A B C D E F G H J K L M N P R S T U V W X Y Z
| Author | Session | Start page | Title |
|---|---|---|---|
| A A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Ahmad, Abeer | W_C_1.3 | Tag-to-Tag Range Estimation for Passive Backscattering Tags | |
| Ajit, Pratheik | Workshops 1.2 | RFID Reader Design: A Deep Dive into Echo Cancellation in the GS1 Gen2 Protocol | |
| Akinsiku, Mojisola Rachael | T_A_3.5 | Additively Manufactured Chipless RFID-Based Resonator for Non-Contact Plant VOC Sensing Using MXene | |
| Alfayoumi, Sobhi | T_B_3.4 | Collision-Resilient RFID Tag Counting under Protocol Constraints Using Lightweight Machine Learning | |
| Amoah, Bernard | W_C_1.1 | QLSTM: A Quantum LSTM for Real-Time Mobile RFID Tag Tracking with Velocity Estimation | |
| T_A_1.1 | Zero-Shot Quantum Localization: Transferring Knowledge from RFID to WiFi/BLE/UWB Systems | ||
| Anghel, Marian | W_A_2.3 | RFID Antenna Modeling and Validation in Complex Glovebox Environments for Nuclear Production Applications | |
| B A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Barbot, Nicolas | W_A_1.3 | Remote Antenna Impedance Estimation Using a UHF RFID Chip | |
| Beichler, Richard | Posters.6 | RFID 'DataBridge' Interface | |
| Posters.6 | RFID 'DataBridge' Interface | ||
| Posters.2 | RFID 'DataBridge' Interface | ||
| Bejder, Frida | T_C_3.4 | Wireless and on-demand drug delivery with ultrasound-responsive sustainable piezoelectric chitosan film | |
| Berenguer, Roc | T_A_3.2 | A Passive UHF RFID Voltage Sensor Tag for Wireless Battery Monitoring Systems | |
| Beriain, Andoni | T_A_3.2 | A Passive UHF RFID Voltage Sensor Tag for Wireless Battery Monitoring Systems | |
| Berisso, Kevin | Tu4.1 | Applied RFID: Tires & PLCs | |
| Bhattacharyya, Rahul | T_A_1.5 | ID Beyond the IC: Hybrid Chip-Chipless UHF RFID Tags Employing Wideband Backscatter Fingerprints | |
| T_B_3.5 | A Cyber-Physical Security Framework and Validated Solution for RFID Item-Tag Integrity | ||
| T_B_3.4 | Collision-Resilient RFID Tag Counting under Protocol Constraints Using Lightweight Machine Learning | ||
| T_A_3.4 | Material sensing using arrays of open dipole RAIN RFID tags | ||
| Bhuiyan, Mahmudul | Workshops 1.2 | RFID Reader Design: A Deep Dive into Echo Cancellation in the GS1 Gen2 Protocol | |
| Bihar, Eloise | T_C_3.5 | Biodegradable PEDOT: PSS-Wax Electronics for Electrical Sensing of Soil Microbial Activity | |
| Bower, Patricia | Workshops 1.1 | Toward Scalable and Energy-Efficient Connectivity for 3GPP Ambient IoT via Bistatic RFID | |
| Brigante, Biagio | T_C_3.2 | A fully polymer-based shift register for sustainable RFID applications | |
| C A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Cantalice, Rafael | T_B_3.1 | A Neuromorphic RF Power Sensor for Inductive Coupling IoT Systems | |
| Catarinucci, Luca | Conference Opening.1 | Message from the CRFID President | |
| Cattaneo, Alessandro | Posters.6 | RFID 'DataBridge' Interface | |
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| Posters.7 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| Posters.7 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.6 | RFID 'DataBridge' Interface | ||
| Posters.2 | RFID 'DataBridge' Interface | ||
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| Posters.1 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Plenary Patron Talks.2 | Los Alamos National Laboratory | ||
| W_A_2.1 | Fast Uncertainty-Aware Localization of Passive RFID Tags | ||
| W_A_2.2 | Improved Efficiency of Nuclear Material Item Inventories when using RFID | ||
| W_A_2.3 | RFID Antenna Modeling and Validation in Complex Glovebox Environments for Nuclear Production Applications | ||
| T_C_1.3 | Statistical Performance Modeling of RFID Inventory Processes | ||
