The amygdala is a group of nuclei located within the anterior medial portion of the brain’s temporal lobe. Part of the limbic system, the amygdala is involved in processing of emotions, particularly ...

Abstract: Multiband fusion and spatial sparse sampling are two effective methods to alleviate the high hardware demands for millimeter-wave (MMW) near-field imaging radars. Image degradation incurred ...

Abstract: Traffic sign detection is a crucial component of the autonomous driving field, where real-time performance and accuracy play a significant role in ensuring vehicle safety. This paper aims to ...

Abstract: In this communication, a novel dual-wideband shared-aperture patch antenna with flexible frequency ratio is proposed. The dual-band antenna consists of a main radiating patch and two ...

Abstract: We propose a photonic technique for millimeter-wave ultra-wideband (MMW-UWB) signal generation via direct frequency up-conversion using a dual-parallel Mach-Zehnder modulator (DPMZM). By ...

Abstract: Three-dimensional millimeter-wave (MMW) low-resolution (LR) images commonly exhibit issues including noise, nonuniform sampling, and blocky sparsity. These characteristics lead to ...

Abstract: This letter presents an on-chip millimeter-wave (MMW) Yagi-Uda antenna implemented by the integrated passive device (IPD) process. This antenna consists of a half-wavelength dipole element ...

Abstract: Millimeter-wave (MMW) radar sensing, heralded as one of the most promising technologies for ensuring secure navigation in autonomous vehicles, is renowned for its high-resolution imaging ...

Abstract: This letter presents a dual-polarized dielectric resonator antenna (DRA) achieving more than 40% fractional bandwidth, thus the 5G bands n257 and n260 are covered with a single antenna.

Abstract: Conventional active millimeter-wave (MMW) imaging schemes, especially applied in concealed weapon detection, relies on a wide frequency to retrieve information. These methods have resulted ...

Abstract: In this letter, to address the problems of high cost and system complexity associated with uniform array antennas for human body inspection, a novel near-field sparse array manifold ...

Abstract: In the next generation of mobile network, 5G, mm-wave (mmW) communication is considered one of the main disruptive technologies to increase data rates and improve spectrum efficiency.