. 119830-119844, 2021. [65] Ali Ali, Mohsen Khalily, A. Sattarzadeh, A. Massoud, M. O. Hasna, T. Khattab, O. Yurduseven, and Rahim Tafazolli, "Power Budgeting of LEO Satellites: An Electrical Power System Design for 5G Missions," IEEE Access, vol. 9, pp. 113258-113269, 2021.[64] M. A. B. Abbasi, V. Fusco, O. Yurduseven, R. I. Ansari, and S. Cotton, "Lens-Loaded Cavity Antenna with Detector Diode as a Direction-of-Arrival Estimator," IEEE Antennas and Wireless Propagation Letters, vol. 20, no. 11, pp. 2176-2180, 2021. [63] A. M. Molaei, O. Yurduseven, and V. Fusco, “An Efficient Waveform Diversity Based on VMD-CBFSS Algorithm for MIMO mm-Wave Imaging” IET Radar, Sonar & Navigation, vol. 15, no. 10, pp. 1266-1280, 2021. [62] T. V. Hoang, V. Fusco, T. Fromenteze and O. Yurduseven, "Computational Polarimetric Imaging Using Two-Dimensional Dynamic Metasurface Apertures," IEEE Open Journal of Antennas and Propagation, vol. 2, pp. 488-497, 2021. [61] T. V.Hoang, T. Fromenteze, M. A. B. Abbasi, C. Decroze, M. Khalily, V. Fusco, and O. Yurduseven, “Spatial Diversity Improvement in Frequency-Diverse Computational Imaging with a Multi-port Antenna,” Results in Physics, vol. 22, pp. 103906, 2021. [60] M. Matthaiou, O. Yurduseven, H. Q.Ngo, D. Morales-Jimenez, S. L. Cotton, and V. F. Fusco, “The road to 6G: Ten physical layer challenges for communications engineers,” IEEE Communications Magazine, vol. 59, no. 1, pp. 64-69, 2021. [59] T. Fromenteze, O. Yurduseven, D. R. Smith, “Computational Imaging with Reduced Dimensions using Principal Component Analysis,” Scientific Reports, vol. 11, no. 1, pp. 1-14, 2021. [58] R. Sharma, V. Fusco, and O. Yurduseven, “Hardware Enabled Acceleration of Near-Field Coded Aperture Radar Physical Model for Millimetre-wave Computational Imaging,” Progress in Electromagnetics Research B, vol. 90, pp. 91-108, 2021. [57] S.-Kai Chou, O. Yurduseven, H. Ngo, and M. Matthaiou, “On the Aperture Efficiency of Intelligent Reflecting Surfaces,” IEEE Wireless Communication Letters, vol. 10, no. 3, pp. 599-603, 2021. [56] B. Abbasi, V. Fusco, O. Yurduseven, and Thomas Fromenteze, “Frequency-Diverse Multimode Millimetre-wave Constant-er Lens-Loaded Cavity,” Scientific Reports, vol. 10, no. 1, pp. 1-12, 2020. [55] M. Mehranpour, S. Jarchi, A. Keshtkar, A. Ghorbani, A. Araghi, M. Khalily, O. Yurduseven, “Robust Breast Cancer Imaging Based on a Hybrid Artifact Suppression Method for Early-Stage Tumor Detection,” IEEE Access, vol. 8, pp. 206790-206805, 2020. [54] O. Yurduseven, Choonsup Lee, Mauro Ettore, Ronan Sauleau, Goutam Chattopadhyay, and Nacer Chahat, “Multibeam Si/GaAs Holographic Metasurface Antenna at W-Band,” IEEE Transactions on Antennas and Propagation, vol. 69, no. 6, pp. 3523-3528, 2020.[53] Rixi Peng, O. Yurduseven, Thomas Fromenteze, and David R. Smith, “Advanced Processing of 3D Polarimetry using a Near-Field Frequency-Diverse Radar at Microwave Frequencies,” IEEE Access, vol. 8, pp. 166261-166272, 2020. [52] O. Yurduseven, Stylianos Assimonis, and Michalis Matthiou, “Intelligent reflecting Surfaces for Spatial Modulation: An Electromagnetic Perspective,” IEEE Open Journal of the Communications Society, vol. 1, pp. 1256 - 1266, 2020.[51] O. Yurduseven, Thomas Fromenteze, Cyril Decroze, and Vincent Fusco, “Frequency-Diverse Computational Automotive Radar Technique for Debris Detection”, IEEE Sensors, vol. 20, no. 22, pp. pp. 13167-13177, 2020 (featured article).[50] Ken Cooper, Richard Roy, Robert Dengler, Raquel Rodrigez Monje, Maria Alonso-delPino, Jose Siles, O. Yurduseven, Chaitali Parashare, Luis Millan, Matthew Lebsock, “A G-band Radar for Humidity and Cloud Remote Sensing,” IEEE Transactions on Geoscience and Remote Sensing, vol. 59, no. 2, pp. 1106-1117, 2020. [49] O. Yurduseven, Muhammad Ali Babar Abbasi, Thomas Fromenteze, and Vincent Fusco, “Lens-Loaded Coded Aperture with Increased Information Capacity for Computational Microwave Imaging,” MDPI Remote Sensing, vol. 12, no. 9, pp. 1531, 2020.[48] David R. Smith, Mohammadreza F. Imani, Jonah Gollub, O. Yurduseven, et al., “Review of Metasurface Antennas for Computational Imaging,” IEEE Transactions on Antennas and Propagation, vol. 68, no. 3, pp. 1860 - 1875, 2020 (invited paper).[47] Nacer Chahat, Emmanuel Decrossass, David Gonzalez Ovejero, O. Yurduseven, et al., “Advanced CubeSat Antennas for Deep Space and Earth Science Missions: A Review” IEEE Antennas and Propagation Magazine, vol. 61, no. 5, pp. 37-46, 2019 (invited paper).[46] O. Yurduseven, Muhammed Ali Babar Abbasi, Thomas Fromenteze, and Vincent Fusco, “A Mode-Diversity Based Computational Channel Sounding Technique,” Scientific Reports, vol. 9, no. 1, pp. 1-12, 2019.[45] O. Yurduseven, et al., “3D Conductive Polymer Printed Metasurface Antenna for Fresnel Focusing,” MDPI Designs, vol. 3, no. 3, pp. 46, 2019.