| T_C_1.4 | An RFID-enabled tamper-indicating device to maintain continuity of knowledge on nuclear material | ||
| T_C_1.5 | Characterization of UHF RFID Tag Performance for SAVY-4000 Nuclear Material Storage Containers | ||
| T_C_1.1 | Early experiments to evaluate radio tomographic imaging capabilities of an UWB system in high-consequence environments | ||
| T_C_1.2 | Performance characterization of commercial on-metal UHF RFID Labels on Curved Metal Surfaces | ||
| Cecchi, Glauco | W_C_1.2 | Multitarget UHF-RFID and LiDAR Sensor Fusion Safety System for Collision Avoidance | |
| Chaffai, Karim Marouan | T_A_3.2 | A Passive UHF RFID Voltage Sensor Tag for Wireless Battery Monitoring Systems | |
| Chen, Jimmy Ching-Ming | T_B_3.2 | PT-Enabled Wireless PUF Tags with Contrastive 1D-CNN Embeddings for Robust Identifications | |
| Chen, Pai-Yen | T_B_3.2 | PT-Enabled Wireless PUF Tags with Contrastive 1D-CNN Embeddings for Robust Identifications | |
| Chen, Yinan | W_A_1.4 | Fully Integrated Backside-Illuminated Photosensitive RFID Tag for Optical Threshold Detection | |
| Chinthalapani, Rajashekar Reddy | T_A_2.1 | HILO: Enabling Low-power, Dual-Band Communication using Tunnel Diode Oscillators | |
| Chrysler, Andrew | W_A_2.3 | RFID Antenna Modeling and Validation in Complex Glovebox Environments for Nuclear Production Applications | |
| Chung, Bryce | T_A_2.5 | Terahertz 3D-Printed Mechanical Azimuth Beamsteering Using Contoured Dielectric Disk as Variable-Deflection Prism | |
| Colpani, Paolo | T_C_3.2 | A fully polymer-based shift register for sustainable RFID applications | |
| Cooper, Andrew | W_A_2.1 | Fast Uncertainty-Aware Localization of Passive RFID Tags | |
| Costa, Filippo | T_B_3.3 | Motion Modulation for AI-aided Simultaneous Identification of Multiple Chipless RFID tags | |
| Crisp, Michael | T_A_3.3 | Split-Ring Resonator Enhanced Detection of Liquids Using Backscatter Tags | |
| D A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Das, Samir | W_C_1.3 | Tag-to-Tag Range Estimation for Passive Backscattering Tags | |
| Davis, Allison | W_A_2.3 | RFID Antenna Modeling and Validation in Complex Glovebox Environments for Nuclear Production Applications | |
| T_C_1.1 | Early experiments to evaluate radio tomographic imaging capabilities of an UWB system in high-consequence environments | ||
| De Vincenzi, Marco | T_B_3.5 | A Cyber-Physical Security Framework and Validated Solution for RFID Item-Tag Integrity | |
| De Vittorio, Massimo | T_C_3.4 | Wireless and on-demand drug delivery with ultrasound-responsive sustainable piezoelectric chitosan film | |
| Degnan, Brian | Tu2.2 | Tag IC Circuits and Protocols | |
| Tu3.1 | Circuits and Cryptography | ||
| Dell'Erba, Giorgio | T_C_3.2 | A fully polymer-based shift register for sustainable RFID applications | |
| Demir, Alpaslan | Workshops 1.2 | RFID Reader Design: A Deep Dive into Echo Cancellation in the GS1 Gen2 Protocol | |
| Dey, Shuvashis | T_A_3.5 | Additively Manufactured Chipless RFID-Based Resonator for Non-Contact Plant VOC Sensing Using MXene | |
| Djurić, Petar | W_C_1.3 | Tag-to-Tag Range Estimation for Passive Backscattering Tags | |
| Dobkin, Daniel | Tu1.1 | The RF in RFID | |
| Tu4.2 | Time permitting, a brief discussion of neuromorphic RFID will also be included in the tutorial session. | ||
| Dorn, Mary Frances | W_A_2.1 | Fast Uncertainty-Aware Localization of Passive RFID Tags | |
| T_C_1.3 | Statistical Performance Modeling of RFID Inventory Processes | ||
| Dungen, Jeffrey | Tu3.2 | Middleware / Applications | |
| Durgin, Gregory | Tu2.1 | Energy Havesting | |
| T_A_2.4 | Pilot-Assist Backscatter Communications with a Tunnel Diode Backscatter Modulator | ||
| E A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Eid, Aline | T_A_2.3 | Low Cost Regenerative Amplifiers for Long Range UHF RFIDs | |
