| Author |
Session |
Start page |
Title |
| A A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Abdul Shukoor, Mohammad |
S7.5.2 |
136 |
12-Bit Multiresonator Based Chipless RFID System for Low-Cost Item Tracking |
| Abdullah, Hani |
S8.8.2 |
301 |
A UHF RFID to I2C Bridge IC with Configurable Power Storage Unit for Flexible RFID Sensor Applications |
| Adeyeye, Ajibayo |
S7.2.1 |
77 |
5G/mm-Wave Next Generation RFID Systems for Future IoT Applications |
| Agarwal, Smriti |
S7.1.1 |
55 |
A High Gain, UWB Vivaldi Antenna Loaded With Unit Cells for Imaging/ RFID Applications |
| Aggarwal, Ishita |
S6.1.3 |
9 |
A Flower shaped Printed wideband monopole antenna for RFID applications |
| S7.1.4 |
67 |
A Dual band Monopole Antenna For RFID applications |
| Ahmad, Abeer |
S7.4.4 |
128 |
Collaborative Backscatter Based on Phase Channel Estimation in Passive RF Tag Networks |
| Ali, Maifuz |
S8.3.3 |
227 |
Ring with Rectangular Stub MIMO Antenna for RFID Applications |
| Alidieres, Lucie |
S8.1.4 |
183 |
RFID based Indoor Localisation System to Analyse Visitor Behavior in a Museum |
| Amendola, Sara |
S8.1.5 |
187 |
Automatic Monitoring of Fruit Ripening Rooms by UHF RFID Sensors and Machine Learning |
| Ammisetty, Mahesh Babu |
S8.2.3 |
203 |
COVID-SAFE: IoT Based Health Monitoring System using RFID in Pandemic Life |
| Anand, Abhishek |
S7.1.5 |
71 |
Compact Fractal Reader Antenna for RFID Applications |
| Andrianakis, Emmanouil |
MoCap.7 |
40 |
Elliptical DoA Estimation & Localization |
| Arya, Ravi Kumar |
S7.1.5 |
71 |
Compact Fractal Reader Antenna for RFID Applications |
| S7.3.2 |
105 |
Ring-shaped Tri-band Defective Ground Reader Antenna for RFID Applications |
| S8.3.3 |
227 |
Ring with Rectangular Stub MIMO Antenna for RFID Applications |
| Asthana, Rishi |
S8.7.3 |
293 |
BER reduction of UFMC for 1024-QAM |
| Athalye, Akshay |
S7.4.4 |
128 |
Collaborative Backscatter Based on Phase Channel Estimation in Passive RF Tag Networks |
| Athena, J. |
S8.5.2 |
260 |
Received Signal Strength based Indoor Positioning with RFID |
| B A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Ba, Demba |
S7.4.3 |
124 |
Wireless Power Transfer of Passive UHF RFID Uplink in the Case of Tags Network |
| Bagatin, Ognjen |
S8.1.6 |
191 |
Design and Technology Transfer of RFID-Based Medical Sensing Devices |
| Bajaj, Chandni |
S7.1.2 |
59 |
Compact Dual-Band Circularly-Polarized Cross-Dipole Antenna for Portable RFID Readers |
| S7.1.3 |
63 |
Compact Circularly Polarized 2.45/5.8-GHz Antenna for RFID Readers |
| Bansal, Aarti |
S8.5.4 |
267 |
UHF-RFID Tag Design for Improved Traceability Solution for workers' safety at Risky Job sites |
| Barbot, Nicolas |
S7.5.3 |
139 |
Impact of the Polarization over the Read Range in Chipless RFID |
| Barthel, Dominique |
S7.2.2 |
81 |
Ambient Backscatter Communications in Mobile Networks: Crowd-Detectable Zero-Energy-Devices |
| Basic, Fikret |
S8.7.1 |
285 |
Towards Trustworthy NFC-based Sensor Readout for Battery Packs in Battery Management Systems |
| Beeby, Stephen |
S8.6.1 |
271 |
CMOS UHF RFID Rectifier Design and Matching: an Analysis of Process and Temperature Variations |
| Benassi, Francesca |
S8.4.1 |
238 |
Recent Developments of RFID and WPT Technologies for Biomedical and Industrial Applications at the University of Bologna |
| Benouakta, Sofia |
S6.1.4 |
13 |
Passive UHF RFID Yarn For Temperature Sensing Applications |
| Bernardini, Fabio |
MoCap.8 |
44 |
RFID-Based Tracking for Worker Safety in Industrial Scenario |
| S8.4.5 |
252 |
Past, Present and Future RFID Activities at the University of Pisa |
| Bhope, Vaishnavi |
S7.5.1 |
132 |
Reprogrammable Chipless Tags with Enhanced Bit Capacity Using Dynamic Range Rotational Structures |
| Bianco, Giulio |
S8.1.2 |
177 |
RFID Labeling of Police Equipment |
| S8.4.2 |
241 |
RFID Research Against COVID-19 - Sensorized Face Masks |
| Biebl, Erwin |
S7.6.1 |
153 |
Interferences and Shadowing in Multi-Lane UHF RFID-Based Vehicle Identification Systems |
| Bieske, Bjoern |
S8.8.2 |
301 |
A UHF RFID to I2C Bridge IC with Configurable Power Storage Unit for Flexible RFID Sensor Applications |
| Binzlekar, Vibhor |
S7.1.1 |
55 |
A High Gain, UWB Vivaldi Antenna Loaded With Unit Cells for Imaging/ RFID Applications |
| Biradavolu, Yoganand |
S8.5.1 |
256 |
GPS and LoRa module Based Safety Alert system |
| Birwal, Amit |
S7.3.3 |
109 |
Circularly Polarized Broadband Co-Planar Wave-guide fed Antenna for 2.45 GHz RFID Reader |
| S7.4.2 |
120 |
Path Loss of Two-Port Circular-Ring Slot Antenna For RFID Applications |
| Biswas, Ritayan |
S7.2.3 |
85 |
Interference Analysis of Bi-static Backscatter Communication System: Two Backscatter Devices |
| Bletsas, Aggelos |
