| Author |
Session |
Start page |
Title |
| A A B C D E F G H I J K L M N P R S T V W X Y Z |
| Abdullah, Hani |
TS1.3 |
11 |
A Charge Pump System with Controlled Input Impedance for Optimized RFID Energy Harvesting |
| Abedi, Ali |
PS.12 |
|
Characterizing Stability of Bulk Nanobubbles in Micro-gravity Using Radio Frequency and Optical Identification |
| PS.13 |
|
Power Optimized Near-Ground Radio Frequency Sensor Systems for Soil Sensing |
| Adib, Fadel |
TS2.3 |
47 |
Reinforcement Learning for RFID Localization |
| Alevizos, Panos |
TS3.3 |
85 |
Hyperbolic DoA Estimation and Static Localization: Comparative Study of Bluetooth and RFID |
| Almeida, Sandoval |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Andia Vera, Gianfranco |
PS.1 |
|
Tag Reading and Writing using a SDR UHF RFID Reader |
| Andreadis, Georgios |
TS3.3 |
85 |
Hyperbolic DoA Estimation and Static Localization: Comparative Study of Bluetooth and RFID |
| Anghel, Marian |
PS.3 |
|
Performance Evaluation of RFID Tag Antennas for Automated Inventory of Nuclear Containers |
| Apul, Onur |
PS.12 |
|
Characterizing Stability of Bulk Nanobubbles in Micro-gravity Using Radio Frequency and Optical Identification |
| Araújo, Ícaro |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Arvind, Dyumaan |
TS2.6 |
65 |
Design of the Dual-channel Dickson Rectifier with Native NMOS for RF Energy Harvesting Sensors |
| B A B C D E F G H I J K L M N P R S T V W X Y Z |
| Barbot, Nicolas |
PS.1 |
|
Tag Reading and Writing using a SDR UHF RFID Reader |
| TS1.4 |
17 |
Differential RCS of Dual-Port Tag Antenna with Synchronous Modulated Backscatter |
| Barboza, Erick |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Batista, Mateus |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Benes, Filip |
PS.8 |
|
Integration and Performance Evaluation of RFID Readers for Unmanned Aerial Vehicles (UAVs) |
| Bhadauria, Yuvraj Singh |
TS5.4 |
156 |
TunnelSense: Low-Power, Non-Contact Sensing using Tunnel Diodes |
| Bhattacharya, Sournav Sekhar |
TS2.4 |
53 |
Short Window Intra-Spacecraft RFID Localization |
| Bletsas, Aggelos |
TS2.1 |
35 |
Device-free Localization of Multiple Humans with Passive RFID and Joint RSSI-Phase Techniques |
| Bletsas, Aggelos |
TS3.3 |
85 |
Hyperbolic DoA Estimation and Static Localization: Comparative Study of Bluetooth and RFID |
| Bohac, Miroslav |
PS.8 |
|
Integration and Performance Evaluation of RFID Readers for Unmanned Aerial Vehicles (UAVs) |
| Boroushaki, Tara |
TS2.3 |
47 |
Reinforcement Learning for RFID Localization |
| Brewster, Megan |
TS4.2 |
115 |
Magnetic Sensing using T-matched RAIN RFID Tags |
| C A B C D E F G H I J K L M N P R S T V W X Y Z |
| Cattaneo, Alessandro |
PS.3 |
|
Performance Evaluation of RFID Tag Antennas for Automated Inventory of Nuclear Containers |
| TS2.5 |
59 |
Photorealistic data visualization for an ultra-wide band real-time location system |
| Chen, Wei-Tung |
TS2.3 |
47 |
Reinforcement Learning for RFID Localization |
| Chen, Yi-An |
PS.10 |
|
Enhancing RFID Security through Integrated Physical Unclonable Functions and Lightweight Cryptography |
| Chinthalapani, Rajashekar Reddy |
TS5.4 |
156 |
TunnelSense: Low-Power, Non-Contact Sensing using Tunnel Diodes |
| Cilecek, Vit |
PS.8 |
|
Integration and Performance Evaluation of RFID Readers for Unmanned Aerial Vehicles (UAVs) |
