Development and Demonstration of MIMO-SAR mmWave Imaging Testbeds

Yanik, Muhammet Emin; Wang, Dan; Torlak, Murat

doi:10.1109/access.2020.3007877

Cited by 89 publications

(73 citation statements)

References 66 publications

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“…This work is based on the AI on edge paradigm. Commercialization of single-chip mmwave radar sensors in the last decade has created opportunities in various fields such as healthcare [4], high resolution radar imaging [5], human activity recognition [6], and many more. Camera sensors can also be used for accurate human activity recognition [7].…”

Section: Introductionmentioning

confidence: 99%

mmFiT: Contactless Fitness Tracker Using mmWave Radar and Edge Computing Enabled Deep Learning

Tiwari¹,

Bajaj²,

Gupta³

2023

Preprint

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Internet of things (IoT) is transforming the way we imagine healthcare with ubiquitous connectivity, faster response and deeper personalized insights using large amounts of data. Fitness trackers provide useful insights to maintain balance of a healthy lifestyle. Nowadays, fitness trackers are available as wearable devices which creates a sense of unease in exercise and may cause skin irritation. In this paper, we present mmFiT, an edge computing enabled, contactless, real-time fitness tracker using a single mmwave radar point cloud data. It has the inherent advantage of user privacy preservation while tracking indoor fitness activities. Experimental results show that the system can classify various exercises with real-time accuracy of 95.53\% and is also capable of counting repetitions of exercises. This implementation is computationally inexpensive, and therefore, the system can be deployed in an IoT connected edge device for real-time operations. This system will be an ideal fit in a smart home or smart gymnasium setting.

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Section: Introductionmentioning

confidence: 99%

mmFiT: Contactless Fitness Tracker Using mmWave Radar and Edge Computing Enabled Deep Learning

Tiwari¹,

Bajaj²,

Gupta³

2023

Preprint

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“…Despite these attractive performances, MIMO-SAR security scanners tend to be limited by the presence of blind spots linked to geometric considerations coupled with specularity phenomena [14], [15], [16], limiting for example the detection of concealed threats on the sides of the scanned subject. To overcome such hindrances, new systems consisting of linear arrays moved in a circular motion were recently developed [17], [18], [19] (Fig.…”

Section: Introductionmentioning

confidence: 99%

Cylindrical MIMO-SAR Imaging and Associated 3-D Fourier Processing

Berland

Fromentèze

Decroze

et al. 2022

IEEE Open J. Antennas Propag.

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In this paper, we propose a new three dimensional cylindrical imaging system based on the combination of a multiple-input multiple-output arc array in azimuth and a synthetic aperture radar on the vertical dimension for applications focused on buried threat detection. Imaging algorithms are adapted to these specific transceiver distributions in order to accelerate reconstructions in the Fourier domain. Following theoretical developments, an experimental proof of concept is proposed at 6 GHz using a circular dual positioning system specifically designed for these new studies. The validity of the proposed techniques is extended to larger cylindrical arrays using numerical simulations of complex volumetric scenes in the 5-12 GHz band. This work allows for significant gains in computation time for these specific imaging systems, which are more than three orders of magnitude shorter than those of conventional backpropagation techniques in the studied cases composed of more than 250,000 voxels.

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“…In fact, many antennas (or channels) or sampling points that are evenly spaced may be eliminated. In addition to saving hardware resources, this can reduce data acquisition time in time-division-based methods [16,17], reduce bandwidth and sampling frequency in frequencydivision-based methods [18], and simplify implementation in coding-based methods [19]. To correct the error due to the multistatic array topology in the NF and consequently to improve the estimation accuracy, a multistatic-to-monostatic conversion is used.…”

Section: Introductionmentioning

confidence: 99%