This book will be a useful resource for all those working in wireless communication, microwave engineering, and electromagnetic design. Newcomers will find foundational knowledge about metamaterials and their applications, while seasoned researchers will benefit from in-depth discussions and innovative approaches to antenna design.
This book will be a useful resource for all those working in wireless communication, microwave engineering, and electromagnetic design. Newcomers will find foundational knowledge about metamaterials and their applications, while seasoned researchers will benefit from in-depth discussions and innovative approaches to antenna design.
Mohammad Tariqul Islam (Senior Member, IEEE) is a Professor with the Department of Electrical, Electronic and Systems Engineering, Universiti Kebangsaan Malaysia (UKM) and a Visiting Professor with the Kyushu Institute of Technology, Japan. He has authored/coauthored about 800 research journal articles, nearly 250 conference articles, and a few books and chapters on various topics related to antennas, metamaterials, and microwave imaging with 25 inventory (parents granted 7). His Google scholar citation is 29,000 and H-index is 72. He was an Associate Editor of IET Electronics Letter. He also serves as the Guest Editor, SENSORS journal, Nanomaterials, and an Associate Editor for IEEE ACCESS and Editorial board Members for 'Scientific Reports' Journal by Springer Nature.
Inhaltsangabe
Preface. Metamaterial Frequency Selective Surface for 5G Applications. Polarization Insensitive Dual Band Planar Metamaterial Surface Design for Antenna Applications. Miniaturization Mechanism of Planar Antenna using Metamaterial Structure. High Refractive Index Metamaterial-based Radiation Aggregation for Gain Enhancement. Near Zero Index Metamaterial for Gain Enhancement of Multiband Patch Antenna. Isolation Enhancement of Wideband MIMO Antenna Using T-structured Metamaterial Shield. Bandwidth, Gain and Isolation Enhancement of Miniaturized MIMO Antenna Using Metamaterials. Metamaterial Based Beam Tilting for mm Wave Antenna Applications. Machine Learning-Driven Metamaterial Absorber for RCS Reduction in the Terahertz Range Antenna Optimization Perspective.
Preface. Metamaterial Frequency Selective Surface for 5G Applications. Polarization Insensitive Dual Band Planar Metamaterial Surface Design for Antenna Applications. Miniaturization Mechanism of Planar Antenna using Metamaterial Structure. High Refractive Index Metamaterial-based Radiation Aggregation for Gain Enhancement. Near Zero Index Metamaterial for Gain Enhancement of Multiband Patch Antenna. Isolation Enhancement of Wideband MIMO Antenna Using T-structured Metamaterial Shield. Bandwidth, Gain and Isolation Enhancement of Miniaturized MIMO Antenna Using Metamaterials. Metamaterial Based Beam Tilting for mm Wave Antenna Applications. Machine Learning-Driven Metamaterial Absorber for RCS Reduction in the Terahertz Range Antenna Optimization Perspective.
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