MoCap.6 |
36 |
Power and Phase Variation of Backscattered RFID Signal with Respect to the Incident Power at the Tag |
| MoCap.7 |
40 |
Elliptical DoA Estimation & Localization |
| Breard, Arnaud |
S7.6.4 |
165 |
A Waveform Design Methodology for UHF RFID Systems: A Hybrid Simulation Approach |
| Buffi, Alice |
MoCap.4 |
28 |
An RFID tracking system for Agricultural Safety |
| MoCap.8 |
44 |
RFID-Based Tracking for Worker Safety in Industrial Scenario |
| S8.4.5 |
252 |
Past, Present and Future RFID Activities at the University of Pisa |
| Buruk, Oguz |
S8.1.3 |
181 |
Passive RFID-based Music Player Textile |
| C A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Camera, Francesca |
S8.1.5 |
187 |
Automatic Monitoring of Fruit Ripening Rooms by UHF RFID Sensors and Machine Learning |
| Cañete Rebenaque, David |
S8.6.4 |
281 |
Design of passive beam-scanning monopulse leaky-wave antennas for direction finding in UHF RFID |
| Castillo, Encarnación |
S6.1.1 |
1 |
Readout portable system for wireless chipless biosensing |
| Casula, Giovanni Andrea |
S8.4.4 |
248 |
Recent Developments in RFID activities at UniCa |
| Catarinucci, Luca |
S8.1.6 |
191 |
Design and Technology Transfer of RFID-Based Medical Sensing Devices |
| S8.2.6 |
215 |
Fully 3D-printed UHF RFID Antennas: Technological Comparison to Realize Conductive Elements |
| S8.4.3 |
244 |
Recent Activities in Rfid Applications Empowered by 3D Printing at UniSalento |
| Chaudhary, Prashant |
S8.3.3 |
227 |
Ring with Rectangular Stub MIMO Antenna for RFID Applications |
| S8.3.5 |
235 |
Multiband Antenna For RFID Application |
| Che, Wenquan |
S8.6.3 |
278 |
Planar Endfire CP Antenna with Enhanced Gain and Beamwidth for RFID Applications |
| Chietera, Francesco |
S8.2.6 |
215 |
Fully 3D-printed UHF RFID Antennas: Technological Comparison to Realize Conductive Elements |
| S8.4.3 |
244 |
Recent Activities in Rfid Applications Empowered by 3D Printing at UniSalento |
| Chio, Chi Hou |
MoCap.1 |
16 |
A Wireless Motion Capture System for Shoulder Rehabilitation based on RFID Passive Tag Antenna Array |
| Chitrakar, Parshal |
S8.5.1 |
256 |
GPS and LoRa module Based Safety Alert system |
| Choi, Wai Wa |
MoCap.1 |
16 |
A Wireless Motion Capture System for Shoulder Rehabilitation based on RFID Passive Tag Antenna Array |
| Colella, Riccardo |
S8.1.6 |
191 |
Design and Technology Transfer of RFID-Based Medical Sensing Devices |
| S8.2.6 |
215 |
Fully 3D-printed UHF RFID Antennas: Technological Comparison to Realize Conductive Elements |
| S8.4.3 |
244 |
Recent Activities in Rfid Applications Empowered by 3D Printing at UniSalento |
| Collardey, Sylvain |
S7.6.2 |
157 |
UHF-RFID Power Distance Profiles for Analysis of Propagation Absorbing Effect |
| Congradac, Velimir |
S8.1.6 |
191 |
Design and Technology Transfer of RFID-Based Medical Sensing Devices |
| Costanzo, Alessandra |
S8.4.1 |
238 |
Recent Developments of RFID and WPT Technologies for Biomedical and Industrial Applications at the University of Bologna |
| Cressler, John |
S7.2.4 |
89 |
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing |
| Crisp, Michael |
MoCap.9 |
48 |
A fast phase and RSSI-based localization method using Passive RFID System with Mobile Platform |
| S7.6.5 |
169 |
Analysis of Phase Noise Performance in Spatially Separated Backscatter Systems |
| S8.8.1 |
297 |
Wirelessly Retrieving Phase and RSSI of UHF RFID using Commodity SDR Sniffer |
| D A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| D'Uva, Nicola |
S8.1.5 |
187 |
Automatic Monitoring of Fruit Ripening Rooms by UHF RFID Sensors and Machine Learning |
| Dahmane, Allane |
S7.6.3 |
161 |
Characterization of Harmonic Signals Backscattered by Conventional UHF RFID Tags |
| Das, Samir |
S7.4.4 |
128 |
Collaborative Backscatter Based on Phase Channel Estimation in Passive RF Tag Networks |
| de Rosny, Julien |
S7.2.2 |
81 |
Ambient Backscatter Communications in Mobile Networks: Crowd-Detectable Zero-Energy-Devices |
| Devi, G s k Gayatri |
S8.2.3 |
203 |
COVID-SAFE: IoT Based Health Monitoring System using RFID in Pandemic Life |
| Dey, Sukomal |
S7.5.2 |
136 |
12-Bit Multiresonator Based Chipless RFID System for Low-Cost Item Tracking |
| Dhanoa, Jasdeep |
S8.3.1 |
219 |
Meander Line based Two Port MIMO small Antenna for UHF RFID and Sub-6 GHz Applications |
| Di Carlofelice, Alessandro |
S7.5.5 |
145 |
Exploring Van-Atta UWB cross-pol chipless tag |
| Di Donato, Luciano |
MoCap.4 |
28 |
An RFID tracking system for Agricultural Safety |
| MoCap.8 |
44 |
RFID-Based Tracking for Worker Safety in Industrial Scenario |
| Di Giampaolo, Emidio |
S7.5.5 |
145 |
Exploring Van-Atta UWB cross-pol chipless tag |
| Di Renzo, Marco |
S7.2.2 |