| F A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Fletcher, Richard | T_P_1.5 | The Evolution of Chipless RFID | |
| T_A_1.5 | ID Beyond the IC: Hybrid Chip-Chipless UHF RFID Tags Employing Wideband Backscatter Fingerprints | ||
| Flynn, Kilkee | Posters.4 | Neutron Domino Integration with Arduino and RFID | |
| Posters.7 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.6 | RFID 'DataBridge' Interface | ||
| Posters.6 | RFID 'DataBridge' Interface | ||
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| Posters.7 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| Posters.1 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.2 | RFID 'DataBridge' Interface | ||
| W_A_2.2 | Improved Efficiency of Nuclear Material Item Inventories when using RFID | ||
| T_C_1.3 | Statistical Performance Modeling of RFID Inventory Processes | ||
| T_C_1.4 | An RFID-enabled tamper-indicating device to maintain continuity of knowledge on nuclear material | ||
| G A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Gajbhiye, Angela | T_A_3.1 | A 75 kHz Inductive Power and BPSK Backscatter Communication Link for a Battery-Free Sub-Soil Sensor | |
| Gatesman, John Koltes | Posters.6 | RFID 'DataBridge' Interface | |
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| Posters.6 | RFID 'DataBridge' Interface | ||
| Posters.2 | RFID 'DataBridge' Interface | ||
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| T_C_1.4 | An RFID-enabled tamper-indicating device to maintain continuity of knowledge on nuclear material | ||
| Gatnau Sarret, Marta | T_B_3.4 | Collision-Resilient RFID Tag Counting under Protocol Constraints Using Lightweight Machine Learning | |
| Gattamelata, Davide | W_C_1.2 | Multitarget UHF-RFID and LiDAR Sensor Fusion Safety System for Collision Avoidance | |
| Grosinger, Jasmin | W_A_1.3 | Remote Antenna Impedance Estimation Using a UHF RFID Chip | |
| H A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Hapuarachchi, Ravisha | W_C_1.4 | AI-Native Detection and Localization of UAS via Multi-Antenna ELF Passive Sensing | |
| Harisha, Skanda | T_A_2.3 | Low Cost Regenerative Amplifiers for Long Range UHF RFIDs | |
| Headland, Daniel | T_A_2.5 | Terahertz 3D-Printed Mechanical Azimuth Beamsteering Using Contoured Dielectric Disk as Variable-Deflection Prism | |
| Herath, Dilshara | W_C_1.4 | AI-Native Detection and Localization of UAS via Multi-Antenna ELF Passive Sensing | |
| Hester, Jimmy | T_A_2.3 | Low Cost Regenerative Amplifiers for Long Range UHF RFIDs | |
| Hirschler, Calvin | Posters.5 | Transforming Inventory Management Through Spatial Data and Visual Feedback | |
| Posters.5 | Transforming Inventory Management Through Spatial Data and Visual Feedback | ||
| Posters.3 | Transforming Inventory Management Through Spatial Data and Visual Feedback | ||
| Ho, Kevin | W_A_1.1 | ZeroScatterPico: Bluetooth Low Energy (BLE) Backscatter Using Only Raspberry Pi Pico Digital I/O Pins | |
| W_A_1.2 | All-Digital Bluetooth Low Energy (BLE) Backscatter ASIC using Standard I/O Pad Drivers in 180 nm CMOS | ||
| T_A_2.2 | A 2.4 GHz True Time Delay (TTD) Subcarrier Beamforming Array for Spatially-Selective Bluetooth Low Energy (BLE) Backscatter | ||
| Hokama Razzini, Adrielly | Posters.7 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | |
| Posters.6 | RFID 'DataBridge' Interface | ||
| Posters.6 | RFID 'DataBridge' Interface | ||
| Posters.7 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.1 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.2 | RFID 'DataBridge' Interface | ||
| W_A_2.2 | Improved Efficiency of Nuclear Material Item Inventories when using RFID | ||
| T_C_1.4 | An RFID-enabled tamper-indicating device to maintain continuity of knowledge on nuclear material | ||
| Htoon, Linn-Htet | Posters.6 | RFID 'DataBridge' Interface | |
