Joint channel estimation and equalization for index-modulated spectrally efficient frequency division multiplexing systems
Joint channel estimation and equalization for index-modulated spectrally efficient frequency division multiplexing systems
Spectrally efficient frequency division multiplexing (SEFDM) relying on index modulation (IM) has emerged as a promising multicarrier technique. In this paper, we develop a joint channel estimation and equalization method based on factor graphs for SEFDM-IM signaling over frequency-selective fading channels. By approximating the interference in the frequency domain, we reformulate the problem to obey a linear state-space model and construct a multi-layer factor graph. To support a reconfigurable architecture, non-orthogonal demodulation is adopted and the colored noise encountered is approximated by a complex auto-regressive (CAR) model. For deriving a low-complexity parametric Gaussian message passing (GMP)-based method, we exploit an expectation propagation (EP)-based technique for approximating the discrete a posteriori distributions of the transmitted symbols in a Gaussian form. To further simplify the result, variational message passing (VMP) is applied to an equivalent soft node to obtain a Gaussian form. Moreover, we also derive the Cram'er–Rao lower bound (CRLB) in closed-form. The overall complexity only grows linearly with the number of subcarriers and logarithmically with the length of the channel’s memory. Compared to its Nyquist signaling based counterpart, SEFDM-IM signaling relying on the proposed algorithm exhibits up to 25% higher bandwidth efficiency without any bit error rate (BER) performance degradation.
Ma, Yunsi
bc16d1c9-b7b9-4147-a7de-55b053c4494c
Wu, Nan
964cdaa3-e2ac-462f-8c54-4e4ef928248b
Yuan, Weijie
f1d6dc8e-6e97-4c5b-bfc7-78f48efb93b7
Ng, Derrick Wing Kwan
8e2a32d3-cb0d-4c38-b05c-03ef16a5c707
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Ma, Yunsi
bc16d1c9-b7b9-4147-a7de-55b053c4494c
Wu, Nan
964cdaa3-e2ac-462f-8c54-4e4ef928248b
Yuan, Weijie
f1d6dc8e-6e97-4c5b-bfc7-78f48efb93b7
Ng, Derrick Wing Kwan
8e2a32d3-cb0d-4c38-b05c-03ef16a5c707
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Ma, Yunsi, Wu, Nan, Yuan, Weijie, Ng, Derrick Wing Kwan and Hanzo, Lajos
(2020)
Joint channel estimation and equalization for index-modulated spectrally efficient frequency division multiplexing systems.
IEEE Transactions on Communications.
(In Press)
Abstract
Spectrally efficient frequency division multiplexing (SEFDM) relying on index modulation (IM) has emerged as a promising multicarrier technique. In this paper, we develop a joint channel estimation and equalization method based on factor graphs for SEFDM-IM signaling over frequency-selective fading channels. By approximating the interference in the frequency domain, we reformulate the problem to obey a linear state-space model and construct a multi-layer factor graph. To support a reconfigurable architecture, non-orthogonal demodulation is adopted and the colored noise encountered is approximated by a complex auto-regressive (CAR) model. For deriving a low-complexity parametric Gaussian message passing (GMP)-based method, we exploit an expectation propagation (EP)-based technique for approximating the discrete a posteriori distributions of the transmitted symbols in a Gaussian form. To further simplify the result, variational message passing (VMP) is applied to an equivalent soft node to obtain a Gaussian form. Moreover, we also derive the Cram'er–Rao lower bound (CRLB) in closed-form. The overall complexity only grows linearly with the number of subcarriers and logarithmically with the length of the channel’s memory. Compared to its Nyquist signaling based counterpart, SEFDM-IM signaling relying on the proposed algorithm exhibits up to 25% higher bandwidth efficiency without any bit error rate (BER) performance degradation.
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Final (1)
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Accepted/In Press date: 29 June 2020
Identifiers
Local EPrints ID: 442242
URI: http://eprints.soton.ac.uk/id/eprint/442242
ISSN: 0090-6778
PURE UUID: da0d477e-3559-4409-8158-2e044e9e4feb
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Date deposited: 09 Jul 2020 16:39
Last modified: 17 Mar 2024 02:34
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Contributors
Author:
Yunsi Ma
Author:
Nan Wu
Author:
Weijie Yuan
Author:
Derrick Wing Kwan Ng
Author:
Lajos Hanzo
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