| Crisp, Michael |
TS1.5 |
23 |
MU-MIMO RFID: Proof of Concept |
| TS5.1 |
144 |
Zero-power Sensing based on Inter-tag Channel Estimations |
| D A B C D E F G H I J K L M N P R S T V W X Y Z |
| Das, Samir |
TS2.2 |
41 |
Optimized Channel Phase Estimation in Passive RF Tag Network |
| Davanso, Roger |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Davis, Allison |
TS2.5 |
59 |
Photorealistic data visualization for an ultra-wide band real-time location system |
| Dimitriou, Antonis |
TS2.1 |
35 |
Device-free Localization of Multiple Humans with Passive RFID and Joint RSSI-Phase Techniques |
| Djurić, Petar |
TS2.2 |
41 |
Optimized Channel Phase Estimation in Passive RF Tag Network |
| Du, Jinfeng |
PS.4 |
|
Evaluating Scalability of a Large-Scale Bi-static Backscatter Network |
| Durgin, Gregory |
PS.2 |
|
Continuous Wireless Power Transfer Tracking using Perfect Pulse Pilot Beams |
| TS1.1 |
1 |
Low-Power, Retrodirective Tunneling RFID Tag Design with Rat-Race Coupler and Reflection Amplifiers |
| PS.6 |
71 |
Low-Power, Retrodirective Tunneling RFID Tag Design with Rat-Race Coupler and Reflection Amplifiers |
| PS.7 |
72 |
Design and Testing of Power-Optimized Waveforms on Next-Generation Passive RFID Tags |
| TS3.1 |
73 |
Perfect Pulse enabled Direct Sequence Spread Spectrum for Enhanced Interference Rejection |
| E A B C D E F G H I J K L M N P R S T V W X Y Z |
| Eggleston, Michael |
PS.4 |
|
Evaluating Scalability of a Large-Scale Bi-static Backscatter Network |
| Eid, Aline |
TS3.2 |
79 |
Long-Range mmID Localization and Orientation Sensing via Frequency-Divided Beam Multiplexing |
| TS3.4 |
91 |
mmWave Retroreflective Road Markers for Automotive Radar Vision |
| Elmazria, Omar |
TS4.5 |
133 |
Improvement of the Sensitivity of a Passive RFID Magnetic SAW Sensor based on Love Waves |
| F A B C D E F G H I J K L M N P R S T V W X Y Z |
| Fernández-Caramés, Tiago M. |
TS3.6 |
103 |
Practical Evaluation of Wize and Bluetooth 5 Assisted RFID for an Opportunistic Vehicular Scenario |
| TS4.1 |
109 |
Practical Evaluation of Low-Frequency Vibration Energy Harvesting for Creating Green RFID and IoT devices |
| Fink, Patrick |
TS2.4 |
53 |
Short Window Intra-Spacecraft RFID Localization |
| Fletcher, Richard |
TS4.6 |
138 |
Novel Low-Cost Clapp-Oscillator Circuit for Active RFID Materials Sensing |
| Floer, Cécile |
TS4.5 |
133 |
Improvement of the Sensitivity of a Passive RFID Magnetic SAW Sensor based on Love Waves |
| Fong, Chloe |
TS1.2 |
7 |
ZeroScatter BLE: All-Digital, Fully Synthesizable Bluetooth Low Energy (BLE) Backscatter Communication in Verilog RTL for FPGA-based Devices |
| Fraga, Ismael |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Fraga-Lamas, Paula |
TS3.6 |
103 |
Practical Evaluation of Wize and Bluetooth 5 Assisted RFID for an Opportunistic Vehicular Scenario |
| TS4.1 |
109 |
Practical Evaluation of Low-Frequency Vibration Energy Harvesting for Creating Green RFID and IoT devices |
| Froiz-Míguez, Iván |
TS3.6 |
103 |
Practical Evaluation of Wize and Bluetooth 5 Assisted RFID for an Opportunistic Vehicular Scenario |
| TS4.1 |
109 |
Practical Evaluation of Low-Frequency Vibration Energy Harvesting for Creating Green RFID and IoT devices |
| G A B C D E F G H I J K L M N P R S T V W X Y Z |
| Ghasemi, Sepideh |
TS3.4 |
91 |
