Author |
Session |
Start page |
Title |
A A B C D F G H J K L M N O P R S V W Y Z |
Abramowicz, Michal |
P-02.1 |
33 |
Wireless IoT Communication Module with Low Power Consumption for a Soil Moisture and Salinity Sensor |
B A B C D F G H J K L M N O P R S V W Y Z |
Baev, Andrey |
U08.1 |
138 |
Detection of Cyclostationary Electromagnetic Emissions Using Degree of Cyclostationarity |
U08.2 |
142 |
Poynting's Vector Modelling for Cyclostationary Electromagnetic Emissions from PCB |
Baranowski, Michal |
U04.1 |
81 |
Hybrid Technique for the EM Scattering Analysis with the Use of Ring Domain Decomposition |
Bekasiewicz, Adrian |
U08.3 |
146 |
Low-Cost Design Optimization of Antennas with Peripheral Components |
Bezrukovs, Dmitrijs |
U01.3 |
7 |
The Development and the Proposed Research of LOFAR-Latvia |
Blaszkiewicz, Olga |
U05.1 |
89 |
Radio Distance Measurements Errors Estimation in Indoor Environment |
U05.2 |
95 |
Implementation of the Innovative Radiolocalization System VCS-MLAT (Voice Communication System - Multilateration) |
U05.4 |
104 |
Deep Learning Approach for LOS and NLOS Identification in the Indoor Environment |
Błaszkiewicz, Leszek |
U01.1 |
1 |
Variation of Pulsar Signal Received with the PL612 as an Indicator of the Ionosphere Dynamics |
U01.2 |
4 |
The Type III Radio Bursts Observations on 25th August 2017 with PL612 LOFAR Station in Baldy |
U01.4 |
10 |
Pulsar Observations Using the POLFAR Stations |
Bossy, Bartosz |
U07.3 |
130 |
Transmission Profile Selection in Dense Wireless Networks |
C A B C D F G H J K L M N O P R S V W Y Z |
Chandra, Madhukar |
U06.4 |
|
A Novel Time-Domain Signal Processing Algorithm for Clutter-Removal in Weather Radar Echoes |
Checinski, Radoslaw |
U02.2 |
19 |
Interference Resistant Waveform for Cognitive Radio MANET |
Chen, Zhuo |
P-02.15 |
57 |
Influence of Salt Mist on Microwave Propagation |
Cherniak, Iurii |
U01.1 |
1 |
Variation of Pulsar Signal Received with the PL612 as an Indicator of the Ionosphere Dynamics |
Chirkov, I. |
U06.2 |
111 |
Investigation of the Using Reflective Power Sensor for Equivalent Source Reflection Measurements |
Chyży, Krzysztof |
U01.4 |
10 |
Pulsar Observations Using the POLFAR Stations |
Cwalina, Krzysztof |
U05.1 |
89 |
Radio Distance Measurements Errors Estimation in Indoor Environment |
U05.4 |
104 |
Deep Learning Approach for LOS and NLOS Identification in the Indoor Environment |
D A B C D F G H J K L M N O P R S V W Y Z |
Dabrowski, Bartosz |
U01.1 |
1 |
Variation of Pulsar Signal Received with the PL612 as an Indicator of the Ionosphere Dynamics |
U01.2 |
4 |
The Type III Radio Bursts Observations on 25th August 2017 with PL612 LOFAR Station in Baldy |
Donerblics, Marcis |
U01.3 |
7 |
The Development and the Proposed Research of LOFAR-Latvia |
Dziedziewicz, Sebastian |
U04.1 |
81 |
Hybrid Technique for the EM Scattering Analysis with the Use of Ring Domain Decomposition |
F A B C D F G H J K L M N O P R S V W Y Z |
Flisek, Pawel |
U01.1 |
1 |
Variation of Pulsar Signal Received with the PL612 as an Indicator of the Ionosphere Dynamics |
U01.2 |
4 |
The Type III Radio Bursts Observations on 25th August 2017 with PL612 LOFAR Station in Baldy |
U01.4 |
10 |
Pulsar Observations Using the POLFAR Stations |
Fotyga, Grzegorz |
U04.3 |
|
Reliable Greedy Multipoint Model-Order Reduction Technique for Efficient Finite Element Analysis |
Fron, Adam |
U01.2 |
4 |
The Type III Radio Bursts Observations on 25th August 2017 with PL612 LOFAR Station in Baldy |
Fukuzaki, Minoru |
U09.4 |
165 |
Wideband Characterization of Soil Complex Dielectric Permittivity Spectrum |
Furuhata, Kahori |
U09.4 |
165 |
Wideband Characterization of Soil Complex Dielectric Permittivity Spectrum |
G A B C D F G H J K L M N O P R S V W Y Z |
Gajewski, Piotr |
U02.2 |
19 |
Interference Resistant Waveform for Cognitive Radio MANET |
Gajo, Zbigniew |
P-02.29 |
62 |
Some Remarks on Maximum Likelihood Estimation in Alpha-Stable Environment |
Gorbunova, Anastasia |
U08.1 |
138 |
Detection of Cyclostationary Electromagnetic Emissions Using Degree of Cyclostationarity |
U08.2 |
142 |
