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Tu1F-3: A Highly Efficient Design of Triple-Band Flexible Rectenna for Ambient RF Energy Harvesting in Passive IoT Applications
This article proposes a highly efficient flexible rectenna for ambient radio-frequency (RF) energy harvesting, accomplished with the broadband omnidirectional receiving antenna and a novel design of t...
Tu1F-4: Power Receiving Circuit Design of Single-Ended Biological Capacitive WPT for Artificial Retina System
This paper proposes a power receiving circuit design for biological capacitive wireless power transfer (C-WPT) in an artificial retina system. To simplify the system design, we propose a single-ended ...
Tu1F-5: Overcoming Efficiency Degradation in Wireless Power Transfer Systems: A Supply Voltage Modulation Method Empowered by 5.64-GHz 256-Element Antenna Array Receiving 10.6-Watt
This paper proposes a supply voltage switching method for a 16×16 large-scale array system operating at 5.64 GHz to efficiently receive radio frequency power, considering transmitter hardware efficien...
Tu2A-1: Frequency-Spatial Adaptive Digital Beamforming Technique for Range-Angle Decoupling With High-Resolution MIMO Radar
High-resolution multiple-input multiple-output (MIMO) radar has been extensively employed for imaging across a wide range of applications. However, when radar systems are designed with a wide modulati...
Tu2A-2: High-Resolution 3D Radar Imaging with Silicon-Micromachined Sub-THz Frequency-Diverse Antennas
This paper presents a sub-THz 3D computational imaging system utilizing compact wideband cavity-backed frequency-diverse antennas fabricated by silicon micromachining. The antennas are integrated with...
Tu2A-3: Clutter-Based Wireless Localization in Distributed Radar Networks with Repeaters
Current wireless localization schemes rely predominantly on line-of-sight approaches with time-of-flight, time-delay, or received-power processing of signals. A non line-of-sight method is essential t...
Tu2A-4: Joint 4D Radar and Communication System Enabled by Virtual Transceiver Matrix Architecture for Advanced Automotive Sensing and Connectivity
In this paper, a joint 4D radar and communication (RadCom) front-end is proposed, developed, and experimentally demonstrated for next-generation automotive sensing and connectivity systems capable of ...
Tu2A-5: Three-Dimensional Fourier Domain Millimeter-Wave Imaging Using Incoherent Active Illumination and Pulse Compression
We present a novel three-dimensional (3D) imaging technique that integrates active incoherent millimeter-wave (AIM) imaging with pulse compression based on the transmission of pseudo-incoherent signal...
Tu2A-6: Repeater-Aided Millimeter-Wave MIMO Radar for Improved Detection of Specular Targets
Radar detection of specular targets is challenging, as targets reflect incident electromagnetic signals in specific directions based on the angle of incidence, and reflected energy is not directed at ...
Tu2B-1: KEYNOTE: Interaction of EM-Fields with Human Body for Efficient Communication: Body as a Wire and Body as a Transmission-Line
Our recent work has developed Electro-Quasistatic Human Body Communication (EQS-HBC), a method for localizing signals within the body using low-frequency transmission, thereby making it extremely diff...