[44] Thomas Fromenteze, O. Yurduseven, Cyril Decroze, David R. Smith and Alexander Yarovoy, “A Transverse Spectrum Deconvolution Technique for MIMO Short Range Fourier Imaging,” IEEE Transactions on Geoscience and Remote Sensing, vol. 57, no. 9, pp. 6311-6324, 2019.[43] O. Yurduseven, Ken Cooper, and Goutam Chattopadhyay, “Point-Spread-Function (PSF) Characterization of a 340 GHz Imaging Radar using Acoustic Levitation,” IEEE Transactions on Terahertz and Technology, vol. 9, no. 1, pp. 20-26, 2019.[42] Thomas Fromenteze, Cyril Decroze, Sana Abid, and O. Yurduseven, “Sparsity-Driven Reconstruction Technique for Microwave/Millimeter-Wave Computational Imaging,” Sensors, vol. 18, no. 5, pp. 1536, 2018.[41] O. Yurduseven, Thomas Fromenteze, and David R. Smith, “Relaxation of Misalignment Error and Phase Calibration for Computational Frequency-Diverse Imaging using Phase Retrieval,” IEEE Access, vol. 6, pp. 14884-14894, 2018.[40] Farhat Nashad, Stephen Foti, David Smith, Michael Elsdon and O. Yurduseven, “Ku-Band Suspended Meshed Patch Antenna Integrated with Solar Cells for Remote Area Applications,” Progress in Electromagnetics Research, vol. 83, pp. 245-254, 2018.[39] O. Yurduseven, Daniel L. Marks, Thomas Fromenteze, Jonah N. Gollub, and David R. Smith, “Dynamically Reconfigurable Holographic Metasurface Antenna for Electronic Beam Steering and Microwave Imaging,” vol. 26, no. 5, pp. 5281-5291, Optics Express, 2018.[38] Andreas Pedross-Engel, Daniel Arnitz, Jonah N. Gollub, O. Yurduseven, et. al., “Orthogonal Coded Active Illumination for Millimeter Wave, Massive-MIMO Computational Imaging with Metasurface Antennas,” IEEE Transactions on Computational Imaging, vol. 4, no. 2, pp. 184-193, 2018.[37] O. Yurduseven, Shengrong Ye, Thomas Fromenteze, Daniel L. Marks, Benjamin Wiley, and David R. Smith, “3D Conductive Polymer Printed Metasurface Antenna for Fresnel Focusing,” arXiv preprint:1806.00394, 2018.[36] Vinay R. Gowda, Mohammadreza F. Imani, Timothy Sleasman, O. Yurduseven and David R. Smith, “Focusing Microwaves in the Fresnel-Zone with a Cavity-Backed Holographic Metasurface,” IEEE Access, vol. 6, pp. 12815-12824, 2018.[35] Daniel L. Marks, O. Yurduseven and David R. Smith, “A Sparse Blind Deconvolution Method for Imaging Through Layered Media,” Optica, vol. 4, no. 12, pp. 1514-1521, 2017.[34] David R. Smith, O. Yurduseven, Laura Pulido Mancera, Patrick Bowen, and Nathan B. Kundtz, “Analysis of a Waveguide-Fed Metasurface Antenna,” Physical Review Applied, vol. 8, no. 5, pp. 054048, 2017.[33] O. Yurduseven, Thomas Fromenteze, Daniel L. Marks, Jonah N. Gollub, and David R. Smith, “Frequency-Diverse Computational Microwave Phaseless Imaging,” IEEE Antennas and Wireless Propagation Letters, vol. 16, pp. 2808-2811, 2017.[32] O. Yurduseven and David R. Smith, “Dual-Polarization Printed Holographic Multibeam Metasurface Antenna,” IEEE Antennas and Wireless Propagation Letters, vol. 16, pp. 2738-2741, 2017.[31] Thomas Fromenteze, O. Yurduseven, Michael Boyarsky, Jonah Gollub, Daniel L. Marks, and David R. Smith, “Computational Polarimetric Microwave Imaging,” Optics Express, vol. 25, no. 22, pp. 27488-27505, 2017. [30] O. Yurduseven, et al., “Computational Microwave Imaging Using 3D Printed Conductive Polymer Frequency-Diverse Metasurface Antennas,” IET Microwaves, Antennas & Propagation, vol. 11, no. 14, pp. 1962-1969, 2017.[29] D. L. Marks, O. Yurduseven, and D. R. Smith, “Near-Field Multistatic Radar Reconstruction with Stretched Phase Fourier Accelerated Multistatic Imaging (SP-FAMI),” IET Radar, Sonar & Navigation, vol. 11, no. 11, pp. 1718-1729, 2017.[28] O. Yurduseven, D. L. Marks, T. Fromenteze, J. N. Gollub, and D. R. Smith, “Millimeter-Wave Spotlight Imager using Dynamic Holographic Metasurface Antennas,” Optics Express, vol. 25, no. 15, pp. 18230-18249, 2017.[27] O. Yurduseven, D. L. Marks, J. N. Gollub, and D. R. Smith, “Design and Analysis of a Reconfigurable Holographic Metasurface Aperture for Dynamic Focusing in the Fresnel Zone,” IEEE Access, vol. 5, pp. 15055-15065, 2017.[26] Jonah N. Gollub, O. Yurduseven, et. al., “Large Metasurface Aperture for Millimeter Wave Computational Imaging at the Human-Scale,” Scientific Reports, vol. 7, pp. 42650, 2017.[25] D. L. Marks, O. Yurduseven, and D. R. Smith, “Fourier Accelerated Multistatic Imaging: A Fast Reconstruction Algorithm for multiple-input-multiple-output (MIMO) Radar Imaging,” IEEE Access, vol. 5, pp. 1796-1809, 2017.[24] D.L. Marks, O. Yurduseven, and D. R. Smith, “Cavity-Backed Metasurface Antennas and Their Application to Frequency Diversity Imaging,” Journal of the Optical Society of America A, vol. 34, no. 4, pp. 472-480, 2017.[23] Timothy Sleasman, Mohammadreza F. Imani, O. Yurduseven, Kenneth P. Trofatter, et al., “Near Field Scan Alignment Procedure for Electrically-Large Apertures,” IEEE Transactions on Antennas and Propagation, vol. 65, no. 6, pp. 3257-3262, 2017.