81 |
Ambient Backscatter Communications in Mobile Networks: Crowd-Detectable Zero-Energy-Devices |
| Dimitriou, Antonis |
MoCap.5 |
32 |
Localization, Tracking and Following a Moving Target by an RFID Equipped Robot |
| MoCap.6 |
36 |
Power and Phase Variation of Backscattered RFID Signal with Respect to the Incident Power at the Tag |
| Dioum, Ibra |
S7.4.3 |
124 |
Wireless Power Transfer of Passive UHF RFID Uplink in the Case of Tags Network |
| Djurić, Petar |
S7.4.4 |
128 |
Collaborative Backscatter Based on Phase Channel Estimation in Passive RF Tag Networks |
| Durgin, Gregory |
S7.2.4 |
89 |
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing |
| Duroc, Yvan |
S6.1.4 |
13 |
Passive UHF RFID Yarn For Temperature Sensing Applications |
| S7.4.1 |
116 |
Modulation Depth Enhancement for Randomly Arranged Tags in Passive RFID Tag to Tag Communications |
| S7.4.3 |
124 |
Wireless Power Transfer of Passive UHF RFID Uplink in the Case of Tags Network |
| S7.6.3 |
161 |
Characterization of Harmonic Signals Backscattered by Conventional UHF RFID Tags |
| S7.6.4 |
165 |
A Waveform Design Methodology for UHF RFID Systems: A Hybrid Simulation Approach |
| E A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Eid, Aline |
S7.2.1 |
77 |
5G/mm-Wave Next Generation RFID Systems for Future IoT Applications |
| El hajj chehade, Hadi |
S7.6.2 |
157 |
UHF-RFID Power Distance Profiles for Analysis of Propagation Absorbing Effect |
| Esposito Corcione, Carola |
S8.2.6 |
215 |
Fully 3D-printed UHF RFID Antennas: Technological Comparison to Realize Conductive Elements |
| Essingholt, Felix |
S7.5.6 |
149 |
UHF-RFID-Sensors for online Measurements in Washing Machines |
| Ezzeddine, Hussein |
S7.6.4 |
165 |
A Waveform Design Methodology for UHF RFID Systems: A Hybrid Simulation Approach |
| F A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Fara, Romain |
S7.2.2 |
81 |
Ambient Backscatter Communications in Mobile Networks: Crowd-Detectable Zero-Energy-Devices |
| Faustino, Francesco |
S8.1.2 |
177 |
RFID Labeling of Police Equipment |
| Ferraris, Eleonora |
S8.2.6 |
215 |
Fully 3D-printed UHF RFID Antennas: Technological Comparison to Realize Conductive Elements |
| Ferraro, Alessandra |
MoCap.4 |
28 |
An RFID tracking system for Agricultural Safety |
| MoCap.8 |
44 |
RFID-Based Tracking for Worker Safety in Industrial Scenario |
| Filotheou, Alexandros |
MoCap.5 |
32 |
Localization, Tracking and Following a Moving Target by an RFID Equipped Robot |
| Fu, Zhe |
MoCap.9 |
48 |
A fast phase and RSSI-based localization method using Passive RFID System with Mobile Platform |
| Fujimoto, Takafumi |
S7.1.6 |
74 |
A Compact and Broadband Circularly Polarized Printed Monopole Antenna for UHF RFID |
| G A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Gaertner, Martin |
S8.7.1 |
285 |
Towards Trustworthy NFC-based Sensor Readout for Battery Packs in Battery Management Systems |
| Gamage, Sahan |
S8.6.1 |
271 |
CMOS UHF RFID Rectifier Design and Matching: an Analysis of Process and Temperature Variations |
| Gamez, Jonathan |
S8.8.2 |
301 |
A UHF RFID to I2C Bridge IC with Configurable Power Storage Unit for Flexible RFID Sensor Applications |
| Garavaglia, Luigi |
S8.1.5 |
187 |
Automatic Monitoring of Fruit Ripening Rooms by UHF RFID Sensors and Machine Learning |
| Gaul, Swapnil |
S7.3.4 |
113 |
A Quad-Band Monopole Antenna for GPS and RFID Applications |
| Ge, Lei |
S8.6.2 |
275 |
Self-Decoupling Antennas for MIMO UHF RFID Systems |
| Giannelos, Evangelos |
MoCap.7 |
40 |
Elliptical DoA Estimation & Localization |
| Gil Martinez, Alejandro |
S8.6.4 |
281 |
Design of passive beam-scanning monopulse leaky-wave antennas for direction finding in UHF RFID |
| Gómez-Tornero, Jose-Luis |
S8.6.4 |
281 |
Design of passive beam-scanning monopulse leaky-wave antennas for direction finding in UHF RFID |
| Govindan, Thennarasi |
S8.2.2 |
199 |
RFID-Band Integrated UWB MIMO Antenna for Wearable Applications |
| Grabmaier, Anton |
S7.5.6 |
149 |
UHF-RFID-Sensors for online Measurements in Washing Machines |
| Grabmann, Martin |
S8.8.2 |
301 |
A UHF RFID to I2C Bridge IC with Configurable Power Storage Unit for Flexible RFID Sensor Applications |
| Guan, Chai-Eu |
S7.1.6 |
74 |
A Compact and Broadband Circularly Polarized Printed Monopole Antenna for UHF RFID |
| Guler, Ulkuhan |
S7.2.4 |
89 |
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing |
| Gupta, Bhaskar |
S7.3.1 |
101 |
Ultrathin Dual-Band Metasurface for UHF-RFID and WLAN Applications |
| Gururani, Akshat |
S7.1.5 |
71 |
Compact Fractal Reader Antenna for RFID Applications |
| H A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Hamari, Juho |
S8.1.3 |
181 |
