Chan-Sic Park scite author profile

Chan-Sic Park

3Publications

12Citation Statements Received

28Citation Statements Given

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Affiliations

Chung-Ang University, Seoul National University

Publications

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Complexity reduced zero-forcing beamforming in massive MIMO systems

Park

Byun

Bokiye

et al. 2014

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Abstract-Data gathering is one of the most popular applications in multi-hop wireless sensor networks. Since resources are limited, it is important to efficiently allocate the resource Massive multi-input multi-output (m-MIMO) systems can provide a high degree of freedom in signal transmission, enabling to simultaneously serve a number of users with high transmissin capacity. Conventional zero-forcing beamforming (ZFBF) techniques can transmit multi-user signal while completely canceling out interbeam interference. However, they may have implementation difficulty when applied to m-MIMO systems mainly due to hugh processing complexity. In this paper, we design a complexity reduced ZFBF scheme by means of sequential interference cancellation. We first determine the beam weight according to the use of conventional maximum ratio transmission (MRT) scheme and calculate the corresponding interbeam interference. We calculate so-called an interference cancellation vector by sequentially cancelling out a predetermined number of interference sources in an order of the strongest interference. Finally, we determine the beam weight by adding the interference cancellation vector to the MRT beam weight. The number of interbeam interferences to be cancelled out can be pre-determined taking into consideration of the processing complexity and required performance. As the number of interbeam interferences to be cancelled out increases, the performance of the proposed scheme approaches to that of ZFBF. The numerical and simulation results show that the proposed scheme can achieve about 90% capacity of ZFBF while requiring 2∼7% processing complexity of ZFBF in various operating environments with the use of 32 128 transmit antennas.

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Massive MIMO signal transmission in spatially correlated channel environments

Park

Byun

Lee

et al. 2016

J Wireless Com Network

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Employment of massive multi-input multi-output (m-MIMO) transmission techniques has recently been considered as a key technology for the provision of high capacity to a large number of users. Zero-forcing beamforming (ZFBF) techniques can be employed to maximize the transmission capacity, but they may require high implementation complexity in multi-user m-MIMO transmission environments. In this paper, we consider multi-user m-MIMO signal transmission with flexible complexity in spatially correlated channel environments. We initially set the beam weight for conventional maximum ratio transmission (MRT), which may experience interbeam interference. Then, we adjust the beam weight to remove the interbeam interference, while taking into account the trade-off between the implementation complexity and the performance. To this end, we sequentially adjust the beam weight to remove the interbeam interference in a descending order of interference power. The more interference sources are removed, the closer the performance of proposed scheme approaches to that of ZFBF. The proposed beamforming (BF) technique can provide performance close to that of ZFBF in highly correlated m-MIMO channel environments, while significantly reducing the implementation complexity.

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Erratum to: Massive MIMO signal transmission in spatially correlated channel environments

Park

Byun

Lee

et al. 2017

J Wireless Com Network

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Chan-Sic Park

Complexity reduced zero-forcing beamforming in massive MIMO systems

Massive MIMO signal transmission in spatially correlated channel environments

Erratum to: Massive MIMO signal transmission in spatially correlated channel environments

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