mmWave Retroreflective Road Markers for Automotive Radar Vision |
| Giannelos, Evangelos |
TS3.3 |
85 |
Hyperbolic DoA Estimation and Static Localization: Comparative Study of Bluetooth and RFID |
| Gläser, Georg |
TS1.3 |
11 |
A Charge Pump System with Controlled Input Impedance for Optimized RFID Energy Harvesting |
| Gomes, Francisco |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Grabmann, Martin |
TS1.3 |
11 |
A Charge Pump System with Controlled Input Impedance for Optimized RFID Energy Harvesting |
| Graves, Kaitlyn |
PS.2 |
|
Continuous Wireless Power Transfer Tracking using Perfect Pulse Pilot Beams |
| Green, Andre |
TS2.5 |
59 |
Photorealistic data visualization for an ultra-wide band real-time location system |
| Gulati, Manoj |
TS5.4 |
156 |
TunnelSense: Low-Power, Non-Contact Sensing using Tunnel Diodes |
| Guo, Longyu |
TS3.4 |
91 |
mmWave Retroreflective Road Markers for Automotive Radar Vision |
| H A B C D E F G H I J K L M N P R S T V W X Y Z |
| Hage-Ali, Sami |
TS4.5 |
133 |
Improvement of the Sensitivity of a Passive RFID Magnetic SAW Sensor based on Love Waves |
| Hanks, Luke J |
TS5.2 |
|
Analog High-Level Synthesis for Field Programmable Analog Arrays |
| Harisha, Skanda |
TS3.2 |
79 |
Long-Range mmID Localization and Orientation Sensing via Frequency-Divided Beam Multiplexing |
| TS3.4 |
91 |
mmWave Retroreflective Road Markers for Automotive Radar Vision |
| Hasler, Jennifer |
TS5.2 |
|
Analog High-Level Synthesis for Field Programmable Analog Arrays |
| Hehn, Michel |
TS4.5 |
133 |
Improvement of the Sensitivity of a Passive RFID Magnetic SAW Sensor based on Love Waves |
| Hester, Jimmy |
TS3.2 |
79 |
Long-Range mmID Localization and Orientation Sensing via Frequency-Divided Beam Multiplexing |
| Hewage, Kasun |
TS3.5 |
97 |
Unlocking the Potential of Low-cost High-resolution Sensing with Analog Backscatter |
| I A B C D E F G H I J K L M N P R S T V W X Y Z |
| Ige, Afolabi |
TS5.2 |
|
Analog High-Level Synthesis for Field Programmable Analog Arrays |
| J A B C D E F G H I J K L M N P R S T V W X Y Z |
| J. A. Nascimento, Jobson |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Jäger, Andre |
TS1.3 |
11 |
A Charge Pump System with Controlled Input Impedance for Optimized RFID Energy Harvesting |
| Jakoblew, Sascha |
PS.11 |
|
High-Efficiency Directed Miniature 915 MHz Group Antenna for Autonomous Sensors |
| Jones, Ryan |
TS1.5 |
23 |
MU-MIMO RFID: Proof of Concept |
| TS5.1 |
144 |
Zero-power Sensing based on Inter-tag Channel Estimations |
| K A B C D E F G H I J K L M N P R S T V W X Y Z |
| Kampianakis, Lefteris |
PS.4 |
|
Evaluating Scalability of a Large-Scale Bi-static Backscatter Network |
| Kan, Edwin |
PS.5 |
|
Reducing Reference Points for Millimeter-Precision RFID Tag Localization in Building Structures |
| Karmakar, Nemai |
TS4.3 |
121 |
Evaluating Dynamic Wavelet Fingerprinting of Chipless RFID Tags in Detecting Counterfeits in Noiseless and Noisy Environments |
| TS4.4 |
127 |
Enhancing Quality Factor of Chipless RFID Sensors by Optimising the Substrate Properties and Resonator Geometry |
| Kesharwani, Rohit |
TS1.3 |
11 |
A Charge Pump System with Controlled Input Impedance for Optimized RFID Energy Harvesting |
| Khan, Shahed |
TS4.3 |
121 |
Evaluating Dynamic Wavelet Fingerprinting of Chipless RFID Tags in Detecting Counterfeits in Noiseless and Noisy Environments |
