Joint Design of Colocated MIMO Radar Constant Envelope Waveform and Receive Filter to Reduce SINR Loss

Huang, Liang; Deng, Xinyang; Zheng, Lin; Qin, Huiping; Qiu, Hongbing

doi:10.3390/s21113887

Cited by 2 publications

(2 citation statements)

References 59 publications

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“…Due to the limitation of time and space, readers interested in transmit waveform and receive filter design for CMR are referred to Appendix A in Ref. [28] and the references therein for more details. The block diagram of the cognitive radar is illustrated in Figure 2.…”

Section: Four Types Of Radar Systems Constituting the Mrnmentioning

confidence: 99%

Moving target detection and tracking with multiplatform radar network (MRN)

Geng

Wang

et al. 2021

IET Radar Sonar & Navi

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A multiplatform radar network (MRN) composed of multiple transmitting and receiving facilities is advantageous over monostatic radar in moving target detection (MTD) and tracking due to the diversity gain. Within the framework of the Internet of Battlefield Things (IoBT), the authors propose that the airborne platforms equipped with the cognitive multimodal radar (CMR), the subarray‐based MIMO radar (SMR), the active electronically scanned array (AESA) radar, and the adaptive radar countermeasures (ARC) should team up in target detection and tracking. To obtain better target detection and tracking performance, the probing signals from the CMR, the SMR, and the AESA radar are adaptively optimised based on the scenario under consideration. The ARC consists of two parts: 1) RF signal sensing and recognition with deep neural network (DNN), that is, to detect, identify, and localise multiple radio frequency emitters; 2) intelligent fake return creation and jamming to confuse the enemy radars in real time in the field. This work aims to serve as a good reference for future researchers interested in developing MRN with diverse nodes and the general teaming of radars on the battlefield.

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Section: Four Types Of Radar Systems Constituting the Mrnmentioning

confidence: 99%

Moving target detection and tracking with multiplatform radar network (MRN)

Geng

Wang

et al. 2021

IET Radar Sonar & Navi

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“…Compared to the above sensors, the millimeter-wave radar sensor has the advantages of long-range capabilities, low cost and the ability to work in non-line-of-sight situations, such as through building walls and clothes [4,13,14]. It was proved that the mm-wave radar is robust against non-line-of-sight interference including foam, plastic, etc., with less than 1% change in point-cloud density [15].Moreover, it is a form of non-intrusive technology and does not cause privacy issues, which is particularly valuable [16].…”

Section: Introductionmentioning

confidence: 99%

Comprehensive mPoint: A Method for 3D Point Cloud Generation of Human Bodies Utilizing FMCW MIMO mm-Wave Radar

Zhang

Geng

Lin

2021

Sensors

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In this paper, comprehensive mPoint, a method for generating 3D (range, azimuth, and elevation) point cloud of human targets using a Frequency-Modulated Continuous Wave (FMCW) signal and Multi-Input Multi-Output (MIMO) millimeter wave radar is proposed. Distinct from the TI-mPoint method proposed by TI technology, a comprehensive mPoint method considering both the static and dynamic characteristics of radar reflected signals is utilized to generate a high precision point cloud, resulting in more comprehensive information of the target being detected. The radar possessing 60–64 GHz FMCW signal with two sets of different dimensional antennas is utilized in order to experimentally verify the results of the methodology. By using the proposed process, the point cloud data of human targets can be obtained based on six different postures of the underlying human body. The human posture cube and point cloud accuracy rates are defined in the paper in order to quantitively and qualitatively evaluate the quality of the generated point cloud. Benefitting from the proposed comprehensive mPoint, evidence shows that the point number and the accuracy rate of the generated point cloud compared with those from the popular TI-mPoint can be largely increased by 86% and 42%, respectively. In addition, the noise level of multipath reflection can be effectively reduced. Moreover, the length of the algorithm running time is only 1.6% longer than that of the previous method as a slight tradeoff.

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Joint Design of Colocated MIMO Radar Constant Envelope Waveform and Receive Filter to Reduce SINR Loss

Cited by 2 publications

References 59 publications

Moving target detection and tracking with multiplatform radar network (MRN)

Moving target detection and tracking with multiplatform radar network (MRN)

Comprehensive mPoint: A Method for 3D Point Cloud Generation of Human Bodies Utilizing FMCW MIMO mm-Wave Radar

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