Passive RFID-based Music Player Textile |
| Harish, A. r. |
S7.5.1 |
132 |
Reprogrammable Chipless Tags with Enhanced Bit Capacity Using Dynamic Range Rotational Structures |
| Hennig, Andreas |
S7.5.6 |
149 |
UHF-RFID-Sensors for online Measurements in Washing Machines |
| Hester, Jimmy |
S7.2.1 |
77 |
5G/mm-Wave Next Generation RFID Systems for Future IoT Applications |
| Huillery, Julien |
S7.6.4 |
165 |
A Waveform Design Methodology for UHF RFID Systems: A Hybrid Simulation Approach |
| Hutu, Florin |
S6.1.4 |
13 |
Passive UHF RFID Yarn For Temperature Sensing Applications |
| S7.4.1 |
116 |
Modulation Depth Enhancement for Randomly Arranged Tags in Passive RFID Tag to Tag Communications |
| I A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Iliev, Stoyan |
S7.6.1 |
153 |
Interferences and Shadowing in Multi-Lane UHF RFID-Based Vehicle Identification Systems |
| Illanes, Isabelle |
S8.1.4 |
183 |
RFID based Indoor Localisation System to Analyse Visitor Behavior in a Museum |
| J A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Jabari, Shiva |
S8.1.3 |
181 |
Passive RFID-based Music Player Textile |
| Jäger, Sylvo |
S8.8.2 |
301 |
A UHF RFID to I2C Bridge IC with Configurable Power Storage Unit for Flexible RFID Sensor Applications |
| Jäntti, Riku |
S7.2.3 |
85 |
Interference Analysis of Bi-static Backscatter Communication System: Two Backscatter Devices |
| Jiang, Chao Yu |
MoCap.1 |
16 |
A Wireless Motion Capture System for Shoulder Rehabilitation based on RFID Passive Tag Antenna Array |
| K A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Kanaga sabai, Malathi |
S8.2.2 |
199 |
RFID-Band Integrated UWB MIMO Antenna for Wearable Applications |
| Kanaujia, Binod |
S7.1.2 |
59 |
Compact Dual-Band Circularly-Polarized Cross-Dipole Antenna for Portable RFID Readers |
| S7.1.3 |
63 |
Compact Circularly Polarized 2.45/5.8-GHz Antenna for RFID Readers |
| Kannappan, Lekha |
S8.2.2 |
199 |
RFID-Band Integrated UWB MIMO Antenna for Wearable Applications |
| Kaushal, Vipul |
S7.3.3 |
109 |
Circularly Polarized Broadband Co-Planar Wave-guide fed Antenna for 2.45 GHz RFID Reader |
| S7.4.2 |
120 |
Path Loss of Two-Port Circular-Ring Slot Antenna For RFID Applications |
| Kaushik, Monika |
S8.3.1 |
219 |
Meander Line based Two Port MIMO small Antenna for UHF RFID and Sub-6 GHz Applications |
| Khandelwal, Mukesh |
S8.3.1 |
219 |
Meander Line based Two Port MIMO small Antenna for UHF RFID and Sub-6 GHz Applications |
| S8.3.2 |
223 |
Small MIMO Antenna with Circular Polarization for UHF-RFID, PCS and 5G Applications |
| Khanna, Rajesh |
S8.5.4 |
267 |
UHF-RFID Tag Design for Improved Traceability Solution for workers' safety at Risky Job sites |
| Kumar, Ashwani |
S8.3.3 |
227 |
Ring with Rectangular Stub MIMO Antenna for RFID Applications |
| S8.3.5 |
235 |
Multiband Antenna For RFID Application |
| Kumar, Chitturi Suneel |
S7.5.4 |
142 |
Array of chipless RFID sensor tag for wireless detection of crack on large metallic surface |
| Kumar, Sachin |
S7.1.2 |
59 |
Compact Dual-Band Circularly-Polarized Cross-Dipole Antenna for Portable RFID Readers |
| S7.1.3 |
63 |
Compact Circularly Polarized 2.45/5.8-GHz Antenna for RFID Readers |
| S8.2.2 |
199 |
RFID-Band Integrated UWB MIMO Antenna for Wearable Applications |
| Kumar, Trivesh |
S8.3.4 |
231 |
Design and CM Analysis of Fractal Inspired Frequency Reconfigurable Antenna for RFID Application |
| L A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Lai, Wen Cheng |
S8.8.3 |
305 |
Two-Stage Class-A Power Amplifier with RF Frontend for Transmitter Wireless Applications |
| Lassouaoui, Tarik |
S7.4.1 |
116 |
Modulation Depth Enhancement for Randomly Arranged Tags in Passive RFID Tag to Tag Communications |
| Lau, Pui Yi |
MoCap.1 |
16 |
A Wireless Motion Capture System for Shoulder Rehabilitation based on RFID Passive Tag Antenna Array |
| Lempiäinen, Jukka |
S7.2.3 |
85 |
Interference Analysis of Bi-static Backscatter Communication System: Two Backscatter Devices |
| Leo, Carlo Giacomo |
S8.1.6 |
191 |
Design and Technology Transfer of RFID-Based Medical Sensing Devices |
| Li, Tongyun |
MoCap.9 |
48 |
A fast phase and RSSI-based localization method using Passive RFID System with Mobile Platform |
| Li, Yin |
S8.6.2 |
275 |
Self-Decoupling Antennas for MIMO UHF RFID Systems |
| Liang, Xiuyan |
MoCap.3 |
24 |
Gradient Iteration Regularization to Solve Radio Tomographic Imaging Model in UHF RFID Scenarios |
| Liao, Shaowei |
S8.6.3 |
278 |
Planar Endfire CP Antenna with Enhanced Gain and Beamwidth for RFID Applications |
| Ligresti, Gianluca |
S8.2.5 |
211 |
Cyber-Tooth: Antennified Dental Implant for RFID Wireless Temperature Monitoring |
| Lin, Huawei |
S8.6.2 |
275 |