| TS4.4 |
127 |
Enhancing Quality Factor of Chipless RFID Sensors by Optimising the Substrate Properties and Resonator Geometry |
| Kiani, Arman |
PS.12 |
|
Characterizing Stability of Bulk Nanobubbles in Micro-gravity Using Radio Frequency and Optical Identification |
| Kim, John |
TS4.2 |
115 |
Magnetic Sensing using T-matched RAIN RFID Tags |
| Kimionis, John |
PS.4 |
|
Evaluating Scalability of a Large-Scale Bi-static Backscatter Network |
| Kizilarslan, Metin |
PS.11 |
|
High-Efficiency Directed Miniature 915 MHz Group Antenna for Autonomous Sensors |
| Kleniatis, Anastasios |
TS2.1 |
35 |
Device-free Localization of Multiple Humans with Passive RFID and Joint RSSI-Phase Techniques |
| L A B C D E F G H I J K L M N P R S T V W X Y Z |
| Lai, Yeong-Kang |
PS.10 |
|
Enhancing RFID Security through Integrated Physical Unclonable Functions and Lightweight Cryptography |
| Lasantha, Likitha |
TS4.3 |
121 |
Evaluating Dynamic Wavelet Fingerprinting of Chipless RFID Tags in Detecting Counterfeits in Noiseless and Noisy Environments |
| TS4.4 |
127 |
Enhancing Quality Factor of Chipless RFID Sensors by Optimising the Substrate Properties and Resonator Geometry |
| Li, Weijia |
TS1.6 |
29 |
A Pattern Reconfigurable Yagi Uda Antenna Controlled by UHF RFID Technology |
| Li, Yang |
TS2.2 |
41 |
Optimized Channel Phase Estimation in Passive RF Tag Network |
| Lim Chang Quan, Thaddeus |
TS5.4 |
156 |
TunnelSense: Low-Power, Non-Contact Sensing using Tunnel Diodes |
| Lonergan, Cullen P |
TS5.2 |
|
Analog High-Level Synthesis for Field Programmable Analog Arrays |
| M A B C D E F G H I J K L M N P R S T V W X Y Z |
| Mascarenas, David |
TS2.5 |
59 |
Photorealistic data visualization for an ultra-wide band real-time location system |
| Mathews, Pranav |
TS5.2 |
|
Analog High-Level Synthesis for Field Programmable Analog Arrays |
| Maxworth, Ashanthi |
PS.12 |
|
Characterizing Stability of Bulk Nanobubbles in Micro-gravity Using Radio Frequency and Optical Identification |
| Maywood, Katja |
PS.7 |
72 |
Design and Testing of Power-Optimized Waveforms on Next-Generation Passive RFID Tags |
| Meistersheim, Laurine |
TS4.5 |
133 |
Improvement of the Sensitivity of a Passive RFID Magnetic SAW Sensor based on Love Waves |
| Mengue, Prince |
TS4.5 |
133 |
Improvement of the Sensitivity of a Passive RFID Magnetic SAW Sensor based on Love Waves |
| Mensah, Kenneth |
PS.12 |
|
Characterizing Stability of Bulk Nanobubbles in Micro-gravity Using Radio Frequency and Optical Identification |
| Min, Hao |
PS.9 |
|
Side-channel Sensing for Integrated Sensing and Backscatter Communication |
| N A B C D E F G H I J K L M N P R S T V W X Y Z |
| Najishabahang, Mersedeh |
PS.13 |
|
Power Optimized Near-Ground Radio Frequency Sensor Systems for Soil Sensing |
| Niebla-Montero, Ángel |
TS3.6 |
103 |
Practical Evaluation of Wize and Bluetooth 5 Assisted RFID for an Opportunistic Vehicular Scenario |
| Nikitin, Pavel |
TS1.4 |
17 |
Differential RCS of Dual-Port Tag Antenna with Synchronous Modulated Backscatter |
| TS4.2 |
115 |
Magnetic Sensing using T-matched RAIN RFID Tags |
| P A B C D E F G H I J K L M N P R S T V W X Y Z |
| Padmal, Madhushanka |
TS3.5 |
97 |
Unlocking the Potential of Low-cost High-resolution Sensing with Analog Backscatter |
| Parsons, Brendon |
PS.3 |
|
