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10 results on '"Han, Leixin"'

1. Joint DoA-Range Estimation Using Space-Frequency Virtual Difference Coarray

Author

Mao, Zihuan, Liu, Shengheng, Zhang, Yimin D., Han, Leixin, and Huang, Yongming

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

In this paper, we address the problem of joint direction-of-arrival (DoA) and range estimation using frequency diverse coprime array (FDCA). By incorporating the coprime array structure and coprime frequency offsets, a two-dimensional space-frequency virtual difference coarray corresponding to uniform array and uniform frequency offset is considered to increase the number of degrees-of-freedom (DoFs). However, the reconstruction of the doubly-Toeplitz covariance matrix is computationally prohibitive. To solve this problem, we propose an interpolation algorithm based on decoupled atomic norm minimization (DANM), which converts the coarray signal to a simple matrix form. On this basis, a relaxation-based optimization problem is formulated to achieve joint DoA-range estimation with enhanced DoFs. The reconstructed coarray signal enables application of existing subspace-based spectral estimation methods. The proposed DANM problem is further reformulated as an equivalent rank-minimization problem which is solved by cyclic rank minimization. This approach avoids the approximation errors introduced in nuclear norm-based approach, thereby achieving superior root-mean-square error which is closer to the Cramer-Rao bound. The effectiveness of proposed method is confirmed by theoretical analyses and numerical simulations.

Published
2022
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9. Energy Efficient Beamforming in Heterogeneous Small Cell Networks

Author

Lao, Zeli, Lu, Zhaohua, Wang, Jiaheng, Huang, Yongming, Han, Leixin, Zhu, Fusheng, Zhao, Licheng, Lao, Zeli, Lu, Zhaohua, Wang, Jiaheng, Huang, Yongming, Han, Leixin, Zhu, Fusheng, and Zhao, Licheng

Abstract

The densification of wireless networks via small cells is an effective way to improve spectral efficiency but, on the other hand, also causes an increase of power consumption. In this paper, we consider the energy efficient beamforming design for a heterogeneous small cell network, where a number of multi-Antenna small base stations (SBSs) share the spectrum resource of a macro base station (MBS). The design goal is to improve the energy efficiency of the whole network and meanwhile provide quality-of-service (QoS) protection for macro cell communications, which generally have higher priorities. We propose a novel efficient method to address the formulated non-convex energy efficient beamforming design problem. Simulation results show that the proposed beamforming design can dramatically enhance the energy efficiency of the whole network. © 2018 IEEE.

Published
2018

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