Self-Decoupling Antennas for MIMO UHF RFID Systems |
| Liu, Zheng |
MoCap.9 |
48 |
A fast phase and RSSI-based localization method using Passive RFID System with Mobile Platform |
| Loreti, Pierpaolo |
S7.2.6 |
97 |
Backscattering-based Communication links for Body Area Network in the 5G S-band |
| Losardo, Margherita |
S8.2.5 |
211 |
Cyber-Tooth: Antennified Dental Implant for RFID Wireless Temperature Monitoring |
| Lu, Wenjun |
S8.6.3 |
278 |
Planar Endfire CP Antenna with Enhanced Gain and Beamwidth for RFID Applications |
| Lynch, Charles |
S7.2.1 |
77 |
5G/mm-Wave Next Generation RFID Systems for Future IoT Applications |
| M A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| M, Sasikala |
S8.5.2 |
260 |
Received Signal Strength based Indoor Positioning with RFID |
| Ma, Yongtao |
MoCap.3 |
24 |
Gradient Iteration Regularization to Solve Radio Tomographic Imaging Model in UHF RFID Scenarios |
| Manara, Giuliano |
S8.4.5 |
252 |
Past, Present and Future RFID Activities at the University of Pisa |
| Marracci, Mirko |
MoCap.8 |
44 |
RFID-Based Tracking for Worker Safety in Industrial Scenario |
| Marrocco, Gaetano |
S7.2.6 |
97 |
Backscattering-based Communication links for Body Area Network in the 5G S-band |
| S8.1.1 |
173 |
SECONDSKIN Project: BioIntegrated Wireless Sensors for the Epidermal Monitoring and Restoring of Sensorial Injuries |
| S8.1.2 |
177 |
RFID Labeling of Police Equipment |
| S8.1.5 |
187 |
Automatic Monitoring of Fruit Ripening Rooms by UHF RFID Sensors and Machine Learning |
| S8.2.5 |
211 |
Cyber-Tooth: Antennified Dental Implant for RFID Wireless Temperature Monitoring |
| S8.4.2 |
241 |
RFID Research Against COVID-19 - Sensorized Face Masks |
| Martinelli, Francesco |
MoCap.2 |
20 |
A SLAM algorithm based on range and bearing estimation of passive UHF-RFID tags |
| Masi, Donato |
S8.2.5 |
211 |
Cyber-Tooth: Antennified Dental Implant for RFID Wireless Temperature Monitoring |
| Masotti, Diego |
S8.4.1 |
238 |
Recent Developments of RFID and WPT Technologies for Biomedical and Industrial Applications at the University of Bologna |
| Megalou, Spyros |
MoCap.6 |
36 |
Power and Phase Variation of Backscattered RFID Signal with Respect to the Incident Power at the Tag |
| Mehmood, Adnan |
S8.1.3 |
181 |
Passive RFID-based Music Player Textile |
| Michel, Andrea |
S8.4.5 |
252 |
Past, Present and Future RFID Activities at the University of Pisa |
| Mishra, Anju |
S6.1.2 |
5 |
An RFID-Based BCI System for Emotion Detection Using EEG patterns |
| Mittal, Ashok |
S6.1.3 |
9 |
A Flower shaped Printed wideband monopole antenna for RFID applications |
| S7.1.4 |
67 |
A Dual band Monopole Antenna For RFID applications |
| Morales, Diego |
S6.1.1 |
1 |
Readout portable system for wireless chipless biosensing |
| Mostaccio, Alessio |
S8.2.5 |
211 |
Cyber-Tooth: Antennified Dental Implant for RFID Wireless Temperature Monitoring |
| Motroni, Andrea |
MoCap.4 |
28 |
An RFID tracking system for Agricultural Safety |
| S8.4.5 |
252 |
Past, Present and Future RFID Activities at the University of Pisa |
| Mukeshbhai, Shah Sparsh |
S7.5.2 |
136 |
12-Bit Multiresonator Based Chipless RFID System for Low-Cost Item Tracking |
| Mylonopoulos, George |
MoCap.5 |
32 |
Localization, Tracking and Following a Moving Target by an RFID Equipped Robot |
| N A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Nanni, Francesca |
S8.2.5 |
211 |
Cyber-Tooth: Antennified Dental Implant for RFID Wireless Temperature Monitoring |
| Nepa, Paolo |
MoCap.4 |
28 |
An RFID tracking system for Agricultural Safety |
| MoCap.8 |
44 |
RFID-Based Tracking for Worker Safety in Industrial Scenario |
| S8.4.5 |
252 |
Past, Present and Future RFID Activities at the University of Pisa |
| Nikhita, T Sneha |
S8.2.3 |
203 |
COVID-SAFE: IoT Based Health Monitoring System using RFID in Pandemic Life |
| Nowak, Jacek |
S8.8.2 |
301 |
A UHF RFID to I2C Bridge IC with Configurable Power Storage Unit for Flexible RFID Sensor Applications |
| O A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Occhiuzzi, Cecilia |
S7.2.6 |
97 |
Backscattering-based Communication links for Body Area Network in the 5G S-band |
| S8.1.2 |
177 |
RFID Labeling of Police Equipment |
| S8.1.5 |
187 |
Automatic Monitoring of Fruit Ripening Rooms by UHF RFID Sensors and Machine Learning |
| Okramcha, Maxon |
S7.1.5 |
71 |
Compact Fractal Reader Antenna for RFID Applications |
| S7.3.2 |
105 |
Ring-shaped Tri-band Defective Ground Reader Antenna for RFID Applications |
| Oliver, Mike |
S8.7.2 |
289 |
Performance of PIN diode RF switches within HF RFID reader designs |
| Otsuka, Naoto |
S7.1.6 |
74 |
A Compact and Broadband Circularly Polarized Printed Monopole Antenna for UHF RFID |