| Posters.6 | RFID 'DataBridge' Interface | ||
| Posters.2 | RFID 'DataBridge' Interface | ||
| Htoon, Linnhtet | Posters.4 | Neutron Domino Integration with Arduino and RFID | |
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| J A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Jiang, Yuchen | T_A_1.3 | Carrier Cancellation for RFIDs with Augmented CW Used in Passive Integrated Sensing and Communication (PISAC) | |
| Jones, Ryan | T_A_3.3 | Split-Ring Resonator Enhanced Detection of Liquids Using Backscatter Tags | |
| K A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Kettle, Jeff | T_C_3.3 | Zero Waste Chipless RFID Tags Made with Zinc Tracks on Paper Substrate | |
| Korlapati, Soundarya | T_A_1.4 | SlotSense: Counting-Free RFID Tag Density Inference via Temporal Slot Analysis | |
| T_C_1.2 | Performance characterization of commercial on-metal UHF RFID Labels on Curved Metal Surfaces | ||
| L A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Lakis, Rollin | Posters.6 | RFID 'DataBridge' Interface | |
| Posters.7 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.7 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.6 | RFID 'DataBridge' Interface | ||
| Posters.2 | RFID 'DataBridge' Interface | ||
| Posters.1 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| W_A_2.2 | Improved Efficiency of Nuclear Material Item Inventories when using RFID | ||
| T_C_1.2 | Performance characterization of commercial on-metal UHF RFID Labels on Curved Metal Surfaces | ||
| T_C_1.3 | Statistical Performance Modeling of RFID Inventory Processes | ||
| T_C_1.4 | An RFID-enabled tamper-indicating device to maintain continuity of knowledge on nuclear material | ||
| T_C_1.5 | Characterization of UHF RFID Tag Performance for SAVY-4000 Nuclear Material Storage Containers | ||
| Lee, Ryan | W_A_1.2 | All-Digital Bluetooth Low Energy (BLE) Backscatter ASIC using Standard I/O Pad Drivers in 180 nm CMOS | |
| Lee, Zong-Ru | T_B_3.2 | PT-Enabled Wireless PUF Tags with Contrastive 1D-CNN Embeddings for Robust Identifications | |
| Li, Ang | W_A_1.2 | All-Digital Bluetooth Low Energy (BLE) Backscatter ASIC using Standard I/O Pad Drivers in 180 nm CMOS | |
| Li, Heyi | T_A_1.5 | ID Beyond the IC: Hybrid Chip-Chipless UHF RFID Tags Employing Wideband Backscatter Fingerprints | |
| T_B_3.5 | A Cyber-Physical Security Framework and Validated Solution for RFID Item-Tag Integrity | ||
| T_B_3.4 | Collision-Resilient RFID Tag Counting under Protocol Constraints Using Lightweight Machine Learning | ||
| Lima, Antonio | T_B_3.1 | A Neuromorphic RF Power Sensor for Inductive Coupling IoT Systems | |
| Liu, Yulong | T_A_1.3 | Carrier Cancellation for RFIDs with Augmented CW Used in Passive Integrated Sensing and Communication (PISAC) | |
| Lu, Yu | W_A_1.4 | Fully Integrated Backside-Illuminated Photosensitive RFID Tag for Optical Threshold Detection | |
| M A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| M. Ferreira, Pietro | T_B_3.1 | A Neuromorphic RF Power Sensor for Inductive Coupling IoT Systems | |
| Madanayake, Arjuna | W_C_1.4 | AI-Native Detection and Localization of UAS via Multi-Antenna ELF Passive Sensing | |
| Manigrasso, Matilde | T_C_3.4 | Wireless and on-demand drug delivery with ultrasound-responsive sustainable piezoelectric chitosan film | |
| Mao, Shiwen | W_C_1.1 | QLSTM: A Quantum LSTM for Real-Time Mobile RFID Tag Tracking with Velocity Estimation | |
| T_A_1.1 | Zero-Shot Quantum Localization: Transferring Knowledge from RFID to WiFi/BLE/UWB Systems | ||
| T_A_1.2 | GrLoc: Geometry-Aware RFID Localization with Digital-Twin Fusion for Robust Field Deployment | ||
| Mario, Caironi | T_C_3.2 | A fully polymer-based shift register for sustainable RFID applications | |
