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Virtual spatial modulation for MIMO systems

Virtual spatial modulation for MIMO systems
Virtual spatial modulation for MIMO systems
Compared with the conventional amplitude phase modulation (APM), spatial modulation (SM) is a low-complexity, yet energy-efficient transmission technique, whereby transmit antenna (TA) indices are utilized to convey the information. However, the number of the required TAs grows exponentially with the number of transmitted bits, which leads to unacceptable pilot overhead for channel estimation in practical systems. To reduce the number of TAs whereas keep the data rate unchanged, virtual spatial modulation (VSM) is proposed in the first time. Specifically, by activating multiple TAs with their corresponding analog phase shifters (APSs), massive equivalent channel vectors could be constructed based on the combinations of original channel vectors from different TAs and their phase rotations. By way of mapping each equivalent channel vector to a virtual transmit antenna (VTA) index which might convey the information, the number of the required TAs could grow linearly with the number of transmitted bits. Furthermore, the selection of a VTA subset from all available VTAs is formulated as a combinatorial optimization problem to maximize the minimal Euclidean distance (ED) among the equivalent channel vectors. A spatial constellation optimizing (SCO) algorithm is proposed to obtain a near-optimal solution to this problem with low complexity. Simulation results demonstrate that the proposed VSM is able to achieve lower bit error rate (BER) under the same transmit rate compared with the conventional SM and APM schemes.
Zhu, Xudong
3b49d319-11ee-4755-bb65-c5de5276021c
Wang, Zhaocheng
70339538-3970-4094-bcfc-1b5111dfd8b4
Wang, Qi
ddfc62a2-708c-43b1-8eed-d68d4e87d96a
Haas, Harald
cdf0c1b3-2410-4cb4-bdc2-0221b5290267
Zhu, Xudong
3b49d319-11ee-4755-bb65-c5de5276021c
Wang, Zhaocheng
70339538-3970-4094-bcfc-1b5111dfd8b4
Wang, Qi
ddfc62a2-708c-43b1-8eed-d68d4e87d96a
Haas, Harald
cdf0c1b3-2410-4cb4-bdc2-0221b5290267

Zhu, Xudong, Wang, Zhaocheng, Wang, Qi and Haas, Harald (2016) Virtual spatial modulation for MIMO systems. IEEE Global Communications Conference (Globecom 2016), Washington, United States. 04 - 08 Dec 2016. (doi:10.1109/GLOCOM.2016.7842377).

Record type: Conference or Workshop Item (Paper)

Abstract

Compared with the conventional amplitude phase modulation (APM), spatial modulation (SM) is a low-complexity, yet energy-efficient transmission technique, whereby transmit antenna (TA) indices are utilized to convey the information. However, the number of the required TAs grows exponentially with the number of transmitted bits, which leads to unacceptable pilot overhead for channel estimation in practical systems. To reduce the number of TAs whereas keep the data rate unchanged, virtual spatial modulation (VSM) is proposed in the first time. Specifically, by activating multiple TAs with their corresponding analog phase shifters (APSs), massive equivalent channel vectors could be constructed based on the combinations of original channel vectors from different TAs and their phase rotations. By way of mapping each equivalent channel vector to a virtual transmit antenna (VTA) index which might convey the information, the number of the required TAs could grow linearly with the number of transmitted bits. Furthermore, the selection of a VTA subset from all available VTAs is formulated as a combinatorial optimization problem to maximize the minimal Euclidean distance (ED) among the equivalent channel vectors. A spatial constellation optimizing (SCO) algorithm is proposed to obtain a near-optimal solution to this problem with low complexity. Simulation results demonstrate that the proposed VSM is able to achieve lower bit error rate (BER) under the same transmit rate compared with the conventional SM and APM schemes.

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More information

Submitted date: 12 April 2016
Accepted/In Press date: 1 July 2016
e-pub ahead of print date: December 2016
Venue - Dates: IEEE Global Communications Conference (Globecom 2016), Washington, United States, 2016-12-04 - 2016-12-08
Organisations: Southampton Wireless Group
Learn more about Southampton Wireless Group research

Identifiers

Local EPrints ID: 401498
URI: http://eprints.soton.ac.uk/id/eprint/401498
DOI: doi:10.1109/GLOCOM.2016.7842377
PURE UUID: 4255b8ae-7370-4fd3-a3e2-82d2b2709284

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Date deposited: 18 Oct 2016 09:08
Last modified: 15 Mar 2024 02:48

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Contributors

Author: Xudong Zhu
Author: Zhaocheng Wang
Author: Qi Wang
Author: Harald Haas

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