| P A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| P.T.V.Bhuvaneswari, Bhuvana |
S8.5.3 |
264 |
RFID Aided Intelligent Shopping Trolley with Childcare Unit |
| Pahlavan, Kaveh |
S7.2.4 |
89 |
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing |
| Palaniswamy, Sandeep |
S8.2.2 |
199 |
RFID-Band Integrated UWB MIMO Antenna for Wearable Applications |
| Pandey, Sujata |
S6.1.3 |
9 |
A Flower shaped Printed wideband monopole antenna for RFID applications |
| S7.1.4 |
67 |
A Dual band Monopole Antenna For RFID applications |
| Panunzio, Nicoletta |
S8.1.1 |
173 |
SECONDSKIN Project: BioIntegrated Wireless Sensors for the Epidermal Monitoring and Restoring of Sensorial Injuries |
| S8.1.2 |
177 |
RFID Labeling of Police Equipment |
| S8.2.5 |
211 |
Cyber-Tooth: Antennified Dental Implant for RFID Wireless Temperature Monitoring |
| S8.4.2 |
241 |
RFID Research Against COVID-19 - Sensorized Face Masks |
| Paolini, Giacomo |
S8.4.1 |
238 |
Recent Developments of RFID and WPT Technologies for Biomedical and Industrial Applications at the University of Bologna |
| Patel, Kamlesh |
S7.3.3 |
109 |
Circularly Polarized Broadband Co-Planar Wave-guide fed Antenna for 2.45 GHz RFID Reader |
| S7.4.2 |
120 |
Path Loss of Two-Port Circular-Ring Slot Antenna For RFID Applications |
| S8.3.3 |
227 |
Ring with Rectangular Stub MIMO Antenna for RFID Applications |
| Patel, Sandhya Malikar |
S7.4.2 |
120 |
Path Loss of Two-Port Circular-Ring Slot Antenna For RFID Applications |
| Patre, Situ Rani |
S7.5.4 |
142 |
Array of chipless RFID sensor tag for wireless detection of crack on large metallic surface |
| Penty, Richard |
MoCap.9 |
48 |
A fast phase and RSSI-based localization method using Passive RFID System with Mobile Platform |
| S7.6.5 |
169 |
Analysis of Phase Noise Performance in Spatially Separated Backscatter Systems |
| S8.8.1 |
297 |
Wirelessly Retrieving Phase and RSSI of UHF RFID using Commodity SDR Sniffer |
| Perea, François |
S8.1.4 |
183 |
RFID based Indoor Localisation System to Analyse Visitor Behavior in a Museum |
| Perret, Etienne |
S7.5.3 |
139 |
Impact of the Polarization over the Read Range in Chipless RFID |
| Phan-Huy, Dinh-Thuy |
S7.2.2 |
81 |
Ambient Backscatter Communications in Mobile Networks: Crowd-Detectable Zero-Energy-Devices |
| Pintaudi, Antonio |
S8.1.2 |
177 |
RFID Labeling of Police Equipment |
| Pirozzi, Marco |
MoCap.4 |
28 |
An RFID tracking system for Agricultural Safety |
| MoCap.8 |
44 |
RFID-Based Tracking for Worker Safety in Industrial Scenario |
| Poveda-García, Miguel |
S8.6.4 |
281 |
Design of passive beam-scanning monopulse leaky-wave antennas for direction finding in UHF RFID |
| Pranathi Prathyusha, Surisetty |
S8.2.3 |
203 |
COVID-SAFE: IoT Based Health Monitoring System using RFID in Pandemic Life |
| Pratt, Ian |
S8.7.2 |
289 |
Performance of PIN diode RF switches within HF RFID reader designs |
| R A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Rama Rao, T |
S8.2.2 |
199 |
RFID-Band Integrated UWB MIMO Antenna for Wearable Applications |
| Ramesh, Parameswaran |
S8.5.3 |
264 |
RFID Aided Intelligent Shopping Trolley with Childcare Unit |
| Raptopoulos Chatzistefanou, Aristidis |
MoCap.5 |
32 |
Localization, Tracking and Following a Moving Target by an RFID Equipped Robot |
| Ratajczak, Philippe |
S7.2.2 |
81 |
Ambient Backscatter Communications in Mobile Networks: Crowd-Detectable Zero-Energy-Devices |
| Rivadeneyra, Almudena |
S6.1.1 |
1 |
Readout portable system for wireless chipless biosensing |
| Rodríguez, Noel |
S6.1.1 |
1 |
Readout portable system for wireless chipless biosensing |
| Romanelli, Fabrizio |
MoCap.2 |
20 |
A SLAM algorithm based on range and bearing estimation of passive UHF-RFID tags |
| Romoli Venturi, Francesco |
S7.2.6 |
97 |
Backscattering-based Communication links for Body Area Network in the 5G S-band |
| Rosati, Francesca |
MoCap.4 |
28 |
An RFID tracking system for Agricultural Safety |
| S A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Sabina, Saverio |
S8.1.6 |
191 |
Design and Technology Transfer of RFID-Based Medical Sensing Devices |
| Saft, Benjamin |
S8.8.2 |
301 |
A UHF RFID to I2C Bridge IC with Configurable Power Storage Unit for Flexible RFID Sensor Applications |
| Sahoo, Nihar |
S7.3.4 |
113 |
A Quad-Band Monopole Antenna for GPS and RFID Applications |
| Sahukara, Krishna Veni |
S8.2.3 |
203 |
COVID-SAFE: IoT Based Health Monitoring System using RFID in Pandemic Life |
| Salmeron, Jose |
S6.1.1 |
1 |
Readout portable system for wireless chipless biosensing |
| Santamaria, Salvatore |
S8.1.2 |
177 |
RFID Labeling of Police Equipment |
| Saraswat, Kapil |
S8.3.4 |
231 |
Design and CM Analysis of Fractal Inspired Frequency Reconfigurable Antenna for RFID Application |