| Marzo, Gaia de | T_C_3.4 | Wireless and on-demand drug delivery with ultrasound-responsive sustainable piezoelectric chitosan film | |
| Melià-Seguí, Joan | T_B_3.4 | Collision-Resilient RFID Tag Counting under Protocol Constraints Using Lightweight Machine Learning | |
| Migliori, Robert | T_C_1.3 | Statistical Performance Modeling of RFID Inventory Processes | |
| Min, Hao | W_A_1.4 | Fully Integrated Backside-Illuminated Photosensitive RFID Tag for Optical Threshold Detection | |
| Morais, Marcos | T_B_3.1 | A Neuromorphic RF Power Sensor for Inductive Coupling IoT Systems | |
| Morehead, Andrew | Workshops 2.1 | The ID in RFID | |
| Motroni, Andrea | W_C_1.2 | Multitarget UHF-RFID and LiDAR Sensor Fusion Safety System for Collision Avoidance | |
| T_B_3.3 | Motion Modulation for AI-aided Simultaneous Identification of Multiple Chipless RFID tags | ||
| N A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Nagaraj, Santosh | W_C_1.5 | Simultaneously Reading and Ranging an EPC Gen2 RFID Tag | |
| Nageswaran, Shiva | T_C_1.2 | Performance characterization of commercial on-metal UHF RFID Labels on Curved Metal Surfaces | |
| T_A_1.4 | SlotSense: Counting-Free RFID Tag Density Inference via Temporal Slot Analysis | ||
| Natali, Dario | T_C_3.2 | A fully polymer-based shift register for sustainable RFID applications | |
| Nepa, Paolo | W_C_1.2 | Multitarget UHF-RFID and LiDAR Sensor Fusion Safety System for Collision Avoidance | |
| Ng, Tse Nga | T_C_3.1 | Electrochemical Sensor and Energy Storage Devices for Sustainability | |
| Nikitin, Pavel | W_A_1.3 | Remote Antenna Impedance Estimation Using a UHF RFID Chip | |
| T_A_3.4 | Material sensing using arrays of open dipole RAIN RFID tags | ||
| Noh, Taegyun | T_A_2.5 | Terahertz 3D-Printed Mechanical Azimuth Beamsteering Using Contoured Dielectric Disk as Variable-Deflection Prism | |
| P A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Pan, Andrew | W_A_1.2 | All-Digital Bluetooth Low Energy (BLE) Backscatter ASIC using Standard I/O Pad Drivers in 180 nm CMOS | |
| Parsons, Brendon | Posters.4 | Neutron Domino Integration with Arduino and RFID | |
| Posters.7 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.6 | RFID 'DataBridge' Interface | ||
| Posters.6 | RFID 'DataBridge' Interface | ||
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| Posters.7 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.4 | Neutron Domino Integration with Arduino and RFID | ||
| Posters.1 | A Survey of Gamma Irradiation Effects on UHF RFID Tags | ||
| Posters.2 | RFID 'DataBridge' Interface | ||
| W_A_2.1 | Fast Uncertainty-Aware Localization of Passive RFID Tags | ||
| W_A_2.2 | Improved Efficiency of Nuclear Material Item Inventories when using RFID | ||
| W_A_2.3 | RFID Antenna Modeling and Validation in Complex Glovebox Environments for Nuclear Production Applications | ||
| T_C_1.3 | Statistical Performance Modeling of RFID Inventory Processes | ||
| T_C_1.4 | An RFID-enabled tamper-indicating device to maintain continuity of knowledge on nuclear material | ||
| T_C_1.5 | Characterization of UHF RFID Tag Performance for SAVY-4000 Nuclear Material Storage Containers | ||
| T_C_1.1 | Early experiments to evaluate radio tomographic imaging capabilities of an UWB system in high-consequence environments | ||
| T_C_1.2 | Performance characterization of commercial on-metal UHF RFID Labels on Curved Metal Surfaces | ||
| Pasquali, Giacomo | T_C_3.4 | Wireless and on-demand drug delivery with ultrasound-responsive sustainable piezoelectric chitosan film | |
| Patton, Justin | W_C_1.1 | QLSTM: A Quantum LSTM for Real-Time Mobile RFID Tag Tracking with Velocity Estimation | |
| T_A_1.1 | Zero-Shot Quantum Localization: Transferring Knowledge from RFID to WiFi/BLE/UWB Systems | ||
| T_A_1.2 | GrLoc: Geometry-Aware RFID Localization with Digital-Twin Fusion for Robust Field Deployment | ||