Performance Evaluation of RFID Tag Antennas for Automated Inventory of Nuclear Containers |
| TS2.5 |
59 |
Photorealistic data visualization for an ultra-wide band real-time location system |
| Passoke, Jens |
PS.11 |
|
High-Efficiency Directed Miniature 915 MHz Group Antenna for Autonomous Sensors |
| Patel, Kartik |
PS.4 |
|
Evaluating Scalability of a Large-Scale Bi-static Backscatter Network |
| Penty, Richard |
TS1.5 |
23 |
MU-MIMO RFID: Proof of Concept |
| TS5.1 |
144 |
Zero-power Sensing based on Inter-tag Channel Estimations |
| Pereira, Emanuel |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Perper, Isaac |
TS2.3 |
47 |
Reinforcement Learning for RFID Localization |
| Petit-Watelot, Sebastien |
TS4.5 |
133 |
Improvement of the Sensitivity of a Passive RFID Magnetic SAW Sensor based on Love Waves |
| Piumwardane, Dilushi |
TS3.5 |
97 |
Unlocking the Potential of Low-cost High-resolution Sensing with Analog Backscatter |
| R A B C D E F G H I J K L M N P R S T V W X Y Z |
| Ranganathan, Vaishnavi |
TS3.5 |
97 |
Unlocking the Potential of Low-cost High-resolution Sensing with Analog Backscatter |
| Rao, Kvs |
TS4.2 |
115 |
Magnetic Sensing using T-matched RAIN RFID Tags |
| Ray, Biplob |
TS4.3 |
121 |
Evaluating Dynamic Wavelet Fingerprinting of Chipless RFID Tags in Detecting Counterfeits in Noiseless and Noisy Environments |
| TS4.4 |
127 |
Enhancing Quality Factor of Chipless RFID Sensors by Optimising the Substrate Properties and Resonator Geometry |
| Reyes, Sara |
TS1.2 |
7 |
ZeroScatter BLE: All-Digital, Fully Synthesizable Bluetooth Low Energy (BLE) Backscatter Communication in Verilog RTL for FPGA-based Devices |
| Reynolds, Matthew |
TS1.2 |
7 |
ZeroScatter BLE: All-Digital, Fully Synthesizable Bluetooth Low Energy (BLE) Backscatter Communication in Verilog RTL for FPGA-based Devices |
| Richardson, Karsten |
TS5.2 |
|
Analog High-Level Synthesis for Field Programmable Analog Arrays |
| Rodriguez, Lazaro |
TS2.4 |
53 |
Short Window Intra-Spacecraft RFID Localization |
| Rohner, Christian |
TS3.5 |
97 |
Unlocking the Potential of Low-cost High-resolution Sensing with Analog Backscatter |
| Rosenthal, James |
TS1.2 |
7 |
ZeroScatter BLE: All-Digital, Fully Synthesizable Bluetooth Low Energy (BLE) Backscatter Communication in Verilog RTL for FPGA-based Devices |
| S A B C D E F G H I J K L M N P R S T V W X Y Z |
| Saetia, Christopher |
TS1.1 |
1 |
Low-Power, Retrodirective Tunneling RFID Tag Design with Rat-Race Coupler and Reflection Amplifiers |
| PS.6 |
71 |
Low-Power, Retrodirective Tunneling RFID Tag Design with Rat-Race Coupler and Reflection Amplifiers |
| PS.7 |
72 |
Design and Testing of Power-Optimized Waveforms on Next-Generation Passive RFID Tags |
| Santos, Daniel |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Santos, Eliel |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Schäfer, Eric |
TS1.3 |
11 |
A Charge Pump System with Controlled Input Impedance for Optimized RFID Energy Harvesting |
| Schreiber, David |
TS1.3 |
11 |
A Charge Pump System with Controlled Input Impedance for Optimized RFID Energy Harvesting |
| Senthilkumar, Dharshan |
PS.7 |
72 |
Design and Testing of Power-Optimized Waveforms on Next-Generation Passive RFID Tags |
| Shah, Dhairya |
TS5.4 |
156 |
TunnelSense: Low-Power, Non-Contact Sensing using Tunnel Diodes |