| Sarkar, Sayan |
S7.3.1 |
101 |
Ultrathin Dual-Band Metasurface for UHF-RFID and WLAN Applications |
| Sathyamurthy, Muralikrishna |
S8.8.2 |
301 |
A UHF RFID to I2C Bridge IC with Configurable Power Storage Unit for Flexible RFID Sensor Applications |
| Savanth, Anand |
S8.6.1 |
271 |
CMOS UHF RFID Rectifier Design and Matching: an Analysis of Process and Temperature Variations |
| Schäfer, Eric |
S8.8.2 |
301 |
A UHF RFID to I2C Bridge IC with Configurable Power Storage Unit for Flexible RFID Sensor Applications |
| Schütz, Matthias |
S7.2.5 |
93 |
RF Harvesting at 2.4 GHz for Scattering between Battery-less Transponder and Mobile Telephones |
| Sha, Xiao |
S7.4.4 |
128 |
Collaborative Backscatter Based on Phase Channel Estimation in Passive RF Tag Networks |
| Shaikh, Asif |
S8.1.3 |
181 |
Passive RFID-based Music Player Textile |
| Sharma, Ajay |
S8.2.1 |
195 |
Dual-band circularly polarized wearable patch antenna for RFID Reader |
| S8.2.4 |
207 |
FSS supported longer read range passive UHF RFID reader antenna |
| Sharma, Shivani |
S8.2.1 |
195 |
Dual-band circularly polarized wearable patch antenna for RFID Reader |
| S8.2.4 |
207 |
FSS supported longer read range passive UHF RFID reader antenna |
| Sharma, Surbhi |
S8.5.4 |
267 |
UHF-RFID Tag Design for Improved Traceability Solution for workers' safety at Risky Job sites |
| Sharma, Usha |
S8.3.2 |
223 |
Small MIMO Antenna with Circular Polarization for UHF-RFID, PCS and 5G Applications |
| Sheela Rini, A. |
S8.5.2 |
260 |
Received Signal Strength based Indoor Positioning with RFID |
| Sheikh, Muhammad |
S7.2.3 |
85 |
Interference Analysis of Bi-static Backscatter Communication System: Two Backscatter Devices |
| Siachalou, Stavroula |
MoCap.5 |
32 |
Localization, Tracking and Following a Moving Target by an RFID Equipped Robot |
| Singh, Archana |
S6.1.2 |
5 |
An RFID-Based BCI System for Emotion Detection Using EEG patterns |
| Singh, Balwant |
S8.7.3 |
293 |
BER reduction of UFMC for 1024-QAM |
| Singh, Kuldip |
S7.3.4 |
113 |
A Quad-Band Monopole Antenna for GPS and RFID Applications |
| Singh, Praduman |
S8.3.5 |
235 |
Multiband Antenna For RFID Application |
| Singh, Rajesh |
S8.4.5 |
252 |
Past, Present and Future RFID Activities at the University of Pisa |
| Singh, Saurabh |
S7.1.1 |
55 |
A High Gain, UWB Vivaldi Antenna Loaded With Unit Cells for Imaging/ RFID Applications |
| Skyvalakis, Konstantinos |
MoCap.7 |
40 |
Elliptical DoA Estimation & Localization |
| Sorli, Brice |
S8.1.4 |
183 |
RFID based Indoor Localisation System to Analyse Visitor Behavior in a Museum |
| Spedicato, Luigi |
S8.1.6 |
191 |
Design and Technology Transfer of RFID-Based Medical Sensing Devices |
| Srivastava, Garima |
S8.3.2 |
223 |
Small MIMO Antenna with Circular Polarization for UHF-RFID, PCS and 5G Applications |
| Stanacevic, Milutin |
S7.4.4 |
128 |
Collaborative Backscatter Based on Phase Channel Estimation in Passive RF Tag Networks |
| Steger, Christian |
S8.7.1 |
285 |
Towards Trustworthy NFC-based Sensor Readout for Battery Packs in Battery Management Systems |
| Sun, Wei |
MoCap.10 |
52 |
Orientation-Aware RFID-Based Sensing |
| T A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Tam, Kam Weng |
MoCap.1 |
16 |
A Wireless Motion Capture System for Shoulder Rehabilitation based on RFID Passive Tag Antenna Array |
| S8.6.2 |
275 |
Self-Decoupling Antennas for MIMO UHF RFID Systems |
| S8.6.3 |
278 |
Planar Endfire CP Antenna with Enhanced Gain and Beamwidth for RFID Applications |
| Tan, Jun |
S8.8.2 |
301 |
A UHF RFID to I2C Bridge IC with Configurable Power Storage Unit for Flexible RFID Sensor Applications |
| Tartaglia, Giulia |
S8.2.5 |
211 |
Cyber-Tooth: Antennified Dental Implant for RFID Wireless Temperature Monitoring |
| Tedjini, Smail |
S7.6.3 |
161 |
Characterization of Harmonic Signals Backscattered by Conventional UHF RFID Tags |
| Tellini, Bernardo |
MoCap.8 |
44 |
RFID-Based Tracking for Worker Safety in Industrial Scenario |
| Teng, Cheng |
MoCap.1 |
16 |
A Wireless Motion Capture System for Shoulder Rehabilitation based on RFID Passive Tag Antenna Array |
| Tentzeris, Manos M. |
S7.2.1 |
77 |
5G/mm-Wave Next Generation RFID Systems for Future IoT Applications |
| S7.2.4 |
89 |
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing |
| Tognolatti, Piero |
S7.5.5 |
145 |
Exploring Van-Atta UWB cross-pol chipless tag |
| Tomassini, Laura |
MoCap.4 |
28 |
An RFID tracking system for Agricultural Safety |
| MoCap.8 |
44 |
RFID-Based Tracking for Worker Safety in Industrial Scenario |
| Toral, Victor |
S6.1.1 |
1 |
Readout portable system for wireless chipless biosensing |
| Tripathy, Malay Ranjan |
S6.1.3 |