| T_A_1.4 | SlotSense: Counting-Free RFID Tag Density Inference via Temporal Slot Analysis | ||
| Paukkunen, Antti | W_A_1.3 | Remote Antenna Impedance Estimation Using a UHF RFID Chip | |
| Penty, Richard | T_A_3.3 | Split-Ring Resonator Enhanced Detection of Liquids Using Backscatter Tags | |
| Periaswamy, Senthilkumar | W_C_1.1 | QLSTM: A Quantum LSTM for Real-Time Mobile RFID Tag Tracking with Velocity Estimation | |
| T_A_1.1 | Zero-Shot Quantum Localization: Transferring Knowledge from RFID to WiFi/BLE/UWB Systems | ||
| T_A_1.2 | GrLoc: Geometry-Aware RFID Localization with Digital-Twin Fusion for Robust Field Deployment | ||
| T_A_1.4 | SlotSense: Counting-Free RFID Tag Density Inference via Temporal Slot Analysis | ||
| Perkusich, Angelo | T_B_3.1 | A Neuromorphic RF Power Sensor for Inductive Coupling IoT Systems | |
| Pham, Duc | T_B_3.2 | PT-Enabled Wireless PUF Tags with Contrastive 1D-CNN Embeddings for Robust Identifications | |
| Pham, Nicole | T_A_3.1 | A 75 kHz Inductive Power and BPSK Backscatter Communication Link for a Battery-Free Sub-Soil Sensor | |
| Pous, Rafael | W_P_1.3 | RFID everywhere, all the time | |
| Puri, Daniele | W_C_1.2 | Multitarget UHF-RFID and LiDAR Sensor Fusion Safety System for Collision Avoidance | |
| R A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Rathnayaka, Anuththa | W_C_1.4 | AI-Native Detection and Localization of UAS via Multi-Antenna ELF Passive Sensing | |
| Ren, Yichong | T_B_3.2 | PT-Enabled Wireless PUF Tags with Contrastive 1D-CNN Embeddings for Robust Identifications | |
| Reynolds, Matthew | W_A_1.1 | ZeroScatterPico: Bluetooth Low Energy (BLE) Backscatter Using Only Raspberry Pi Pico Digital I/O Pins | |
| W_A_1.2 | All-Digital Bluetooth Low Energy (BLE) Backscatter ASIC using Standard I/O Pad Drivers in 180 nm CMOS | ||
| T_A_2.2 | A 2.4 GHz True Time Delay (TTD) Subcarrier Beamforming Array for Spatially-Selective Bluetooth Low Energy (BLE) Backscatter | ||
| T_A_3.1 | A 75 kHz Inductive Power and BPSK Backscatter Communication Link for a Battery-Free Sub-Soil Sensor | ||
| Rezola, Ainhoa | T_A_3.2 | A Passive UHF RFID Voltage Sensor Tag for Wireless Battery Monitoring Systems | |
| Rhett, Charles Harper | Posters.3 | Real-Time Tag Localization using Augmented Reality and Neural Networks | |
| Posters.3 | Real-Time Tag Localization using Augmented Reality and Neural Networks | ||
| Posters.5 | Real-Time Tag Localization using Augmented Reality and Neural Networks | ||
| Roberti, Mark | W_P_1.1 | What's Preventing RFID from Mass Adoption | |
| Rosenthal, James | W_A_1.2 | All-Digital Bluetooth Low Energy (BLE) Backscatter ASIC using Standard I/O Pad Drivers in 180 nm CMOS | |
| S A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Sadler, Anthony | T_C_1.5 | Characterization of UHF RFID Tag Performance for SAVY-4000 Nuclear Material Storage Containers | |
| Saetia, Christopher | T_A_2.4 | Pilot-Assist Backscatter Communications with a Tunnel Diode Backscatter Modulator | |
| Safawi, Mohamed | T_A_2.3 | Low Cost Regenerative Amplifiers for Long Range UHF RFIDs | |
| Santos Junior, Gutemberg | T_B_3.1 | A Neuromorphic RF Power Sensor for Inductive Coupling IoT Systems | |
| Sarma, Sanjay | T_A_1.5 | ID Beyond the IC: Hybrid Chip-Chipless UHF RFID Tags Employing Wideband Backscatter Fingerprints | |
| T_B_3.5 | A Cyber-Physical Security Framework and Validated Solution for RFID Item-Tag Integrity | ||
| T_B_3.4 | Collision-Resilient RFID Tag Counting under Protocol Constraints Using Lightweight Machine Learning | ||
| Sawardekar, Vihaan | Posters.2 | RFIDSentinel: Differentially Private Federated Learning over Synthesized Backscatter Fingerprints for Real-Time Multi-Attack Detection in Dense UHF RFID Deployments | |
