| Author |
Session |
Start page |
Title |
| A A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Abdullali, Aidan |
P1.8 |
9 |
[POSTER] Intra-Spacecraft RFID Localization |
| S9.8 |
158 |
Intra-Spacecraft RFID Localization |
| Adeyeye, Ajibayo |
S4.1 |
40 |
When a Single Chip becomes the RFID Reader: An Ultra-low-cost 60 GHz Reader and mmID System for Ultra-accurate 2D Microlocalization |
| Akuruyejo, Mufutau |
P1.10 |
10 |
Verilog and Spice Implementations of Genetic Algorithms |
| Aliasgari, Javad |
S3.2 |
35 |
A Wideband Directive Filter For LO Leakage Reduction in UWB Frequency-domain Chipless RFID Readers |
| Amato, Francesco |
S9.5 |
137 |
A Real-time RFID Positioning System Using Tunneling Tags |
| S9.7 |
151 |
A Backscatter Channel Sounder Using Tunneling RFID Tags |
| Anderson, David |
P1.14 |
|
Speaker Diarization and Automatic Analysis Methods of Audio from Individuals with Autism Spectrum Disorder |
| Avaltroni, Priscilla |
S6.2 |
77 |
Orthopedic Fixture-integrated RFID Temperature Sensor for the Monitoring of Deep Inflammations |
| B A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Bailey, Darryl |
P1.10 |
10 |
Verilog and Spice Implementations of Genetic Algorithms |
| Barbot, Nicolas |
P1.3 |
3 |
Notes on Differential RCS of Modulated Tags |
| Bassiri-Gharb, Nazanin |
PL.1 |
|
Plenary: Welcome and State-of-the-Council from IEEE CRFID |
| Batchelor, John |
S4.2 |
48 |
Folded Comb-line Array for Healthcare 5G-RFID-based IoT applications |
| Beckles, Dorsey |
P1.14 |
|
Speaker Diarization and Automatic Analysis Methods of Audio from Individuals with Autism Spectrum Disorder |
| Berger, Jesse |
P1.8 |
9 |
[POSTER] Intra-Spacecraft RFID Localization |
| S9.8 |
158 |
Intra-Spacecraft RFID Localization |
| Bernardini, Fabio |
S9.2 |
121 |
Self-Locating RFID Robot for Tag Localization in Retails |
| Bhattacharya, Adrija |
P1.16 |
|
Automated Synthesis of Analog Standard Cells Using Mixed Signal Processing |
| Bhattacharyya, Rahul |
S7.1 |
89 |
Single and bulk identification of plastics in the recycling chain using Chipless RFID tags |
| Bianco, Giulio |
S6.3 |
83 |
Dual-chip RFID On-skin Tag for Bilateral Breath Monitoring |
| Biebl, Erwin |
S1.1 |
19 |
UHF RFID chip impedance and sensitivity measurement using a transmission line transformer |
| Brand, Oliver |
P1.12 |
13 |
Design and Implementation of an Integrated Fluidic MEMS Microsensor Testing Apparatus |
| Buffi, Alice |
MoCap_Tutorials.2 |
|
MoCap: Welcome from Chair of IEEE TC-MoCap |
| S9.2 |
121 |
Self-Locating RFID Robot for Tag Localization in Retails |
| C A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Camron, Carah |
P1.18 |
18 |
A Low-cost Transparent Microwave Energy Harvester For Space Solar Power Transfer |
| Caulley, Desmond |
P1.14 |
|
Speaker Diarization and Automatic Analysis Methods of Audio from Individuals with Autism Spectrum Disorder |
| Chakhaiyar, Harsh |
P1.16 |
|
Automated Synthesis of Analog Standard Cells Using Mixed Signal Processing |
| Chen, Rui |
S8.2 |
109 |
Channel Inversion Method for Optimum Power Delivery in RF Harvesting Backscatter Systems |
| Chrysler, Andrew |
S9.4 |
129 |
Preliminary Analysis of RFID Localization System for Moving Precast Concrete Units using Multiple-Tags and Weighted Euclid Distance k-NN algorithm |
| Crisp, Michael |
S8.2 |
109 |
Channel Inversion Method for Optimum Power Delivery in RF Harvesting Backscatter Systems |