[22] David R. Smith, Vinay R. Gowda, O. Yurduseven, et al., “An Analysis of Beamed Wireless Power Transfer in the Fresnel Zone using a Dynamic, Metasurface Aperture,” Journal of Applied Physics, vol. 121, no. 1, pp. 014901, 2017.[21] M.Elsdon, O. Yurduseven, and X. Dai, “Wideband Metamaterial Solar Cell Antenna for 5 GHz Wi-Fi Operation,” Progress in Electromagnetics Research C, vol. 71, pp. 123-131, 2017.[20] O. Yurduseven, J. N. Gollub, A. Rose, D. L. Marks, and D. R. Smith, “Design and Simulation of a Frequency-Diverse Aperture for Imaging of Human-Scale Targets,” IEEE Access, vol. 4, pp. 5436-5451, 2016.[19] O. Yurduseven, Jonah N. Gollub, Kenneth P. Trofatter, Daniel L. Marks, Alec Rose, and David R. Smith, “Software Calibration of a Frequency-Diverse, Multistatic, Computational Imaging System,” IEEE Access, vol. 4, pp. 2488-2497, 2016.[18] O. Yurduseven, Jonah N. Gollub, Daniel L. Marks, and David R. Smith, “Frequency-Diverse Microwave Imaging using Planar Mills-Cross Cavity Apertures,” Optics Express, vol. 24, no. 8, pp. 8907-8925, 2016.[17] O. Yurduseven, V. R. Gowda, J. N. Gollub, and D. R. Smith, “Printed Aperiodic Cavity for Computational Microwave Imaging,” IEEE Microwave and Wireless Components Letters, vol. 26, no. 5, pp. 367-369, 2016.[16] O. Yurduseven, V. R. Gowda, J. N. Gollub, and D. R. Smith, “Multistatic Microwave Imaging with Arrays of Planar Cavities,” IET Microwaves, Antennas & Propagation, vol. 10, no. 11, pp. 1174-1181, Aug. 2016.[15] G. Lipworth, A.Rose, O. Yurduseven, V. R. Gowda, M. F. Imani, H. Odabasi, P. Trofatter, J. Gollub, and D. R. Smith, “Comprehensive Simulation Platform for a Metamaterial Imaging System,” Applied Optics, vol. 54, no. 31, pp. 9343-9353, 2015.[14] O. Yurduseven*, Thomas Fromenteze*, Mohammadreza F. Imani*, Jonah Gollub*, Cyril Decroze, David Carsenat, and David R. Smith, “Computational Imaging using a Mode-Mixing Cavity at Microwave Frequencies,” Applied Physics Letters, vol. 106, pp. 194104, 2015. (*shared first authorship).[13] O. Yurduseven, M. F. Imani, H. Odabasi, J. Gollub, G. Lipworth, A. Rose and D. R. Smith, “Resolution of the Frequency Diverse Metamaterial Aperture Imager,” Progress in Electromagnetics Research, vol. 150, pp. 97-107, 2015.[12] Michael Elsdon and O. Yurduseven, “Direct-Fed Reduced Size Patch Antenna using Array of cSRR in the Ground Plane,” Wiley Microwave and Optical Technology Letters, vol. 57, no. 7, pp. 1526-1529, 2015.[11] David Smith, O. Yurduseven, Bryan Livingstone, and Vladimir Schejbal, “Microwave Imaging using Indirect Holographic Techniques,” IEEE Antennas and Propagation Magazine, vol. 56, no. 1, pp. 104-117, February 2014.[10] O. Yurduseven, David Smith, and Michael Elsdon, “Printed Slot Loaded Bow-Tie Antenna with Super Wideband Radiation Characteristics for Imaging Applications,” IEEE Transactions on Antennas and Propagation, vol. 61, no. 12, pp. 6206-6210, December 2013.[9] O. Yurduseven and David Smith, “A Solar Cell Stacked Multi-Slot Quad-Band PIFA for GSM, WLAN and WiMAX Networks,” IEEE Microwave and Wireless Components Letters, vol. 23, no. 6, pp. 285-287, 2013.[8] O. Yurduseven, “Indirect microwave holographic imaging of concealed ordnance for airport security imaging systems,” Progress in Electromagnetics Research, vol. 146, pp. 7-13, 2014.[7] O. Yurduseven, David Smith, Nicola Pearsall, and Ian Forbes, “A Solar Cell Stacked Slot-Loaded Suspended Microstrip Patch Antenna with Multiband Resonance Characteristics for WLAN and WiMAX Systems,” Progress in Electromagnetics Research, vol. 142, pp. 321-332, 2013.[6] Michael Elsdon, O. Yurduseven, and David Smith, “Early Stage Breast Cancer Detection using Indirect Microwave Holography,” Progress in Electromagnetics Research (PIER), vol. 143, pp. 405-419, 2013.[5] O. Yurduseven, David Smith, and Michael Elsdon, “UWB Meshed Solar Monopole Antenna,” IET Electronics Letters, vol. 49, no. 9, pp. 285-287, 2013.[4] O. Yurduseven and David Smith, “Solar Cell Stacked Dual-Polarised Patch Antenna for 5.8 GHz band WiMAX Network,” IET Electronics Letters, vol. 49, no. 24, pp. 1514-1515, November 2013.[3] O. Yurduseven, David Smith, Bryan Livingstone, Vladimir Schejbal, and Zhonghui You, “Investigations of Resolution Limits for Indirect Microwave Imaging,” Wiley International Journal of RF and Microwave Computer Aided Engineering, vol. 23, no. 4, pp. 410-416, 2013.[2] Ahmet Serdar Turk and O. Yurduseven, “Parametric Design of Parabolic Reflector Antenna with Switchable Cosecant-Squared Pattern,” Applied Computational Electromagnetics Society Journal, vol. 26, no. 6, pp. 494-501, 2011.[1] O. Yurduseven, “Modified Cosecant-Squared Parabolic Reflector Antenna,” Istanbul University – Journal of Electrical and Electronics Engineering, vol. 11, no.1, pp.1345-1349, 2011.