| Posters.2 | RFIDSentinel: Differentially Private Federated Learning over Synthesized Backscatter Fingerprints for Real-Time Multi-Attack Detection in Dense UHF RFID Deployments | ||
| Posters.6 | RFIDSentinel: Differentially Private Federated Learning over Synthesized Backscatter Fingerprints for Real-Time Multi-Attack Detection in Dense UHF RFID Deployments | ||
| Seneviratne, Chatura | W_C_1.4 | AI-Native Detection and Localization of UAS via Multi-Antenna ELF Passive Sensing | |
| Shah, Dhairya | T_A_2.1 | HILO: Enabling Low-power, Dual-Band Communication using Tunnel Diode Oscillators | |
| Silva, Moisés | W_A_2.3 | RFID Antenna Modeling and Validation in Complex Glovebox Environments for Nuclear Production Applications | |
| Singh, Manavjeet | W_C_1.3 | Tag-to-Tag Range Estimation for Passive Backscattering Tags | |
| Solar, Hector | T_A_3.2 | A Passive UHF RFID Voltage Sensor Tag for Wireless Battery Monitoring Systems | |
| Sooriya Patabandige, Pramuka | T_A_2.1 | HILO: Enabling Low-power, Dual-Band Communication using Tunnel Diode Oscillators | |
| Stanacevic, Milutin | W_C_1.3 | Tag-to-Tag Range Estimation for Passive Backscattering Tags | |
| Stark, Emily | W_A_2.2 | Improved Efficiency of Nuclear Material Item Inventories when using RFID | |
| Strait, Justin | W_A_2.1 | Fast Uncertainty-Aware Localization of Passive RFID Tags | |
| T_C_1.3 | Statistical Performance Modeling of RFID Inventory Processes | ||
| T_C_1.5 | Characterization of UHF RFID Tag Performance for SAVY-4000 Nuclear Material Storage Containers | ||
| T A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Tavanti, Emanuele | W_C_1.2 | Multitarget UHF-RFID and LiDAR Sensor Fusion Safety System for Collision Avoidance | |
| Tedesco, Salvatore | T_B_3.3 | Motion Modulation for AI-aided Simultaneous Identification of Multiple Chipless RFID tags | |
| Tomassini, Laura | W_C_1.2 | Multitarget UHF-RFID and LiDAR Sensor Fusion Safety System for Collision Avoidance | |
| Tsai, Wei-Chuan | T_A_3.1 | A 75 kHz Inductive Power and BPSK Backscatter Communication Link for a Battery-Free Sub-Soil Sensor | |
| Tseng, Ling-An Kate | W_A_1.2 | All-Digital Bluetooth Low Energy (BLE) Backscatter ASIC using Standard I/O Pad Drivers in 180 nm CMOS | |
| Tuominen, Jesse | W_A_1.3 | Remote Antenna Impedance Estimation Using a UHF RFID Chip | |
| Turner, Christopher | T_A_1.2 | GrLoc: Geometry-Aware RFID Localization with Digital-Twin Fusion for Robust Field Deployment | |
| Tusher, Md Mahamud | T_A_3.5 | Additively Manufactured Chipless RFID-Based Resonator for Non-Contact Plant VOC Sensing Using MXene | |
| U A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Urain, Alvaro | T_A_3.2 | A Passive UHF RFID Voltage Sensor Tag for Wireless Battery Monitoring Systems | |
| V A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Varshney, Ambuj | T_A_2.1 | HILO: Enabling Low-power, Dual-Band Communication using Tunnel Diode Oscillators | |
| Villa-Gonzalez, Fatima | T_A_1.5 | ID Beyond the IC: Hybrid Chip-Chipless UHF RFID Tags Employing Wideband Backscatter Fingerprints | |
| T_B_3.5 | A Cyber-Physical Security Framework and Validated Solution for RFID Item-Tag Integrity | ||
| T_B_3.4 | Collision-Resilient RFID Tag Counting under Protocol Constraints Using Lightweight Machine Learning | ||
| T_A_3.4 | Material sensing using arrays of open dipole RAIN RFID tags | ||
| Viola, Fabrizio Antonio | T_C_3.2 | A fully polymer-based shift register for sustainable RFID applications | |
| Virajith, Thamindu | W_C_1.4 | AI-Native Detection and Localization of UAS via Multi-Antenna ELF Passive Sensing | |
| Vita, Leonardo | W_C_1.2 | Multitarget UHF-RFID and LiDAR Sensor Fusion Safety System for Collision Avoidance | |