9 |
A Flower shaped Printed wideband monopole antenna for RFID applications |
| S7.1.4 |
67 |
A Dual band Monopole Antenna For RFID applications |
| S7.1.5 |
71 |
Compact Fractal Reader Antenna for RFID Applications |
| S7.3.2 |
105 |
Ring-shaped Tri-band Defective Ground Reader Antenna for RFID Applications |
| S7.3.4 |
113 |
A Quad-Band Monopole Antenna for GPS and RFID Applications |
| S8.2.1 |
195 |
Dual-band circularly polarized wearable patch antenna for RFID Reader |
| S8.2.4 |
207 |
FSS supported longer read range passive UHF RFID reader antenna |
| S8.7.3 |
293 |
BER reduction of UFMC for 1024-QAM |
| Tzitzis, Anastasios |
MoCap.5 |
32 |
Localization, Tracking and Following a Moving Target by an RFID Equipped Robot |
| U A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Uguen, Bernard |
S7.6.2 |
157 |
UHF-RFID Power Distance Profiles for Analysis of Propagation Absorbing Effect |
| Ujlayan, Amit |
S6.1.2 |
5 |
An RFID-Based BCI System for Emotion Detection Using EEG patterns |
| Unterhuber, Alexander |
S7.6.1 |
153 |
Interferences and Shadowing in Multi-Lane UHF RFID-Based Vehicle Identification Systems |
| Upadhyay, Dharmendra |
S7.1.2 |
59 |
Compact Dual-Band Circularly-Polarized Cross-Dipole Antenna for Portable RFID Readers |
| S7.1.3 |
63 |
Compact Circularly Polarized 2.45/5.8-GHz Antenna for RFID Readers |
| V A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Van der Merwe, Jacobus |
S7.2.4 |
89 |
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing |
| Varner, Michael |
S7.2.4 |
89 |
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing |
| Vena, Arnaud |
S8.1.4 |
183 |
RFID based Indoor Localisation System to Analyse Visitor Behavior in a Museum |
| Verma, Akash |
S8.2.6 |
215 |
Fully 3D-printed UHF RFID Antennas: Technological Comparison to Realize Conductive Elements |
| Villemaud, Guillaume |
S7.4.1 |
116 |
Modulation Depth Enhancement for Randomly Arranged Tags in Passive RFID Tag to Tag Communications |
| Virkki, Johanna |
S8.1.3 |
181 |
Passive RFID-based Music Player Textile |
| W A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Wagih, Mahmoud |
S8.6.1 |
271 |
CMOS UHF RFID Rectifier Design and Matching: an Analysis of Process and Temperature Variations |
| Wang, Bobo |
MoCap.3 |
24 |
Gradient Iteration Regularization to Solve Radio Tomographic Imaging Model in UHF RFID Scenarios |
| Weddell, Alex |
S8.6.1 |
271 |
CMOS UHF RFID Rectifier Design and Matching: an Analysis of Process and Temperature Variations |
| Weitnauer, Mary Ann |
S7.2.4 |
89 |
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing |
| White, Ian |
MoCap.9 |
48 |
A fast phase and RSSI-based localization method using Passive RFID System with Mobile Platform |
| Wong, Chon In |
MoCap.1 |
16 |
A Wireless Motion Capture System for Shoulder Rehabilitation based on RFID Passive Tag Antenna Array |
| Wong, Sai-Wai |
S8.6.2 |
275 |
Self-Decoupling Antennas for MIMO UHF RFID Systems |
| X A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Xiao, Ruowei |
S8.1.3 |
181 |
Passive RFID-based Music Player Textile |
| Xue, Quan |
S8.6.3 |
278 |
Planar Endfire CP Antenna with Enhanced Gain and Beamwidth for RFID Applications |
| Y A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Yadav, Avanish |
S8.3.3 |
227 |
Ring with Rectangular Stub MIMO Antenna for RFID Applications |
| S8.3.5 |
235 |
Multiband Antenna For RFID Application |
| Yadav, Ayush |
S7.1.5 |
71 |
Compact Fractal Reader Antenna for RFID Applications |
| Yang, Shuai |
S8.8.1 |
297 |
Wirelessly Retrieving Phase and RSSI of UHF RFID using Commodity SDR Sniffer |
| Yang, Xujun |
S8.6.2 |
275 |
Self-Decoupling Antennas for MIMO UHF RFID Systems |
| Yellampalli, Siva |
S8.5.1 |
256 |
GPS and LoRa module Based Safety Alert system |
| Yigitler, Huseyin |
S7.2.3 |
85 |
Interference Analysis of Bi-static Backscatter Communication System: Two Backscatter Devices |
| Yioultsis, Traianos |
MoCap.6 |
36 |
Power and Phase Variation of Backscattered RFID Signal with Respect to the Incident Power at the Tag |
| Yu, Sicheng |
S7.6.5 |
169 |
Analysis of Phase Noise Performance in Spatially Separated Backscatter Systems |
| Z A B C D E F G H I J K L M N O P R S T U V W X Y Z |
| Zajic, Alenka |
S7.2.4 |
89 |
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing |
| Zeinolabedinzadeh, Saeed |
S7.2.4 |
89 |
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing |
| Zekavat, Seyed (Reza) |
S7.2.4 |
89 |
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing |
| Zhang, Wenhai |
S8.6.3 |
278 |
Planar Endfire CP Antenna with Enhanced Gain and Beamwidth for RFID Applications |
| Zhao, Yixiong |
S7.5.6 |
149 |
UHF-RFID-Sensors for online Measurements in Washing Machines |