| D A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Dai, Siqi |
S7.2 |
97 |
Wearable Deformation Sensor with Ambient Interference Rejection Using Differential Backscattered RFID Signals |
| Davenport, Mark |
P1.15 |
15 |
Range-Only Simultaneous Localization and Mapping using Paired Comparisons |
| DeCicco, Luca |
P1.14 |
|
Speaker Diarization and Automatic Analysis Methods of Audio from Individuals with Autism Spectrum Disorder |
| Degnan, Brian |
WEH1.5 |
|
WEH: Powering Digital Devices: Just add RF! |
| WEH1.2 |
|
WEH Tutorial: Energy Harvesting,an Introductory Circuits Perspective |
| Tutorial.1 |
|
Tutorial: UHF RFID Cryptography |
| Diallo, Amadou |
P1.18 |
18 |
A Low-cost Transparent Microwave Energy Harvester For Space Solar Power Transfer |
| Dinh-Do, Thien |
P1.11 |
12 |
Autonomous Navigation for Simulated Outdoor Environments |
| Durgin, Gregory |
WEH1.1 |
|
WEH Tutorial: So What Is the Ultimate Limit of RF Energy Harvesting? |
| PL.2 |
|
Plenary: Overview of IEEE CRFID Conferences |
| P1.18 |
18 |
A Low-cost Transparent Microwave Energy Harvester For Space Solar Power Transfer |
| S8.3 |
114 |
Synthesis of Compact, Low-loss Beam-forming Networks for RF Energy Harvesting |
| S9.5 |
137 |
A Real-time RFID Positioning System Using Tunneling Tags |
| S9.7 |
151 |
A Backscatter Channel Sounder Using Tunneling RFID Tags |
| Durtschi, Barrett |
S9.4 |
129 |
Preliminary Analysis of RFID Localization System for Moving Precast Concrete Units using Multiple-Tags and Weighted Euclid Distance k-NN algorithm |
| E A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Ehara, Masaki |
P1.5 |
6 |
Direction estimation scheme for RFID tag with an angled single antenna |
| Ermis, Ayca |
P1.13 |
14 |
Online Implementation of LSTM for Thermal Management of Implantable Medical Device |
| F A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Feng, Shiyu |
P1.11 |
12 |
Autonomous Navigation for Simulated Outdoor Environments |
| Fink, Patrick |
P1.8 |
9 |
[POSTER] Intra-Spacecraft RFID Localization |
| S9.8 |
158 |
Intra-Spacecraft RFID Localization |
| Forouzandeh, Mohammadali |
S3.2 |
35 |
A Wideband Directive Filter For LO Leakage Reduction in UWB Frequency-domain Chipless RFID Readers |
| G A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Graham, Jessica |
P1.16 |
|
Automated Synthesis of Analog Standard Cells Using Mixed Signal Processing |
| Grove, Haily |
P1.18 |
18 |
A Low-cost Transparent Microwave Energy Harvester For Space Solar Power Transfer |
| Guler, Ulkuhan |
KEY.3 |
|
Keynote: Medical IoT Devices in the Age of COVID-19 |
| Guo, Hongyu |
P1.12 |
13 |
Design and Implementation of an Integrated Fluidic MEMS Microsensor Testing Apparatus |
| Guo, Yiliang |
S9.7 |
151 |
A Backscatter Channel Sounder Using Tunneling RFID Tags |
| H A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Hani, Michael |
S1.1 |
19 |
UHF RFID chip impedance and sensitivity measurement using a transmission line transformer |
| Hasler, Jennifer |
P1.16 |
|
Automated Synthesis of Analog Standard Cells Using Mixed Signal Processing |
| KEY.1 |
|
Keynote: The Potential of Programmable and Configurable Techniques Towards Low-Voltage RFIDs |
| Hester, Jimmy |
S4.1 |
40 |
When a Single Chip becomes the RFID Reader: An Ultra-low-cost 60 GHz Reader and mmID System for Ultra-accurate 2D Microlocalization |
| Hodges, Amoree |
P1.9 |
|
Object Detection Algorithms for NASA's JunoCam |
| Holder, Kenneth |
P1.4 |
5 |