| W A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Wallace, Casey | W_A_1.5 | An Always-ON Batteryless RFID Sensor Label Using Digital MEMS Sensor Arrays for Continuous Environmental Monitoring | |
| Wang, Danling | T_A_3.5 | Additively Manufactured Chipless RFID-Based Resonator for Non-Contact Plant VOC Sensing Using MXene | |
| Wang, Hanyang | W_A_1.4 | Fully Integrated Backside-Illuminated Photosensitive RFID Tag for Optical Threshold Detection | |
| Wang, Jiayi | W_A_1.2 | All-Digital Bluetooth Low Energy (BLE) Backscatter ASIC using Standard I/O Pad Drivers in 180 nm CMOS | |
| Wang, Xiangyu | T_A_1.4 | SlotSense: Counting-Free RFID Tag Density Inference via Temporal Slot Analysis | |
| Wickramasriya, Duleen | W_C_1.4 | AI-Native Detection and Localization of UAS via Multi-Antenna ELF Passive Sensing | |
| Withayachumnankul, Withawat | T_A_2.5 | Terahertz 3D-Printed Mechanical Azimuth Beamsteering Using Contoured Dielectric Disk as Variable-Deflection Prism | |
| Wu, Shaoen | T_A_1.2 | GrLoc: Geometry-Aware RFID Localization with Digital-Twin Fusion for Robust Field Deployment | |
| Wu, Taotao | W_A_1.4 | Fully Integrated Backside-Illuminated Photosensitive RFID Tag for Optical Threshold Detection | |
| Wu, Yongshuai | T_A_1.2 | GrLoc: Geometry-Aware RFID Localization with Digital-Twin Fusion for Robust Field Deployment | |
| X A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Xie, Yang | W_C_1.3 | Tag-to-Tag Range Estimation for Passive Backscattering Tags | |
| Xu, Lulu | T_A_1.3 | Carrier Cancellation for RFIDs with Augmented CW Used in Passive Integrated Sensing and Communication (PISAC) | |
| Y A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Yang, Rusong | T_A_1.3 | Carrier Cancellation for RFIDs with Augmented CW Used in Passive Integrated Sensing and Communication (PISAC) | |
| Yang, Shuai | T_A_3.3 | Split-Ring Resonator Enhanced Detection of Liquids Using Backscatter Tags | |
| Yao, Lulu | T_C_3.1 | Electrochemical Sensor and Energy Storage Devices for Sustainability | |
| Yazdi, Navid | W_A_1.5 | An Always-ON Batteryless RFID Sensor Label Using Digital MEMS Sensor Arrays for Continuous Environmental Monitoring | |
| Ye, Terry | T_A_1.3 | Carrier Cancellation for RFIDs with Augmented CW Used in Passive Integrated Sensing and Communication (PISAC) | |
| Yu, Siqi | T_C_3.1 | Electrochemical Sensor and Energy Storage Devices for Sustainability | |
| Yu, Te Min | W_A_1.2 | All-Digital Bluetooth Low Energy (BLE) Backscatter ASIC using Standard I/O Pad Drivers in 180 nm CMOS | |
| Z A B C D E F G H J K L M N P R S T U V W X Y Z | |||
| Zhang, Jian | W_C_1.1 | QLSTM: A Quantum LSTM for Real-Time Mobile RFID Tag Tracking with Velocity Estimation | |
| T_A_1.1 | Zero-Shot Quantum Localization: Transferring Knowledge from RFID to WiFi/BLE/UWB Systems | ||
| T_A_1.2 | GrLoc: Geometry-Aware RFID Localization with Digital-Twin Fusion for Robust Field Deployment | ||
| T_A_1.4 | SlotSense: Counting-Free RFID Tag Density Inference via Temporal Slot Analysis | ||
| Zhang, Stanley | W_A_1.1 | ZeroScatterPico: Bluetooth Low Energy (BLE) Backscatter Using Only Raspberry Pi Pico Digital I/O Pins | |
| T_A_2.2 | A 2.4 GHz True Time Delay (TTD) Subcarrier Beamforming Array for Spatially-Selective Bluetooth Low Energy (BLE) Backscatter | ||
| Zhao, Aiden | Posters.1 | BeeSMART: RFID-Enabled Edge System for Context-Aware Beehive Monitoring and Control | |
| Posters.1 | BeeSMART: RFID-Enabled Edge System for Context-Aware Beehive Monitoring and Control | ||
| Posters.7 | BeeSMART: RFID-Enabled Edge System for Context-Aware Beehive Monitoring and Control | ||
| Zhu, Weibin | W_A_1.5 | An Always-ON Batteryless RFID Sensor Label Using Digital MEMS Sensor Arrays for Continuous Environmental Monitoring | |
| Zighed, Selim | T_B_3.4 | Collision-Resilient RFID Tag Counting under Protocol Constraints Using Lightweight Machine Learning | |