MN
Publications
- Advanced Biophysical Model to Capture Channel Variability for EQS Capacitive HBC
- EQS Res-HBC: A 65-nm Electro-Quasistatic Resonant 5–240 μW Human Whole-Body Powering and 2.19 μW Communication SoC With Automatic Maximum Resonant Power Tracking
- Electromagnetic Analysis of Integrated On-Chip Sensing Loop for Side-Channel and Fault-Injection Attack Detection
- Toward Understanding the Return Path Capacitance in Capacitive Human Body Communication
- On the Safety of Human Body Communication
- Understanding The Role of Magnetic and Magneto-Quasistatic Fields in Human Body Communication
- Improved EM Side-Channel Analysis Attack Probe Detection Range utilizing Co-planar Capacitive Asymmetry Sensing
- A Quantitative Analysis of Physical Security and Path Loss With Frequency for IBOB Channel
- Channel Modeling for Physically Secure Electro-Quasistatic In-Body to Out-of-Body Communication with Galvanic Tx and Multimodal Rx
- A Quantitative Analysis of Physical Security and Path Loss with Frequency for IBOB Channel
- Inter-body coupling in electro-quasistatic human body communication: Theory and analysis of security and interference properties
- Biophysical modeling, characterization and optimization of electro-quasistatic human body communication
- A 100KHz-1GHz Termination-dependent Human Body Communication Channel Measurement using Miniaturized Wearable Devices
- STELLAR: A Generic em Side-Channel attack protection through ground-up root-cause analysis
- In-body to Out-of-body Communication Channel Modeling for Ruminant Animals for Smart Animal Agriculture
- Bio-physical modeling of Galvanic Human Body Communication in Electro-Quasistatic regime
- Inter-body coupling in electro-quasistatic human body communication: theory and analysis of security and interference properties
- Bi-Phasic Quasistatic Brain Communication for Fully Untethered Connected Brain Implants
- Understanding The Role of Magnetic and Magneto-Quasistatic Fields in Human Body Communication
- Bi-Phasic Quasistatic Brain Communication for Fully Untethered Connected Brain Implants
- Channel Modeling for Physically Secure Electro-Quasistatic In-Body to Out-of-Body Communication with Galvanic Tx and Multimodal Rx
- EM SCA White-box Analysis Based Reduced Leakage Cell Design and Pre-Silicon Evaluation
- Enhanced Detection Range for em Side-channel Attack Probes utilizing Co-planar Capacitive Asymmetry Sensing
- PG-CAS: Patterned-ground Co-planar capacitive asymmetry sensing for mm-range EM side-channel attack probe detection
- A 415 nW Physically and Mathematically Secure Electro-Quasistatic HBC Node in 65nm CMOS for Authentication and Medical Applications
- Killing em Side-Channel Leakage at its Source
- Bio-Physical Modeling, Characterization, and Optimization of Electro-Quasistatic Human Body Communication
- A 65nm 63.3W 15Mbps Transceiver with Switched-Capacitor Adiabatic Signaling and Combinatorial-Pulse-Position Modulation for Body-Worn Video-Sensing AR Nodes
- A 65nm Resonant Electro-Quasistatic 5-240uW Human Whole-Body Powering and 2.19uW Communication SoC with Automatic Maximum Resonant Power Tracking
- Bio-Physical Modeling of Galvanic Human Body Communication in Electro-Quasistatic Regime
- A 1.15μW 5.54mm3Implant with a Bidirectional Neural Sensor and Stimulator SoC utilizing Bi-Phasic Quasi-static Brain Communication achieving 6kbps-10Mbps Uplink with Compressive Sensing and RO-PUF based Collision Avoidance
- Sub-GHz In-Body to Out-of-Body Communication Channel Modeling for Ruminant Animals for Smart Animal Agriculture
- PG-CAS: Pro-Active EM-SCA Probe Detection using Switched-Capacitor based Patterned-Ground Co-planar Capacitive Asymmetry Sensing
- Advanced Biophysical Model to Capture Channel Variability for EQS Capacitive HBC
- Sub-μWRComm: 415-nW 1–10-kb/s Physically and Mathematically Secure Electro-Quasi-Static HBC Node for Authentication and Medical Applications
- A Multipole Approach Toward On-Chip Metal Routing for Reduced EM Side-Channel Leakage
- Biphasic quasistatic brain communication for energy-efficient wireless neural implants
- PG-CAS: Pro-Active EM-SCA Probe Detection Using Switched-Capacitor-Based Patterned-Ground Co-Planar Capacitive Asymmetry Sensing
- Improved EM Side-Channel Analysis Attack Probe Detection Range Utilizing Coplanar Capacitive Asymmetry Sensing