Conference Papers
[124] A. M. Molaei, O. Yurduseven, “Three-dimensional near-field microwave imaging with multiple-input multiple-output coded generalized reduced dimension Fourier algorithm,” SPIE 2024. [123] A. M. Molaei, O. Yurduseven, “Multistatic 3-D microwave imaging with dynamic metasurface antennas: a Fourier-based approach,” SPIE 2024. [122] R. Sharma, Okan Yurduseven, “Deblurring of Radar Images Aided by PSF Estimator and Convolutional Regulariser,” SPIE 2024. [121] R. Sharma, O. Yurduseven, “Joint Super-resolution and Classification of Radar Images using Convolutional Neural Networks,” SPIE 2024. [120] J. Zhang, Okan Yurduseven, “Generative Model-based Image Reconstruction from Back-scattered Data in Computational Microwave Imaging,” SPIE 2024. [119] J. Zhang, O. Yurduseven, “Sensing Matrix Prediction from Aperture Field Distributions in Computational Microwave Imaging with Coded-Apertures,” SPIE 2024.[118] M. Oliveira, F. M. Ribeiro, N. Paulino, O. Yurduseven, and Luís M. Pessoa,” SpecRF-Posture: Exploring Specular Reflections for Human Posture Recognition,” 2024 IEEE International Mediterranean Conference on Communications and Networking (MeditCom), 2024.[117] I. Kanbaz, M. Mohammadi, O. Yurduseven, and M. Matthaiou, “Beam-Steering in Super-Directive Antenna Arrays Using Loaded Parasitic Elements”, International Symposium on Wireless Communication Systems (ISWCS) 2024.[116] M. García-Fernandez, G. Alvarez-Narciandi, and O. Yurduseven, “Towards Frequency-Diverse Computational Imaging with Compressive Metasurfaces for Ground Penetrating Radar,” IEEE International Geoscience and Remote Sensing Symposium, 2024.[115] Z. Ebadi, A. M. Molaei, M. A. B. Abbasi, S. Cotton, A. Tukmanov, and O. Yurduseven, “Near-Field Localization Considering the Exact Model of the Signal in the Presence of Mutual Coupling,” IEEE VTC, 2024.[114] N. Chaudry, S. Cotton, N. Simmons, C. Da Silva, O. Yurduseven, P. C. Sofotasios, M. Matthaiou, and T. Q. Duong, "Channel Measurements at 6.4 GHz for IEEE 802.11be WLAN", IEEE International Symposium on Personal, Indoor and Mobile Radio Communications, 2024. [113] N. Chaudhry, S. L. Cotton, N. Simmons, C. R. C. M. Da Silva, O. Yurduseven, P. C. Sofotasios, M. Matthaiou, and T. Q. Duong, "A Statistical Analysis of Sub-7 GHz Radio Channels used for IEEE 802.11be WLAN," IEEE AP-S 2024. [112] G. Alvarez-Narciandi, M. Garcia-Fernandez, and O. Yurduseven, "Reconfigurable Coded Holographic Surfaces for Compressive Channel Characterization", IEEE AP-S 2024.[111] M. Garcia-Fernandez, G. Alvarez-Narciandi, and O. Yurduseven, "On the Exploitation of Computational Imaging for the Next Generation Through-The-Wall Sensing Technology", IEEE AP-S 2024.[110] S. Skitioui, C. Decroze, E. Kpre, C. Gaguiere, O. Yurduseven, and T. Fromenteze, "Frequency-Modulated Continuous Wave Computational Imaging: Preliminary Results," IEEE AP-S 2024.[109] M. Saikia, M. Garcia-Fernandez, G. Alvarez-Narciandi, M. A. B. Abbasi, S. Cotton, and O. Yurduseven, "A polarization Insensitive and Angularly Stable Reconfigurable Unit Cell for Reconfigurable Intelligent Surfaces," IEEE AP-S 2024.[108] G. MAchado, A. McKernan, C. Gu, D. Zelenchuk, M. Saikia, O. Yurduseven, S. Cotton, and M. A. B. Abbasi, "A Modified 1-Bit Unit-Cell for mmWave RIS Optimized at Extreme Incident Angle", IEEE AP-S 2024.[107] I. Kanbaz, O. Yurduseven, and M. Matthaiou, “Super-Directive Antenna Arrays: How Many Elements Do We Need?” IEEE WCNC 2024.[106] M. Zhao, L. Wang, S. Zhu, M. A. B. Abbasi, T. Fromenteze, and O. Yurduseven, “Towards a Reconfigurable Metacavity Antenna for Computational Imaging and DoA Estimation,” EuCAP 2024. [105] M. Zhao, M. Khalily, and O. Yurduseven, “Dual-Polarized Reconfigurable Metacavity Transciever for Computational Polarimetric Imaging,” EuCAP 2024. [104] V. Skouroliakou, A. M. Molaei, M. García-Fernandez, G. Álvarez-Narciandi, and O. Yurduseven, “Orthogonal Coded Frequency Domain Millimetre-Wave Imaging with MIMO Dynamic Metasurface Apertures,” EuCAP 2024. [103] I. Kanbaz, O. Yurduseven, and M. Matthaiou, “Optimization of Super-Directive Linear Arrays with Differential Evolution for High Realized Gain,” EuCAP 2024. [102] R. Sharma, and O. Yurduseven, “Leveraging Radar Back-scattered Data for Classification of Imaging Targets”, EuCAP 2024. [101] A. M. Molaei, T. V. Hoang, T. Fromenteze, V. Skouroliakou, R. Kumar, M. Zhao, M. G. Fernandez, G. A. Narciandi, V. Fusco, and O. Yurduseven, “Near-Field Bistatic Microwave Imaging with Dynamic Metasurface Antennas,” EuCAP 2024. [100] G. Alvarez-Narciandi, M. Garcia-Fernandez, and O. Yurduseven, “Impact of the Unit Cell Distribution of 1-D Dynamic Metasurface Antennas on the Performance of a Computational Imaging System”, EuCAP 2024. [99] M. Garcia-Fernandez, G. Alvarez-Narciandi, and O. Yurduseven, “GPR Imaging Relying on Frequency-Diverse Compressive Antennas”, EuCAP 2024. [98] V. Skouroliakou, A. M. Molaei, M. García-Fernandez, G. Alvarez-Narciandi, and O. Yurduseven, “A Case Study of Misalignment Errors for Range-Migration-Based Microwave Imaging with Multistatic Dynamic Metasurface Apertures,” EuCAP 2024.[97] I. Saleem, M. A. B. Abbasi, V. Fusco, O. Yurduseven, S. M. Abbas and S. Mukhopadhyay, "Single-Pixel Chaotic Cavity Bandwidth Control using Rotman Lens-Based Multiplexer/Demultiplexer," 2023 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (USNC-URSI), Portland, OR, USA, 2023, pp. 1897-1898, doi: 10.1109/USNC-URSI52151.2023.10238242.[96] V. Skouroliakou, A. M. Molaei, M. Garcia-Fernandez, G. Alvarez-Narciandi, R. Kumar, and O. Yurduseven, "Fourier-based Image Reconstruction Algorithms for Sparse SAR Data", IEEE Irish Signals and Systems Conference, 2023.[95] AM Molaei, V Skouroliakou, V Fusco, and O. Yurduseven, "Fourier-domain image reconstruction in near-field microwave imaging using a dynamic metasurface antenna: a sparse-sampling-based approach", SPIE Defense+ Commercial Sensing: Radar Sensor Technology XXVII, 2023.