DGIST Scholar: Near-Field Magnetic Induction MIMO Communication Using Heterogeneous Multipole Loop Antenna Array for Higher Data Rate Transmission

Title: Near-Field Magnetic Induction MIMO Communication Using Heterogeneous Multipole Loop Antenna Array for Higher Data Rate Transmission

Citation: Kim, Han-Joon. (2016-05). Near-Field Magnetic Induction MIMO Communication Using Heterogeneous Multipole Loop Antenna Array for Higher Data Rate Transmission. IEEE Transactions on Antennas and Propagation, 64(5), 1952–1962. doi: 10.1109/TAP.2016.2539371

Author Keywords: Antenna array ; crosstalk cancellation ; electromagnetic coupling ; electromagnetic induction ; magnetic communication ; magnetic field ; multi-input-multi-output (MIMO) ; near-field communication (NFC)

Keywords: Antenna Array ; Antenna Arrays ; Audio Signal Processing ; Bottleneck Problem ; Capacity Enhancement ; Communication Schemes ; Cross-Talk Cancellation ; Crosstalk ; Crosstalk Cancellation ; Data Rate Transmission ; Directional Patterns (Antenna) ; Electromagnetic Coupling ; Electromagnetic Induction ; Loop Antennas ; Magnetic Communication ; Magnetic Communications ; Magnetic Field ; Magnetic Fields ; Magnetism ; MIMO ; Mimo Systems ; Mobile Antennas ; Multi-Input-Multi-Output (MIMO) ; Multi Input Multi Output ; Near-Field Communication (NFC) ; NFC ; Stalk Cancellation

Abstract: In this paper, we propose a novel method realizing multi-input-multi-output (MIMO) transmission in near-field magnetic induction (NFMI) communication for increasing channel capacity where limited capacity is a major bottleneck problem in magnetic communication systems. Since conventional magnetic communication systems using the same antenna patterns cannot easily implement MIMO transmission due to strong crosstalk between transmitters, we propose heterogeneous antenna arrays with multipole antennas, enabling crosstalk cancellation. We confirm the crosstalk cancellation of the proposed antenna array through numerical simulations and experiments, and verify the capacity enhancement of the proposed NFMI communication system over conventional NFMI communication schemes. © 1963-2012 IEEE.

Show Full Item Record