4.6 Article

Passive Backscatter Communication Scheme for OFDM-IM with Dynamic Carrier Activation

Journal

SENSORS
Volume 23, Issue 8, Pages -

Publisher

MDPI
DOI: 10.3390/s23083841

Keywords

backscatter communication; OFDM; index modulation; bit error rate

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This paper proposes a dynamic subcarrier activated OFDM-IM uplink communication scheme by introducing carrier index modulation into OFDM backscattering, which helps solve the problems of power consumption and communication distance in multicarrier backscattering. By detecting the power collection level of the backscatter device, only a subset of carrier modulation is activated, and the activated subcarriers are mapped using a block-wise combined index, improving the communication distance and spectral efficiency of low-order modulation backscattering.
Multicarrier backscattering has been proposed to improve the communication rate, but the complex circuit structure of multicarrier backscattering devices requires more power consumption, resulting in devices far away from the radio frequency (RF) source without enough power to maintain communication, which greatly reduces the limited communication range in backscattering. To solve this problem, this paper introduces carrier index modulation (IM) into orthogonal frequency division multiplexing (OFDM) backscattering and proposes a dynamic subcarrier activated OFDM-IM uplink communication scheme suitable for passive backscattering devices. When the existing power collection level of the backscatter device is detected, only a subset of carrier modulation is activated using part of the circuit modules to reduce the power threshold required for device activation. The activated subcarriers are mapped by a block-wise combined index using the look-up table method, which can not only transmit information using traditional constellation modulation but also carry additional information through the frequency domain carrier index. Monte Carlo experiments show that this scheme can effectively increase the communication distance and improve the spectral efficiency of low-order modulation backscattering when the power of the transmitting source is limited.

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