Fast Low Earth Orbit Satellite Tracking using Micromotor Actuated Rotational Reconfigurable Antenna Arrays |
| Holley, Alessandria |
P1.13 |
14 |
Online Implementation of LSTM for Thermal Management of Implantable Medical Device |
| Huerta, Damien |
P1.10 |
10 |
Verilog and Spice Implementations of Genetic Algorithms |
| Hughes, Jack |
S4.2 |
48 |
Folded Comb-line Array for Healthcare 5G-RFID-based IoT applications |
| I A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Inserra, Daniele |
S1.2 |
23 |
Miniaturized Sequentially Rotated Curved PIFA Circular Array for Portable Handheld RFID Readers |
| J A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Ji, Shujiang |
S7.3 |
103 |
A novel method to improve the subcarrier frequency accuracy for UHF RFID sensing system |
| Jia, Raymond |
P1.17 |
16 |
5.8 GHz Low-Power Wearable mIoT Sensor System |
| Jiang, Yue |
S9.6 |
143 |
On Fast and Accurate 3D RFID Mobile Localization |
| K A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Kadakia, Rhea |
P1.12 |
13 |
Design and Implementation of an Integrated Fluidic MEMS Microsensor Testing Apparatus |
| Kan, Edwin |
WEH1.3 |
|
WEH: Energy Scavenging of Passive Tags with Unspecified Locations |
| Karmakar, Nemai |
S3.2 |
35 |
A Wideband Directive Filter For LO Leakage Reduction in UWB Frequency-domain Chipless RFID Readers |
| Kim, Erin |
P1.16 |
|
Automated Synthesis of Analog Standard Cells Using Mixed Signal Processing |
| Konstantopoulos, Christos |
WEH1.6 |
|
WEH: RF Energy Harvesting Friendly Self-Clocked D-LDO For SoC IoT |
| L A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Lancaster, Brooke |
P1.18 |
18 |
A Low-cost Transparent Microwave Energy Harvester For Space Solar Power Transfer |
| Landaluce, Hugo |
S1.1 |
19 |
UHF RFID chip impedance and sensitivity measurement using a transmission line transformer |
| Lerner, Osher |
P1.8 |
9 |
[POSTER] Intra-Spacecraft RFID Localization |
| S9.8 |
158 |
Intra-Spacecraft RFID Localization |
| Li, Yi |
P1.13 |
14 |
Online Implementation of LSTM for Thermal Management of Implantable Medical Device |
| Liang, Xiuyan |
S9.6 |
143 |
On Fast and Accurate 3D RFID Mobile Localization |
| Liow, Kevin |
P1.16 |
|
Automated Synthesis of Analog Standard Cells Using Mixed Signal Processing |
| Liu, Hankai |
S9.6 |
143 |
On Fast and Accurate 3D RFID Mobile Localization |
| Liu, Yulong |
S7.2 |
97 |
Wearable Deformation Sensor with Ambient Interference Rejection Using Differential Backscattered RFID Signals |
| Lizzo, Tyler |
P1.17 |
16 |
5.8 GHz Low-Power Wearable mIoT Sensor System |
| Loui, Madeline |
P1.9 |
|
Object Detection Algorithms for NASA's JunoCam |
| Luo, Annie |
P1.17 |
16 |
5.8 GHz Low-Power Wearable mIoT Sensor System |
| Lynch, Charles |
P1.17 |
16 |
5.8 GHz Low-Power Wearable mIoT Sensor System |
| S4.1 |
40 |
When a Single Chip becomes the RFID Reader: An Ultra-low-cost 60 GHz Reader and mmID System for Ultra-accurate 2D Microlocalization |
| M A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Ma, Yongtao |
S9.6 |
143 |
On Fast and Accurate 3D RFID Mobile Localization |
| Mack, Jacob |
P1.10 |
10 |
Verilog and Spice Implementations of Genetic Algorithms |
| Maddali, Tarun |
P1.10 |
10 |
Verilog and Spice Implementations of Genetic Algorithms |
| Mahat, Mahesh |
S9.4 |
129 |
Preliminary Analysis of RFID Localization System for Moving Precast Concrete Units using Multiple-Tags and Weighted Euclid Distance k-NN algorithm |
| Mamuye, Amran |
P1.15 |
15 |