[94] AM Molaei, S Hu, V Skouroliakou, V Fusco, X Chen, and O. Yurduseven, "Fast image reconstruction for near-field terahertz imaging with multistatic non-uniform sparse arrays", SPIE Defense+ Commercial Sensing: Radar Sensor Technology XXVII, 2023. [93] V. Skouroliakou, A. M. Molaei, M. Garcia-Fernandez, G. Alvarez-Narciandi, and O. Yurduseven, "Range migration algorithm for a multistatic 3D compressive computational imaging system with dynamic metasurface aperture", International Radar Symposium 2023. [92] A. Li, M. Zhao, M. A. B. Abbasi, O. Yurduseven, "Assessment and optimization of disordered distribution reflecting metasurfaces for computational imaging", Progress in Electromagnetics Research Symposium, 2023. [91] A. Li, M. Zhao, M. A. B. Abbasi, O. Yurduseven, "Dual-polarized reflectarray-based metasurface aperture for computational polarimetric imaging at microwave frequencies", Progress in Electromagnetics Research Symposium, 2023. [90] O. Yurduseven, M. A. B. Abbasi, T. Fromenteze, M. G-Fernandez, A. A-Narciandi, R. Kumar and Vincent Fusco, “System Level Analysis of Computational Channel Characterization Using Compressive Surfaces”, European Conference on Antennas and Propagation, 2023. [89] R. Sharma, R. Kumar, B. Deka, V. Fusco and O. Yurduseven, “Effect of Magnitude and Phase of Millimeter-Wave Images on Classification Accuracy”, European Conference on Antennas and Propagation, 2023. [88] R. Sharma, J, Zhang, R. Kumar, B. Deka, V. Fusco, and O. Yurduseven, “Super-Resolution Reconstruction and Denoising of 3D Millimetre-Wave Images Using a Complex-Valued Convolutional Neural Network”, European Conference on Antennas and Propagation, 2023. [87] M. G-Fernandez, G. A-Narciandi, and O. Yurduseven, “Frequency-Diverse Metasurface Antenna for Computational Through-Wall Imaging”, European Conference on Antennas and Propagation, 2023. [86] G. A-Narciandi, M. G-Fernandez, and O. Yurduseven, “C-Band Two-Dimensional Dynamic Metasurface Antenna for Through-The-Wall Computational Imaging”, European Conference on Antennas and Propagation, 2023. [85] V. Skouroliakou, A. M. Molaei, and O. Yurduseven, “Towards Real-Time Three-Dimensional (3D) Imaging Using Dynamic Metasurface Antennas”, European Conference on Antennas and Propagation, 2023.[84] R. Kumar, V. Fusco, and O. Yurduseven, “Computational Millimetre-wave Imaging Based on Single Electric-Field Scan”, European Microwave Week, 2022.[83] R. Kumar, A. M. Molaei, V. Fusco, and O. Yurduseven, “Millimetre-Wave Radar System for SAR Imaging,” European Microwave Week, 2022.[82] R. Kumar, V. Fusco, and O. Yurduseven, “Preliminary Study of Breast Cancer Detection using Millimetre-wave Computational Imaging System,” European Microwave Week, 2022.[81] V. Skouroliakou, A. M. Molaei, V. Fusco, and O. Yurduseven, “Real-Time Radar Algorithms for Multistatic Millimetre-wave Imaging with Sparse Apertures,” Microwave and Radar Week, 2022.[80] A. M. Molaei, R. Kumar, S. Hu, V. Skouroliakou, V. Fusco, and O. Yurduseven, “A Compressive-Sensing-Based Approach for mm-Wave Imaging Compatible with Fourier-based Image Reconstruction Techniques,” International Radar Symposium, 2022.[79] A. M. Molaei, P. del-Hougne, V. Fusco, and O. Yurduseven, “Numerical-Analytical Study of Performance of Mixed-Order Statistics Algorithm,” International Radar Symposium, 2022.[78] T. Fromenteze, M. Davy, O. Yurduseven, Y. Marie-Joseph, and C. Decroze, “Space-time coherence processing of electromagnetic fields in complex media,” IEEE AP-S, 2022.[77] S. Hu, Amir M. Molaei, and O. Yurduseven, “220 GHz Sparse Imaging with Multi-static Aperiodic Array,” SPIE Defense + Commercial Sensing, 2022.[76] Amir M. Molaei, S. Hu, V. Fusco, and O. Yurduseven, “A Multi-Resolution Analysis-Based Approach to Accelerate Data Acquisition for Near-Field MIMO Millimeter-wave Imaging,” SPIE Defense + Commercial Sensing, 2022.[75] Thomas Fromenteze, O. Yurduseven, P. del Hougne, and David R. Smith, “Principal Component Analysis for Microwave and Millimeter wave Computational Imaging,” iWAT, 2022.[74] S. Hu, Amir M. Molaei, and O. Yurduseven, “FFT-Based 220 GHz Sparse Imaging for Target Detection” iWAT, 2022.[73] Vasiliki Skouroliakou, Amir Masoud Molaei, Vincent Fusco, and O. Yurduseven, "Fourier-Based Radar Processing for Multistatic Millimetre-wave Imaging with Sparse Apertures", EuCAP, 2022. [72] The Viet Hoang, Vincent Fusco, Thomas Fromenteze, and O. Yurduseven, "Dynamic Metasurface Antenna for Computational Polarimetric Imaging", EuCAP, 2022.[71] Rahul Sharma, Raphael Hussung, Andreas Keil, Fabian Friederich, Thomas Fromenteze, Mohsen Khalily, Bhabesh Deka, Vincent Fusco, and O. Yurduseven, "Performance Analysis of Classification Algorithms for Millimeter-Wave Imaging", EuCAP, 2022.[70] O. Yurduseven, The Viet Hoang, Muhammad Ali Babar Abbasi, and Vincent Fusco, "Compressive Direction of Arrival Estimation with Wave-Chaotic Antennas," Progress in Electromagnetics Research Symposium (PIERS), 2021. [69] O. Yurduseven, 8th International Conference on Antennas and Electromagnetic Systems, invited talk, 2021. [68] O. Yurduseven, "Compressive Imaging and Direction of Arrival Estimation using Reconfigurable Metasurface Apertures," URSI GASS, 2021.[67] Rahul Sharma, The Viet Hoang, Bhabesh Deka, Vincent Fusco, and O. Yurduseven, "Towards a convolutional neural network coupled millimetre-wave coded aperture image classifier system," SPIE Defense + Commercial Sensing, vol. 11745, pp. 117450C, 2021. [66] The Viet Hoang, Rahul Sharma, Vincent Fusco, and O. Yurduseven, "Single-pixel compressive direction of arrival estimation using programmable metasurface apertures," SPIE Defense + Commercial Sensing, vol. 11745, pp. 117450B, 2021. [65] The Viet Hoang, Vincent Fusco, and O. Yurduseven, “Ghost Image Removal using Physical Layer Spatial Asymmetry in Frequency-Diverse Computational Imaging”, EuCAP, pp. 1-5, 2021.