JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY

2021 Vol. 30, No. 1

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System Design and Signal Processing for Frequency Diverse Array Radar

Jingwei Xu, Lan Lan, Xiongpeng He, Shengqi Zhu, Cao Zeng, Guisheng Liao, Yuhong Zhang

2021, 30(1): 1-19. doi:10.15918/j.jbit1004-0579.2021.004

[Abstract](1074) [FullText HTML](437) [PDF 8791KB](130)

Abstract:
Frequency diverse array (FDA) radar has been studied for more than 15 years and has attracted a lot of attention due to its potential advantages over the well-known phased array radar. The representative feature of FDA is range-angle-time-dependent transmit beampattern and its underlying properties are continuously revealed in the research. The formulation and exploitation of the transmit diversity with a frequency increment is the fundamental principle, which brings extra degrees-of-freedom (DOFs) in the transmit dimension. As the FDA radar carries additional information in range, it provides more flexibility in signal processing and also brings in new technical issues. This article overviews the state-of-the-art in FDA radar area and its applications, mainly based on the progress in our group. There are two main catalogs in FDA radar area, namely coherent FDA and FDA-MIMO(multiple-input multiple-output) radars. Potential applications including target parameter estimation, ambiguous clutter suppression, and deceptive jammer suppression are discussed.

Dual-Use Signal Design for Radar and Communication via Joint Orthogonal Signal and Phase Modulation

Yu Lin, Yi Bu, Hui Qiu, Xue Yao, Xianxiang Yu, Guolong Cui

2021, 30(1): 20-30. doi:10.15918/j.jbit1004-0579.2021.009

[Abstract](441) [FullText HTML](186) [PDF 1777KB](36)

Abstract:
This paper proposes a new information modulation resorting to orthogonal signal and its phase for dual-function radar communication (DFRC) systems. Focusing on the standardized linear frequency modulation (LFM) signal by additional phase, a bank of signals enjoying satisfactory autocorrelation and cross-correlation characteristics, are generated. Then, these signals map the different information as well as their phases are also modulated to increase the communication bit rate, thus yielding a series of dual-use signals. Finally, the radar detection and communication performance of dual-use signals are also provided through numerical simulation and half-physical platform verification, confirming the effectiveness of the designed signals compared with the existing design strategy.

A New Transmit Beamforming Method for Multi-User Communication in Dual-Function Radar-Communication

Xue Yao, Yu Liu, Zaichen Zhang, Xianxiang Yu, Guolong Cui

2021, 30(1): 31-43. doi:10.15918/j.jbit1004-0579.2021.008

[Abstract](1161) [FullText HTML](541) [PDF 6925KB](37)

Abstract:
This paper develops a new transmit beamforming for an integrated mechanical and electrical scanning dual-function radar-communication (DFRC) system. Differing from the related some works using beampattern sidelobe level to communication, we exploit the fact that transmit beamforming weight vector $ {\boldsymbol{u}}_{k}$ in direction $ \theta$ and weight vector $ {\boldsymbol{u}}_{k}^{*}$ in direction $ -\theta$ can achieve the same spatial power distribution, and formulate a new transmit beamforming vector design problem accounting for some extra sidelobe level constraints. By doing so, the number of the transmit beamforming weight vectors and the computing demand in the multi-user communication (MUC) scenario can be reduced. Finally, the numerical examples are designed to verify the effectiveness of the proposed design strategy in comparison with the existing method.

MIMO Radar Waveform Design: An Overview

Yongzhe Li

2021, 30(1): 44-59. doi:10.15918/j.jbit1004-0579.2021.002

[Abstract](1058) [FullText HTML](467) [PDF 446KB](141)

Abstract:
Waveform or code design is an important topic in many applications, which has continuously attracted attention during the past several decades. The development of waveform design has been significantly advanced since the emergence of multiple-input multiple-output (MIMO) technique. Compared to the single-waveform design for conventional radars, the multi-waveform design enables extra degrees of freedom (DOFs) for modern radars, which therefore triggers a series of relevant studies on MIMO radar. In this paper, we provide an overview on the main techniques of MIMO radar waveform designs developed in recent years, wherein the state-of-the-art methods are reviewed in terms of different designing criteria, including the minimization of auto- and cross-correlation levels (or equivalently, the integrated sidelobe level), the information theoretic, ambiguity function shaping, and signal-to-interference-plus-noise ratio maximization-based criteria, etc. Moreover, we give detailed comments on the main issues of different waveform designs, and also provide the possibly emerging directions toward the research on MIMO radar waveform design and potential challenges.

A Brief Introduction on Joint Radar and Communication Systems

Jia Zhu, Fangpei Zhang, Yuanhao Cui, Junsheng Mu, Ronghui Zhang, Xiaojun Jing

2021, 30(1): 60-68. doi:10.15918/j.jbit1004-0579.2021.010

[Abstract](882) [FullText HTML](353) [PDF 900KB](93)

Abstract:
Joint radar and communication (JRC) technology is gradually becoming an essential approach to alleviating spectral congestion. Radar and communications systems were designed with common spectral and hardware resources to reduce size, improve performance, reduce cost, and decongest the spectrum. Various approaches have been proposed to achieve the coexistence of radar and communication systems. This paper mainly focuses on the research directions of radar communication coexistence (RCC) and dual-function radar communication systems (DFRC) in JRC technology. We summarize and analyze the existing research problems in the JRC era. According to the characteristics and advantages of JRC technology, we highlight several potentials in military and commercial applications.

Pattern Synthesis via Accurate Array Response Control: An Overview

Tianyuan Gu, Weilai Peng, Huiyong Li

2021, 30(1): 69-81. doi:10.15918/j.jbit1004-0579.2021.006

[Abstract](256) [FullText HTML](83) [PDF 1140KB](20)

Abstract:
Array pattern synthesis is an important research direction in array processing. It is a signal processing technology that uses sensor arrays to send and receive signals directionally. Pattern design and synthesis play an important role in the high performance of the array system. In this paper, we give an overview about the recently developed pattern synthesis algorithms with the concept of accurate array response control theory.

QoS-Aware Power Allocation Scheme for Relay Satellite Networks

Jin’ao Yu, Xiaogang Tang, Shibing Zhu, Haopeng Sun, Lunxin Zhong, Guangyu Yang

2021, 30(1): 82-90. doi:10.15918/j.jbit1004-0579.2021.005

[Abstract](324) [FullText HTML](128) [PDF 7089KB](25)

Abstract:
This paper investigated a QoS-aware power allocation for relay satellite networks. For the given QoS requirements, we analyzed the signal model of relay transmission and formulated the power minimization problem which is non-convex and difficult to solve. To find the optimal solution to the considered problem, we first analyzed the optimization problem and equivalently turn it into a convex optimization problem. Then, we provided a Lagrangian dual-based method to obtain the closed-form of the power allocation and provided an iterative algorithm to the optimal solution. Moreover, we also extended the results to the cooperative transmission mode. Finally, simulation results were provided to verify the superiority of the proposed algorithm.

Vol.32,No.1,(February,2023)

ISSN1004-0579

CN11-2916/T

Indexed byEI;Scopus

Eidtor-in-chief:Ran Tao,Beijing Institute of Technology,Beijing,China

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