Range-Only Simultaneous Localization and Mapping using Paired Comparisons |
| Marrocco, Gaetano |
S4.2 |
48 |
Folded Comb-line Array for Healthcare 5G-RFID-based IoT applications |
| S6.2 |
77 |
Orthopedic Fixture-integrated RFID Temperature Sensor for the Monitoring of Deep Inflammations |
| S6.3 |
83 |
Dual-chip RFID On-skin Tag for Bilateral Breath Monitoring |
| Marshall, Blake |
S8.3 |
114 |
Synthesis of Compact, Low-loss Beam-forming Networks for RF Energy Harvesting |
| Martin, Solomon |
P1.13 |
14 |
Online Implementation of LSTM for Thermal Management of Implantable Medical Device |
| Mashal, Mustafa |
S9.4 |
129 |
Preliminary Analysis of RFID Localization System for Moving Precast Concrete Units using Multiple-Tags and Weighted Euclid Distance k-NN algorithm |
| Mason, Chandler |
P1.14 |
|
Speaker Diarization and Automatic Analysis Methods of Audio from Individuals with Autism Spectrum Disorder |
| McCracken, Ryan |
P1.1 |
1 |
How to Interpret Reader Antenna's Radiation pattern - A guide for RAIN RFID Systems Integrators |
| Mehrotra, Shivani |
P1.11 |
12 |
Autonomous Navigation for Simulated Outdoor Environments |
| Min, Hao |
S7.3 |
103 |
A novel method to improve the subcarrier frequency accuracy for UHF RFID sensing system |
| Miozzi, Carolina |
S6.3 |
83 |
Dual-chip RFID On-skin Tag for Bilateral Breath Monitoring |
| Mitsugi, Jin |
S7.3 |
103 |
A novel method to improve the subcarrier frequency accuracy for UHF RFID sensing system |
| Mizuno, Kota |
P1.5 |
6 |
Direction estimation scheme for RFID tag with an angled single antenna |
| Mo, Eunsan |
P1.15 |
15 |
Range-Only Simultaneous Localization and Mapping using Paired Comparisons |
| Montecchia, Francesco |
S6.3 |
83 |
Dual-chip RFID On-skin Tag for Bilateral Breath Monitoring |
| Motroni, Andrea |
S9.2 |
121 |
Self-Locating RFID Robot for Tag Localization in Retails |
| Muralter, Florian |
S1.1 |
19 |
UHF RFID chip impedance and sensitivity measurement using a transmission line transformer |
| N A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Nadagouda, Namrata |
P1.15 |
15 |
Range-Only Simultaneous Localization and Mapping using Paired Comparisons |
| Naeemi, Azad |
P1.10 |
10 |
Verilog and Spice Implementations of Genetic Algorithms |
| Naito, Ayano |
P1.5 |
6 |
Direction estimation scheme for RFID tag with an angled single antenna |
| Nappi, Simone |
S6.2 |
77 |
Orthopedic Fixture-integrated RFID Temperature Sensor for the Monitoring of Deep Inflammations |
| Natarajan, Aishwarya |
P1.16 |
|
Automated Synthesis of Analog Standard Cells Using Mixed Signal Processing |
| Nepa, Paolo |
S9.2 |
121 |
Self-Locating RFID Robot for Tag Localization in Retails |
| O A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Occhiuzzi, Cecilia |
S4.2 |
48 |
Folded Comb-line Array for Healthcare 5G-RFID-based IoT applications |
| P A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Panda, Siddhanta |
P1.4 |
5 |
Fast Low Earth Orbit Satellite Tracking using Micromotor Actuated Rotational Reconfigurable Antenna Arrays |
| Parthiban, Prabakar |
P1.1 |
1 |
How to Interpret Reader Antenna's Radiation pattern - A guide for RAIN RFID Systems Integrators |
| Patel, Nikhil |
P1.11 |
12 |
Autonomous Navigation for Simulated Outdoor Environments |
| Penty, Richard |
S8.2 |
109 |
Channel Inversion Method for Optimum Power Delivery in RF Harvesting Backscatter Systems |
| Perallos, Asier |
S1.1 |
19 |
UHF RFID chip impedance and sensitivity measurement using a transmission line transformer |