[64] M. Ali Babar Abbasi, Vincent Fusco, O. Yurduseven, “Millimeter-wave Channel Sounding Technique using Oversized Lens-Loaded Cavity”, EuCAP, pp. 1-3, 2021.[63] O. Yurduseven, et al., “Towards a Si/GaAs Based Flat-Panel Quasi-Optical Metasurface Antenna with Switchable Beam Characteristics,” European Conference on Antennas and Propagation (EuCAP), Copenhagen, Denmark, 2020 (invited).[62] O. Yurduseven, et al, “Design of a Quasi-Optical Si/GaAs W-Band Beam-Forming Metasurface Antenna,” IEEE International Symposium on Antennas and Propagation, pp. 1713-1714, 2019, Atlanta, Georgia, 2019. (Invited).[61] O. Yurduseven, Ken Cooper, and Goutam Chattopadhyay, “Beam Resolution Analysis of a 340 GHz Radar using Acoustic Levitation,” Passive and Active Millimeter Wave Imaging XXII, SPIE Defense + Commercial Sensing, Baltimore, Maryland, 2019 (invited).[60] O. Yurduseven, Thomas Fromenteze, Ken Cooper, Goutam Chattopadhyay, and David R. Smith, “From microwaves to submillimeter waves: modern advances in computational imaging, radar, and future trends,” Terahertz, RF, Millimeter, and Submillimeter-Wave Technology and Applications XII, SPIE Photonics West, San Francisco, CA, vol. 10917, pp. 1091710 (invited).[59] David R. Smith, D. L. Marks, O. Yurduseven, Mohammadreza F. Imani, and Jonah Gollub, “Optimizing Information Gathering Capabilities of a Metasurface,” Metamaterials 2017, Marseille, France, 2017 (invited).[58] Thomas Fromenteze, Cyril Decroze, O. Yurduseven, and David R. Smith, “Microwave Computational Imaging: Simplifying RF Architectures with Cavities and Metasurfaces,” URSI 2017, Montreal, Canada, 2017 (invited).[57] David R. Smith, O. Yurduseven, Daniel L. Marks, and Jonah N. Gollub, “Optimized Metasurface Apertures for Human-Scale Millimeter Wave Computational Imaging System,” IEEE International Symposium on Antennas and Propagation (AP-S), San Diego, California, 2017 (invited).[56] O. Yurduseven, Jonah N. Gollub, Mohammadreza F. Imani, Thomas Fromenteze, Timothy Sleasman, Parker Trofatter, Michael Boyarsky, Alec Rose, Daniel Arnitz, Matthew Reynolds, Daniel L. Marks, and David R. Smith, “Computational Frequency-Diverse Imaging using Coded Metasurface Apertures,” European Microwave Week (EuMW), Nuremberg, Germany, October 2017 (invited).[55] O. Yurduseven, Jonah N. Gollub, Mohammadreza F. Imani, Timothy Sleasman, Parker Trofatter, Michael Boyarsky, Alec Rose, Daniel Arnitz, Matthew Reynolds, Daniel L. Marks, and David R. Smith, “Computational Frequency-Diverse Microwave Imaging using Metasurface Apertures in the Fresnel-Zone,” Concealed Explosives Detection (CED) Workshop, University of Cambridge, Cambridge, U.K., September 2016 (invited).[54] David R. Smith, Jonah N. Gollub, Mohammadreza F. Imani, O. Yurduseven, Timothy Sleasman, Parker Trofatter, Alec Rose, Daniel Arnitz, Matthew Reynolds, Daniel L. Marks, Hayrettin Odabasi, Guy Lipworth, Michael Boyarsky, and Vinay Gowda, “Fresnel-Zone Computational Imaging via Frequency-Diverse Apertures,” IEEE International Symposium on Antennas and Propagation (AP-S), Fajardo, Puerto Rico, 2016 (invited).[53] Michael Elsdon and O. Yurduseven, “Reduced Size Antenna Design using Metamaterials,” EMN Metamaterials Meeting, Dubrovnik, Croatia, May 2016 (invited).[52] Hu Zheng, David Smith, Michael Elsdon, Bryan Livingstone, Wai Pang Ng, and O. Yurduseven, “Microwave Inverse Scattering using Scalar Indirect Holographic Techniques,” Mediterranean Microwave Symposium, Marrakech, Morocco, December, pp. 1-6, Dec. 2014 (invited).[51] David Smith, O. Yurduseven, Bryan Livingstone, John Jackson, and Vladimir Schejbal, “Image Reconstruction from Intensity Only Measurements using Development in Fourier Transform Techniques,” Mediterranean Microwave Symposium, Lebanon, 2013. (invited)[50] David Smith, O. Yurduseven, and Bryan Livingstone, “The use of indirect holographic techniques for microwave imaging,” Microwave and Radio Electronics Week (MAREW), Pardubice, Czech Republic, pp. 16-21, 2013. (invited)[49] O. Yurduseven, David Smith, Bryan Livingstone, and Vladimir Schejbal, “Investigation of resolution limits for indirect microwave holographic imaging,” Mediterranean Microwave Symposium (MMS), Istanbul, Turkey, 2012 – (best paper award) - (invited)[48] O. Yurduseven, Symon Podilchak and Mohsen Khalily, “Towards Holographic Beam-Forming Metasurface Technology for Next Generation CubeSats,” 5th International Conference on the UK-China Emerging Technologies (UCET), Glasgow, UK, 2020.[47] M. Ali Babar Abbasi, Vincent F. Fusco, and O. Yurduseven, “High Directivity Beamformer for Millimeter-wave 5G Base Stations,” IEEE 5G World Forum, 2020.[46] O. Yurduseven, Aaron Pereira, “Next Generation Phased Array Antennas for Satellite Communications,” 71st International Astronautical Congress, 2020.[45] Aaron Pereira, O. Yurduseven, “Novel AESA Architecture for Earth Observation and Planetary Sciences,” 71st International Astronautical Congress, 2020.[44] Aaron Pereira, O. Yurduseven, et al, “Novel Architectures for Orbital SAR Sensors” COSPAR Scientific Assembly, 2020.[43] Thomas Fromenteze, O. Yurduseven, Fabien Berland, Cyril Decroze, David R. Smith and Alexander G. Yarovoy, “Accelerating Short Range MIMO Imaging with Optimized Fourier Processing,” SPIE Defense + Commercial Sensing, 114110D, 2020.[42] O. Yurduseven, Thomas Fromenteze, Rixi Peng, and David R. Smith, “Frequency-Diverse Computational Polarimetric Imaging,” European Conference on Antennas and Propagation (EuCAP), pp. 1-4, Krakow, Poland, 2019.[41] O. Yurduseven, Daniel L. Marks, Jonah N. Gollub, and David R. Smith, “A Reconfigurable Millimeter-wave Spotlight Metasurface Aperture Integrated with a Frequency-Diverse Microwave Imager for Security-Screening,” SPIE Defence + Security, Passive and Active Millimeter-Wave Imaging XXI 10634, pp. 1063406, Orlando, Florida, 2018.