Design of reconfigurable SDR platform for antenna selection aided MIMO communication system
Design of reconfigurable SDR platform for antenna selection aided MIMO communication system
In recent years, antenna selection (AS) has become one of the most popular research topics for massive multiple-input multiple-output (MIMO) system due to its capability of reducing the number of radio frequency chains utilized for MIMO communications, while remaining the MIMO advantages, such as increased bandwidth efficiency and reliability. In this paper, an efficient norm-based AS (NBAS) algorithm is investigated and implemented in the software defined radio (SDR) MIMO communication platform, which consists of field-programmable gate arrays (FPGAs). Owing to the high freedom and fast reconfigurable FPGA hardware, the SDR MIMO communication platform is capable of developing prototype of NBAS-aided MIMO system. More specifically, the implemented NBAS aided SDR MIMO system is capable of achieving uplink communication from users to the base station via time division duplex (TDD). A time-varying fading channel generation model is designed for SDR MIMO platform to enrich our experimental results. Additionally, a novel multiplexer (MUX) circuit module is designed and implemented to enhance the hardware performance of the FPGA in term of delay and resource usage. More specifically, the Results show that by implementing the low-complexity NBAS, the channel capacity performance of the SDR MIMO system may be significantly improved by around 15%. It is also showed that our proposed optimized MUX circuit intellectual property may reduce the critical path delay by about 2:16 ns, and save at lease 3% hardware resources in SDR FPGA.
169267-169280
Zhang, Peichang
ec887077-dc96-4b72-8caa-719a5a1a9ba8
Xu, Jiajun
97729e08-c39e-4378-b87c-d5780db91cb0
Zhong, Shida
53d7aec0-58ef-4673-921b-86e22269675a
Feng, Haogang
4fd51a2b-e4a3-4a51-a795-5ee8bc379fe9
Huang, Lei
d41482d3-b4c6-497f-880e-64eaa552827a
Yuan, Yao
815b7b2c-1516-46a1-a3aa-67a2068b0675
Zhang, Jiankang
6add829f-d955-40ca-8214-27a039defc8a
Zhang, Peichang
ec887077-dc96-4b72-8caa-719a5a1a9ba8
Xu, Jiajun
97729e08-c39e-4378-b87c-d5780db91cb0
Zhong, Shida
53d7aec0-58ef-4673-921b-86e22269675a
Feng, Haogang
4fd51a2b-e4a3-4a51-a795-5ee8bc379fe9
Huang, Lei
d41482d3-b4c6-497f-880e-64eaa552827a
Yuan, Yao
815b7b2c-1516-46a1-a3aa-67a2068b0675
Zhang, Jiankang
6add829f-d955-40ca-8214-27a039defc8a
Zhang, Peichang, Xu, Jiajun, Zhong, Shida, Feng, Haogang, Huang, Lei, Yuan, Yao and Zhang, Jiankang
(2019)
Design of reconfigurable SDR platform for antenna selection aided MIMO communication system.
IEEE Access, 7, .
(doi:10.1109/ACCESS.2019.2946720).
Abstract
In recent years, antenna selection (AS) has become one of the most popular research topics for massive multiple-input multiple-output (MIMO) system due to its capability of reducing the number of radio frequency chains utilized for MIMO communications, while remaining the MIMO advantages, such as increased bandwidth efficiency and reliability. In this paper, an efficient norm-based AS (NBAS) algorithm is investigated and implemented in the software defined radio (SDR) MIMO communication platform, which consists of field-programmable gate arrays (FPGAs). Owing to the high freedom and fast reconfigurable FPGA hardware, the SDR MIMO communication platform is capable of developing prototype of NBAS-aided MIMO system. More specifically, the implemented NBAS aided SDR MIMO system is capable of achieving uplink communication from users to the base station via time division duplex (TDD). A time-varying fading channel generation model is designed for SDR MIMO platform to enrich our experimental results. Additionally, a novel multiplexer (MUX) circuit module is designed and implemented to enhance the hardware performance of the FPGA in term of delay and resource usage. More specifically, the Results show that by implementing the low-complexity NBAS, the channel capacity performance of the SDR MIMO system may be significantly improved by around 15%. It is also showed that our proposed optimized MUX circuit intellectual property may reduce the critical path delay by about 2:16 ns, and save at lease 3% hardware resources in SDR FPGA.
Text
FINAL Article2
- Accepted Manuscript
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Accepted/In Press date: 30 September 2019
e-pub ahead of print date: 11 October 2019
Identifiers
Local EPrints ID: 434987
URI: http://eprints.soton.ac.uk/id/eprint/434987
ISSN: 2169-3536
PURE UUID: 0c0d2166-22f0-4c47-a3b1-997d66462046
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Date deposited: 17 Oct 2019 16:30
Last modified: 17 Mar 2024 03:19
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Author:
Peichang Zhang
Author:
Jiajun Xu
Author:
Shida Zhong
Author:
Haogang Feng
Author:
Lei Huang
Author:
Yao Yuan
Author:
Jiankang Zhang
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