| Perret, Etienne |
P1.3 |
3 |
Notes on Differential RCS of Modulated Tags |
| Peterson, Andrew |
P1.4 |
5 |
Fast Low Earth Orbit Satellite Tracking using Micromotor Actuated Rotational Reconfigurable Antenna Arrays |
| Piumwardane, Dilushi |
P1.6 |
8 |
Poster Abstract: Reliable Flooding in Dense Backscatter-based Tag-to-Tag Networks |
| S4.4 |
53 |
Reliable Flooding in Dense Backscatter-based Tag-to-Tag Networks |
| Prem, Rhea |
P1.13 |
14 |
Online Implementation of LSTM for Thermal Management of Implantable Medical Device |
| Q A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Qi, Cheng |
P1.18 |
18 |
A Low-cost Transparent Microwave Energy Harvester For Space Solar Power Transfer |
| S9.5 |
137 |
A Real-time RFID Positioning System Using Tunneling Tags |
| S9.7 |
151 |
A Backscatter Channel Sounder Using Tunneling RFID Tags |
| R A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Ranasinghe, Damith |
S2.1 |
27 |
ReaDmE: Read-Rate Based Dynamic Execution Scheduling for Intermittent RF-Powered Devices |
| Rance, Olivier |
P1.3 |
3 |
Notes on Differential RCS of Modulated Tags |
| Rodriguez, Lazaro |
P1.8 |
9 |
[POSTER] Intra-Spacecraft RFID Localization |
| S9.8 |
158 |
Intra-Spacecraft RFID Localization |
| Rodriguez, Thomas |
P1.18 |
18 |
A Low-cost Transparent Microwave Energy Harvester For Space Solar Power Transfer |
| Rohner, Christian |
P1.6 |
8 |
Poster Abstract: Reliable Flooding in Dense Backscatter-based Tag-to-Tag Networks |
| S4.4 |
53 |
Reliable Flooding in Dense Backscatter-based Tag-to-Tag Networks |
| Roper, Joshua |
P1.4 |
5 |
Fast Low Earth Orbit Satellite Tracking using Micromotor Actuated Rotational Reconfigurable Antenna Arrays |
| S A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Saetia, Christopher |
P1.4 |
5 |
Fast Low Earth Orbit Satellite Tracking using Micromotor Actuated Rotational Reconfigurable Antenna Arrays |
| Sample, Alanson |
MoCap_Tutorials.1 |
|
MoCap: Device-Free Indoor Localization via RFID Tomography |
| WEH1.4 |
|
WEH: Room-Scale Wireless Power Delivery via Quasi-Static Cavity Resonance |
| Sarma, Sanjay |
S7.1 |
89 |
Single and bulk identification of plastics in the recycling chain using Chipless RFID tags |
| Schwartz, Steven |
P1.12 |
13 |
Design and Implementation of an Integrated Fluidic MEMS Microsensor Testing Apparatus |
| Simonoff, Joel |
P1.8 |
9 |
[POSTER] Intra-Spacecraft RFID Localization |
| S9.8 |
158 |
Intra-Spacecraft RFID Localization |
| Singh, Mohit |
P1.11 |
12 |
Autonomous Navigation for Simulated Outdoor Environments |
| Steffes, Paul |
P1.9 |
|
Object Detection Algorithms for NASA's JunoCam |
| Stendardo, Giorgia |
S6.3 |
83 |
Dual-chip RFID On-skin Tag for Bilateral Breath Monitoring |
| Su, Yang |
S2.1 |
27 |
ReaDmE: Read-Rate Based Dynamic Execution Scheduling for Intermittent RF-Powered Devices |
| Su, Yang-Hsi |
MoCap_Tutorials.1 |
|
MoCap: Device-Free Indoor Localization via RFID Tomography |
| Sun, Wei |
S5.1 |
61 |
Towards Parallel Decoding with Compressive Sensing in Multi-reader Large-scale RFID System |
| S6.1 |
69 |
RFitness: Enabling Smart Yoga Mat for Fitness Posture Detection with Commodity Passive RFIDs |
| T A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Tang, Kuanfeng |
S7.3 |
103 |
A novel method to improve the subcarrier frequency accuracy for UHF RFID sensing system |
| Tang, Zhaozhou |
P1.14 |
|