[40] O. Yurduseven, Thomas Fromenteze, and David R. Smith, “Design of a Reconfigurable Metasurface Antenna for Dynamic Near-Field Focusing,” IEEE International Symposium on Antennas and Propagation (AP-S), pp. 1707-1708, Boston, Massachusetts, 2018.[39] O. Yurduseven, Thomas Fromenteze, and David R. Smith, “Additive Manufacturing of a Conductive Polymer Cavity-Backed Metasurface Antenna for Computational Microwave Imaging,” IEEE International Symposium on Antennas and Propagation (AP-S), pp. 233-234, Boston, Massachusetts, 2018.[38] O. Yurduseven, Thomas Fromenteze, and David R. Smith, “Phase Retrieval in Frequency-Diverse Imaging,” IEEE International Symposium on Antennas and Propagation (AP-S), pp. 1797-1798, Boston, Massachusetts, 2018.[37] O. Yurduseven, Thomas Fromenteze, and David R. Smith, “Computational Millimeter-wave Spotlight Imaging using Holographic Metasurface Antennas,” IEEE International Symposium on Antennas and Propagation (AP-S), pp. 1461-1462, Boston, Massachusetts, 2018.[36] David R. Smith, O. Yurduseven, Jonah N. Gollub and Daniel L. Marks, “Frequency-Diverse Metasurface Antennas in Computational Imaging and Security-Screening, IEEE International Symposium on Antennas and Propagation (AP-S), Boston, Massachusetts, 2018.[35] O. Yurduseven, Jonah N. Gollub, Daniel L. Marks, and David R. Smith, “Alignment Correction for Antenna Scans in Imaging,” IEEE International Symposium on Antennas and Propagation (AP-S), pp. 2381-2382, San Diego, California, 2017.[34] O. Yurduseven, Daniel L. Marks, Jonah N. Gollub, and David R. Smith, “Synthesizing a Frequency-Diverse Aperture for Security-Screening Applications,” IEEE International Symposium on Antennas and Propagation (AP-S), pp. 2383-2384, San Diego, California, 2017.[33] Thomas Fromenteze, Michael Boyarsky, O. Yurduseven, Jonah N. Gollub, Daniel L. Marks, and David R. Smith, “Computational Polarimetric Localization with a Radiating Metasurface,” IEEE International Symposium on Antennas and Propagation (AP-S), pp. 407-408, San Diego, California, 2017.[32] O. Yurduseven, Thomas Fromenteze, Jonah N. Gollub, Daniel L. Marks, and David R. Smith, “Computational Frequency-Diverse Microwave Imaging using an Air-Filled Cavity-Backed Antenna,” European Conference on Antennas and Propagation (EuCAP), pp. 3589-3592, Paris, France, 2017.[31] O. Yurduseven, Jonah N. Gollub, Thomas Fromenteze, Daniel L. Marks, and David R. Smith, “Optimization of Frequency-Diverse Antennas for Computational Imaging at Microwave Frequencies,” European Conference on Antennas and Propagation (EuCAP), pp. 1410-1414, Paris, France, 2017.[30] Jonah N. Gollub, O. Yurduseven, et. al., “Computational Imaging using Frequency-Diverse Metasurfaces,” European Conference on Antennas and Propagation (EuCAP), pp. 1208-1211, Paris, France, 2017.[29] David R. Smith, Matthew S. Reynolds, Jonah N. Gollub, Daniel L. Marks, Mohammadreza F. Imani, O. Yurduseven, Daniel Arnitz, Andreas Pedross-Engel, Timothy Sleasman, Parker Trofatter, Michael Boyarsky, Alec Rose, Hayrettin Odabasi, and Guy Lipworth, “Security Screening via Computational Imaging using Frequency-Diverse Metasurface Panels,” SPIE Defense and Security, pp. 101890B-101890B-7, 2017.[28] Farhat Nashad, Stephen Foti, David Smith, Michael Elsdon, and O. Yurduseven, “Development of Transparent Patch Antenna Element Integrated with Solar Cells for Ku-band Satellite Applications,” Loughborough Antennas & Propagation Conference, pp. 1-5, Loughborough, U.K., 2016.[27] O. Yurduseven, Jonah N. Gollub, Daniel L. Marks, and David R. Smith, “Field Repeatability in Frequency Diverse Imaging,” IEEE International Symposium on Antennas and Propagation (AP-S), pp. 853-854, 2016.[26] O. Yurduseven, Jonah N. Gollub, Daniel L. Marks, and David R. Smith, “Metallization of a 3D Printed Cavity for Imaging,” IEEE International Symposium on Antennas and Propagation (AP-S), Fajardo, Puerto Rico, pp. 855-856, 2016.[25] Thomas Fromenteze, Ettien L. Kpre, Cyril Decroze, O. Yurduseven, Mohammadreza F. Imani, Jonah Gollub, and David Smith, “Unification of Compressed Imaging Techniques in the Microwave Range and Deconvolution Strategy,” European Radar Conference (EuRAD), pp. 161-164, 2015.[24] O. Yurduseven, Jonah Gollub, Hayrettin Odabasi, Mohammadreza F. Imani, Guy Lipworth, Alec Rose, Parker Trofatter, and D. R. Smith, “Comparison of Different Reconstruction Algorithms for Image Reconstruction in Metamaterial Aperture Based Imaging System,” European Conference on Antennas and Propagation (EuCAP), pp. 1-5, 2015.[23] O. Yurduseven, Jonah Gollub, Hayrettin Odabasi, Mohammadreza F. Imani, Guy Lipworth, Alec Rose, Parker Trofatter, and D. R. Smith, “Probe Configuration Study for the Metamaterial Aperture Imager,” European Conference on Antennas and Propagation (EuCAP), pp.1-4, 2015.[22] David Smith, O. Yurduseven, Bryan Livingstone, Hu Zheng, “An outline of indirect holographic methods for antenna measurements and microwave imaging,” Radioelektronika, pp. 1-6, April 2014.[21] O. Yurduseven, David Smith, and Michael Elsdon, “A Dual-Polarised Solar Cell Stacked Microstrip Patch Antenna with a λ/4 DC/RF Isolation Circuit for 5.8 GHz band WiMAX Networks,” European Conference on Antennas and Propagation (EuCAP), pp. 1382-1385, April 2014.[20] O. Yurduseven, David Smith, and Michael Elsdon, “A Transparent Meshed Solar Monopole Antenna for UWB Applications,” European Conference on Antennas and Propagation (EuCAP), pp. 2145-2149, 2014.[19] O. Yurduseven, David Smith, and Nicola Pearsall, “Solar cell stacked modified Z-double L-slot Quad-band PIFA,” European Conference on Antennas and Propagation (EuCAP), Gothenburg, Sweden, pp. 3721-3725, 2013.[18] O. Yurduseven, David Smith, and Michael Elsdon, “Cross-coax fed wideband solar patch antenna,” Microwave and Radio Electronics Week (MAREW), Pardubice, Czech Republic, pp. 25-30, 2013.[17] O. Yurduseven, David Smith, Nicola Pearsall, Ian Forbes, and David Johnston, “A Meshed Multiband Solar Patch Array Antenna,” Loughborough Antennas and Propagation Conference (LAPC), Loughborough, UK, pp. 1-5, 2012.