Jingxuan Huang scite author profile

This paper studies an integrated sensing and communication (ISAC) system, where a multi-antenna base station transmits beamformed signals for joint downlink multi-user communication and radar sensing of an extended target (ET). By considering echo signals as reflections from valid elements on the ET contour, a set of novel Cramér-Rao bounds (CRBs) is derived for parameter estimation of the ET, including central range, direction, and orientation. The ISAC transmit beamforming design is then formulated as an optimization problem, aiming to minimize the CRB associated with radar sensing, while satisfying a minimum signal-to-interference-pulse-noise ratio requirement for each communication user, along with a 3-dB beam coverage constraint tailored for the ET. To solve this non-convex problem, we utilize semidefinite relaxation (SDR) and propose a rank-one solution extraction scheme for non-tight relaxation circumstances. To reduce the computation complexity, we further employ an efficient zero-forcing (ZF) based beamforming design, where the sensing task is performed in the null space of communication channels. Numerical results validate the effectiveness of the obtained CRB, revealing the diverse features of CRB for differently shaped ETs. The proposed SDR beamforming design outperforms benchmark designs with lower estimation error and CRB, while the ZF beamforming design greatly improves computation efficiency with minor sensing performance loss.

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Constrained Utility Maximization in Dual-Functional Radar-Communication Multi-UAV Networks

Wang

Fei

Zhang

et al. 2021

IEEE Trans. Commun.

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In this paper, we investigate the network utility maximization problem in a dual-functional radar-communication multi-unmanned aerial vehicle (multi-UAV) network where multiple UAVs serve a group of communication users and cooperatively sense the target simultaneously. To balance the communication and sensing performance, we formulate a joint UAV location, user association, and UAV transmission power control problem to maximize the total network utility under the constraint of localization accuracy. We then propose a computationally practical method to solve this NP-hard problem by decomposing it into three sub-problems, i.e., UAV location optimization, user association and transmission power control. Three mechanisms are then introduced to solve the three sub-problems based on spectral clustering, coalition game, and successive convex approximation, respectively. The spectral clustering result provides an initial solution for user association. Based on the three mechanisms, an overall algorithm is proposed to iteratively solve the whole problem. We demonstrate that the proposed algorithm improves the minimum user data rate significantly, as well as the fairness of the network. Moreover, the proposed algorithm increases the network utility with a lower power consumption and similar localization accuracy, compared to conventional techniques.

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Performance Analysis and Improvement of Online Fountain Codes

Huang

Fei

Cao

et al. 2018

IEEE Trans. Commun.

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Sensing-Assisted Secure Uplink Communications With Full-Duplex Base Station

et al. 2022

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An Ant Colony Optimization-Based Multiobjective Service Replicas Placement Strategy for Fog Computing

Huang

Lin

Xiong

et al. 2021

IEEE Trans. Cybern.

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Jingxuan Huang

Joint Waveform and Discrete Phase Shift Design for RIS-Assisted Integrated Sensing and Communication System Under Cramer-Rao Bound Constraint

Constrained Utility Maximization in Dual-Functional Radar-Communication Multi-UAV Networks

Performance Analysis and Improvement of Online Fountain Codes

Sensing-Assisted Secure Uplink Communications With Full-Duplex Base Station

An Ant Colony Optimization-Based Multiobjective Service Replicas Placement Strategy for Fog Computing

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