Speaker Diarization and Automatic Analysis Methods of Audio from Individuals with Autism Spectrum Disorder |
| Tellini, Bernardo |
S9.2 |
121 |
Self-Locating RFID Robot for Tag Localization in Retails |
| Teng, Yue |
P1.15 |
15 |
Range-Only Simultaneous Localization and Mapping using Paired Comparisons |
| Tentzeris, Manos |
P1.17 |
16 |
5.8 GHz Low-Power Wearable mIoT Sensor System |
| S4.1 |
40 |
When a Single Chip becomes the RFID Reader: An Ultra-low-cost 60 GHz Reader and mmID System for Ultra-accurate 2D Microlocalization |
| Thomas, Stewart |
WEH1.5 |
|
WEH: Powering Digital Devices: Just add RF! |
| Tolaymat, Zayd |
P1.10 |
10 |
Verilog and Spice Implementations of Genetic Algorithms |
| U A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Ussmueller, Thomas |
WEH1.6 |
|
WEH: RF Energy Harvesting Friendly Self-Clocked D-LDO For SoC IoT |
| V A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Vashista, Siddhanth |
P1.12 |
13 |
Design and Implementation of an Integrated Fluidic MEMS Microsensor Testing Apparatus |
| Vela, Patricio |
P1.11 |
12 |
Autonomous Navigation for Simulated Outdoor Environments |
| Villa-Gonzalez, Fatima |
S7.1 |
89 |
Single and bulk identification of plastics in the recycling chain using Chipless RFID tags |
| Voigt, Thiemo |
P1.6 |
8 |
Poster Abstract: Reliable Flooding in Dense Backscatter-based Tag-to-Tag Networks |
| S4.4 |
53 |
Reliable Flooding in Dense Backscatter-based Tag-to-Tag Networks |
| W A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Walker, Robert |
P1.15 |
15 |
Range-Only Simultaneous Localization and Mapping using Paired Comparisons |
| Wallace, Gracen |
P1.9 |
|
Object Detection Algorithms for NASA's JunoCam |
| Wang, Maodong |
S7.3 |
103 |
A novel method to improve the subcarrier frequency accuracy for UHF RFID sensing system |
| Wang, Tingzhe |
S7.2 |
97 |
Wearable Deformation Sensor with Ambient Interference Rejection Using Differential Backscattered RFID Signals |
| Wen, Guangjun |
S1.2 |
23 |
Miniaturized Sequentially Rotated Curved PIFA Circular Array for Portable Handheld RFID Readers |
| X A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Xu, Shengliang |
S7.3 |
103 |
A novel method to improve the subcarrier frequency accuracy for UHF RFID sensing system |
| Y A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Yan, Na |
S7.3 |
103 |
A novel method to improve the subcarrier frequency accuracy for UHF RFID sensing system |
| Yang, Shuai |
S8.2 |
109 |
Channel Inversion Method for Optimum Power Delivery in RF Harvesting Backscatter Systems |
| Ye, Terry |
S7.2 |
97 |
Wearable Deformation Sensor with Ambient Interference Rejection Using Differential Backscattered RFID Signals |
| Yu, David |
P1.9 |
|
Object Detection Algorithms for NASA's JunoCam |
| Z A B C D E F G H I J K L M N O P Q R S T U V W X Y Z |
| Zeinolabedinzadeh, Saeed |
KEY.2 |
|
Keynote: mmW and THz Integrated Circuits for Sensing and Communication |
| Zhang, Chao |
S7.3 |
103 |
A novel method to improve the subcarrier frequency accuracy for UHF RFID sensing system |
| Zhang, Ying |
P1.13 |
14 |
Online Implementation of LSTM for Thermal Management of Implantable Medical Device |
| S9.7 |
151 |
A Backscatter Channel Sounder Using Tunneling RFID Tags |
| Zhang, Yunlei |
S9.6 |
143 |
On Fast and Accurate 3D RFID Mobile Localization |
| Zhu, Jian |
KEY.4 |
|
Keynote: 3D Cellphone Localization in E911 |
| Zhu, Kerui |
P1.15 |
15 |
Range-Only Simultaneous Localization and Mapping using Paired Comparisons |