[16] O. Yurduseven, David Smith, Nicola Pearsall, and Ian Forbes, “A Triband Short-Circuited Suspended Solar Patch Antenna,” International Symposium on Antennas, Propagation and EM Theory (ISAPE), Xi’an, China, pp. 294-297, 2012.[15] O. Yurduseven, and David Smith, “Symmetric/Asymmetric H-Plane Horn Fed Offset Parabolic Reflector Antenna with Switchable Pencil/Fan-Beam Radiation Patterns,” International Symposium on Antennas, Propagation and EM Theory (ISAPE), Xi’an, China, pp. 82-85, 2012.[14] O. Yurduseven, David Smith, Nicola Pearsall, and Ian Forbes, “A Solar Parabolic Reflector Antenna Design for Digital Communication Systems,” 8th IEEE IET International Symposium on Communication Systems, Networks and Digital Signal Processing (CSNDSP), Poznan, Poland, pp. 1-3, 2012.[13] Freeborn Bobor-Oyibo, Stephen J. Foti, David Smith, and O. Yurduseven, “Modelling and Analysis of a Smart Antenna System with Sub-Sector Dynamic Capacity Enhancement for Mobile Telecommunication Networks,” 8th IEEE IET International Symposium on Communication Systems, Networks and Digital Signal Processing (CSNDSP), Poznan, Poland, pp. 1-4, 2012.[12] O. Yurduseven, David Smith, Nicola Pearsall, and Ian Forbes, “Design of a Highly Efficient Wideband Suspended Solar Array Antenna,” IEEE International Symposium on Antennas and Propagation (AP-S), Chicago, USA, pp. 1-2, July 2012. [11] O. Yurduseven, David Smith, Freeborn Bobor-Oyibo, and Stephen J. Foti, “Design of a Highly Efficient Beam Scanning Asymmetric H-Plane Horn Antenna,” IEEE International Workshop on Antenna Technology (IWAT), Tucson, Arizona, USA, pp. 108-111, March 2012.[10] Freeborn Bobor-Oyibo, Stephen J. Foti, David Smith, and O. Yurduseven, “A Smart Antenna System with Sub-Sector Capacity Enhancement for Mobile Telecommunication Networks,” IEEE International Workshop on Antenna Technology (IWAT), Tucson, Arizona, USA, pp. 100-103, March 2012.[9] O. Yurduseven, David Smith, Nicola Pearsall, and Ian Forbes, “A Transparent Solar Patch Antenna for 2.4/2.5 GHz WLAN-WiMAX Applications,” 2nd International Symposium on Environment-Friendly Energies and Applications (EFEA), Newcastle upon Tyne, United Kingdom, pp. 614-617, 2012.[8] O. Yurduseven, David Smith, Nicola Pearsall, and Ian Forbes, “A suspended Solar Patch Array Fed Offset Reflector Antenna,” URSI UK Radio Science Festival, Durham, United Kingdom, 2012.[7] O. Yurduseven and Ozan Yurduseven, “Compact Parabolic Reflector Antenna Design with Cosecant-Squared Radiation Pattern,” Microwaves, Radar and Remote Sensing Symposium (MRRS), Kiev, Ukraine, pp. 382-385, August 2011.[6] Ozan Yurduseven and O. Yurduseven, “Analysis of Back Wall Smoothing and Multisource Feeding Effects for H-Plane Horn Radiator,” Microwaves, Radar and Remote Sensing Symposium (MRRS), Kiev, Ukraine, pp. 89-92, August 2011.[5] O. Yurduseven, Okan Mert Yucedag, and Ahmet Serdar Turk, “Cosecant-Squared Parabolic Reflector Antenna Design for Air and Coastal Surveillance Radars,” Radar Methods and Systems Workshop (RMSW), Kiev, Ukraine, September 2010.[4] Senem Makal, O. Yurduseven, and Ahmet Kizilay, “Neural Network Approach for Defining Electrical and Physical Properties of Dielectric Targets,” ASYU, Kayseri, Turkey, June 2010 (in Turkish).[3] O. Yurduseven, Ozan Yurduseven, and Ahmet Serdar Turk, “Cosecant-Squared Parabolic Reflector Antenna Design for Air Surveillance Radars,” URSI, Cyprus, August 2010. (in Turkish).[2] O. Yurduseven and Ahmet Serdar Turk, “Convex Parabolic Reflector Antenna Design with Cosecant-Squared Radiation Pattern for Microwave Radar Systems,” National Conference on Electrical, Electronics and Computer Engineering (ELECO), Bursa, Turkey, pp. 469-473, December 2010 (in Turkish).[1] O. Yurduseven, Ozan Yurduseven and Ahmet Serdar Turk, “Radar Cross Section Analysis of Various Objects and RCS Optimization,” National Conference on Electrical, Electronics and Computer Engineering (ELECO), Bursa, Turkey, pp. 474-478, December 2010 (in Turkish).
Patents
Issued:
[3] David. R. Smith, Guillermo Sapiro, Daniel L. Marks, Patrick Bowen, Roberto Zecca, Okan Yurduseven, and Jonah N. Gollub, “Symphotic Structures,” U.S. Patent 11,705,632, 2023, Date of Patent: 18 July 2023.
https://patents.google.com/patent/US11705632B2/en?q=(yurduseven)&oq=yurduseven
[2] Okan Yurduseven, Vinay R. Gowda, Jonah N. Gollub, and David R. Smith, “Printed cavities for Computational Microwave Imaging and Methods of Use,” US Patent No 11,038,263, Date of Patent: 15 June 2021.
https://patentimages.storage.googleapis.com/38/80/82/b04b1e97676f1d/US11038263.pdf
[1] Guy S. Lipworth, David R. Smith, Yaroslav Urzhumov, and Okan Yurduseven, “Wireless Power Transfer in the Fresnel Zone with a Dynamic Metasurface Antenna,” US Patent No 11,075,463, Date of Patent: 27 Jul 2021.
https://patentimages.storage.googleapis.com/f2/a4/09/f5db71fb794fbd/US11075463.pdf
[3] David. R. Smith, Guillermo Sapiro, Daniel L. Marks, Patrick Bowen, Roberto Zecca, Okan Yurduseven, and Jonah N. Gollub, “Symphotic Structures,” U.S. Patent 11,705,632, 2023, Date of Patent: 18 July 2023.
https://patents.google.com/patent/US11705632B2/en?q=(yurduseven)&oq=yurduseven
[2] Okan Yurduseven, Vinay R. Gowda, Jonah N. Gollub, and David R. Smith, “Printed cavities for Computational Microwave Imaging and Methods of Use,” US Patent No 11,038,263, Date of Patent: 15 June 2021.
https://patentimages.storage.googleapis.com/38/80/82/b04b1e97676f1d/US11038263.pdf
[1] Guy S. Lipworth, David R. Smith, Yaroslav Urzhumov, and Okan Yurduseven, “Wireless Power Transfer in the Fresnel Zone with a Dynamic Metasurface Antenna,” US Patent No 11,075,463, Date of Patent: 27 Jul 2021.
https://patentimages.storage.googleapis.com/f2/a4/09/f5db71fb794fbd/US11075463.pdf
Book Chapter
David Gonzalez-Ovejero, Okan Yurduseven, Goutam Chattopadhyay, and Nacer Chahat, “Metasurface Antennas: Flat Antennas for Small Satellites,” IEEE-Wiley, 2021.