| Shen, Chuankui |
TS1.6 |
29 |
A Pattern Reconfigurable Yagi Uda Antenna Controlled by UHF RFID Technology |
| Silva, Moisés |
PS.3 |
|
Performance Evaluation of RFID Tag Antennas for Automated Inventory of Nuclear Containers |
| Sivampeta, Vishnu |
PS.7 |
72 |
Design and Testing of Power-Optimized Waveforms on Next-Generation Passive RFID Tags |
| Stanacevic, Milutin |
TS2.2 |
41 |
Optimized Channel Phase Estimation in Passive RF Tag Network |
| TS2.6 |
65 |
Design of the Dual-channel Dickson Rectifier with Native NMOS for RF Energy Harvesting Sensors |
| Stasa, Pavel |
PS.8 |
|
Integration and Performance Evaluation of RFID Readers for Unmanned Aerial Vehicles (UAVs) |
| Strait, Justin |
TS2.5 |
59 |
Photorealistic data visualization for an ultra-wide band real-time location system |
| T A B C D E F G H I J K L M N P R S T V W X Y Z |
| Tang, Kuanfeng |
PS.9 |
|
Side-channel Sensing for Integrated Sensing and Backscatter Communication |
| V A B C D E F G H I J K L M N P R S T V W X Y Z |
| Varner, Michael |
TS3.1 |
73 |
Perfect Pulse enabled Direct Sequence Spread Spectrum for Enhanced Interference Rejection |
| Varshney, Ambuj |
TS5.4 |
156 |
TunnelSense: Low-Power, Non-Contact Sensing using Tunnel Diodes |
| Vieira, Luis |
TS5.3 |
150 |
Battery-less Sensor Tags with RFID: A Survey |
| Voigt, Thiemo |
TS3.5 |
97 |
Unlocking the Potential of Low-cost High-resolution Sensing with Analog Backscatter |
| Vojtech, Lukas |
PS.8 |
|
Integration and Performance Evaluation of RFID Readers for Unmanned Aerial Vehicles (UAVs) |
| W A B C D E F G H I J K L M N P R S T V W X Y Z |
| Wang, Zhengxing |
TS1.6 |
29 |
A Pattern Reconfigurable Yagi Uda Antenna Controlled by UHF RFID Technology |
| Winnefeld, Jannis |
PS.11 |
|
High-Efficiency Directed Miniature 915 MHz Group Antenna for Autonomous Sensors |
| Wittig, Christoph |
PS.11 |
|
High-Efficiency Directed Miniature 915 MHz Group Antenna for Autonomous Sensors |
| Wu, Taotao |
PS.9 |
|
Side-channel Sensing for Integrated Sensing and Backscatter Communication |
| X A B C D E F G H I J K L M N P R S T V W X Y Z |
| Xie, Yang |
TS2.2 |
41 |
Optimized Channel Phase Estimation in Passive RF Tag Network |
| Xu, Guoyi |
PS.5 |
|
Reducing Reference Points for Millimeter-Precision RFID Tag Localization in Building Structures |
| Y A B C D E F G H I J K L M N P R S T V W X Y Z |
| Yang, Shuai |
TS1.5 |
23 |
MU-MIMO RFID: Proof of Concept |
| TS5.1 |
144 |
Zero-power Sensing based on Inter-tag Channel Estimations |
| Yao, Lauren |
PS.7 |
72 |
Design and Testing of Power-Optimized Waveforms on Next-Generation Passive RFID Tags |
| Ye, Terry Tao |
TS1.6 |
29 |
A Pattern Reconfigurable Yagi Uda Antenna Controlled by UHF RFID Technology |
| Youbi, Ulrich |
TS4.5 |
133 |
Improvement of the Sensitivity of a Passive RFID Magnetic SAW Sensor based on Love Waves |
| Z A B C D E F G H I J K L M N P R S T V W X Y Z |
| Zhang, Junbo |
PS.4 |
|
Evaluating Scalability of a Large-Scale Bi-static Backscatter Network |
| Zhao, Yuxiao |
PS.9 |
|
Side-channel Sensing for Integrated Sensing and Backscatter Communication |
| Zheng, Puyang |
TS2.6 |
65 |
Design of the Dual-channel Dickson Rectifier with Native NMOS for RF Energy Harvesting Sensors |
| Zhgoon, Sergei |
TS4.5 |
133 |
Improvement of the Sensitivity of a Passive RFID Magnetic SAW Sensor based on Love Waves |