Poynting's Vector Modelling for Cyclostationary Electromagnetic Emissions from PCB |
H A B C D F G H J K L M N O P R S V W Y Z |
Hajduk, Marcin |
U01.1 |
1 |
Variation of Pulsar Signal Received with the PL612 as an Indicator of the Ionosphere Dynamics |
Hausman, Slawomir |
U05.3 |
100 |
The Use of Multiwall Model for Reference RSSI Data Preparation for Indoor Localization Purposes |
J A B C D F G H J K L M N O P R S V W Y Z |
Januszkiewicz, Lukasz |
U08.4 |
150 |
Simplified Human Body Models for Wearable Antenna Impedance Simulations and Measurements |
K A B C D F G H J K L M N O P R S V W Y Z |
Kafarski, Marcin |
P-02.1 |
33 |
Wireless IoT Communication Module with Low Power Consumption for a Soil Moisture and Salinity Sensor |
U06.1 |
108 |
Dependence of Profile Probe Sensitivity Zone on Probe Diameters |
U06.3 |
114 |
Error Correction in Variable-Temperature Characterization of Material Complex Dielectric Spectrum |
U09.1 |
155 |
Time Domain Transmission Sensor for Soil Moisture Profile Probe Selected Technical Aspects |
U09.2 |
158 |
Evaluation of a Multi-Rod Probe Performance for Accurate Measurements of Soil Water Content |
U09.3 |
161 |
A Modified Open-Ended Probe as a Reliable Tool for Measurements of Soil Water Content |
U09.4 |
165 |
Wideband Characterization of Soil Complex Dielectric Permittivity Spectrum |
U09.5 |
169 |
Soil Aquametry and Electromagnetic Metrology |
Kaszuba-Checinska, Anna |
U02.2 |
19 |
Interference Resistant Waveform for Cognitive Radio MANET |
Kawecki, Jarosław |
U08.4 |
150 |
Simplified Human Body Models for Wearable Antenna Impedance Simulations and Measurements |
Kawecki, Robert |
U05.3 |
100 |
The Use of Multiwall Model for Reference RSSI Data Preparation for Indoor Localization Purposes |
Kazubski, Wojciech |
U03.1 |
65 |
A Resonant Class E Power Amplifier for Low Resistance Load |
Kijak, Jarosław |
U01.4 |
10 |
Pulsar Observations Using the POLFAR Stations |
Kilian, Michal |
U04.3 |
|
Reliable Greedy Multipoint Model-Order Reduction Technique for Efficient Finite Element Analysis |
Kliks, Adrian |
U02.1 |
15 |
Reliability of Bio-Inspired Ultra-Dense Networks |
U07.3 |
130 |
Transmission Profile Selection in Dense Wireless Networks |
U07.4 |
134 |
Cell Range Extension Adaptation in Coordinated LTE-A Network |
Kmiecik, Mateusz |
U04.3 |
|
Reliable Greedy Multipoint Model-Order Reduction Technique for Efficient Finite Element Analysis |
Kolakowski, Marcin |
U03.3 |
73 |
The Use of MEMS Accelerometers for Remote Activity and Living Parameters Monitoring |
Konovalyuk, Maxim |
U08.1 |
138 |
Detection of Cyclostationary Electromagnetic Emissions Using Degree of Cyclostationarity |
U08.2 |
142 |
Poynting's Vector Modelling for Cyclostationary Electromagnetic Emissions from PCB |
Korbel, Piotr |
U05.3 |
100 |
The Use of Multiwall Model for Reference RSSI Data Preparation for Indoor Localization Purposes |
Kotulak, Kacper |
U01.1 |
1 |
Variation of Pulsar Signal Received with the PL612 as an Indicator of the Ionosphere Dynamics |
Koudouridis, Georgios |
U07.4 |
134 |
Cell Range Extension Adaptation in Coordinated LTE-A Network |
Kowalczyk, Piotr |
U04.1 |
81 |
Hybrid Technique for the EM Scattering Analysis with the Use of Ring Domain Decomposition |
Koziel, Slawomir |
U08.3 |
146 |
Low-Cost Design Optimization of Antennas with Peripheral Components |
Krankowski, Andrzej |
U01.1 |
1 |
Variation of Pulsar Signal Received with the PL612 as an Indicator of the Ionosphere Dynamics |
U01.2 |
4 |
The Type III Radio Bursts Observations on 25th August 2017 with PL612 LOFAR Station in Baldy |
U01.4 |
10 |
Pulsar Observations Using the POLFAR Stations |
Kryszkiewicz, Pawel |
U07.3 |
130 |
Transmission Profile Selection in Dense Wireless Networks |
Kułacz, Łukasz |
U02.1 |
15 |
Reliability of Bio-Inspired Ultra-Dense Networks |
U07.3 |
130 |
Transmission Profile Selection in Dense Wireless Networks |
U07.4 |
134 |
Cell Range Extension Adaptation in Coordinated LTE-A Network |
Kuznetsov, Yury |
U08.1 |
138 |
Detection of Cyclostationary Electromagnetic Emissions Using Degree of Cyclostationarity |
U08.2 |
142 |
Poynting's Vector Modelling for Cyclostationary Electromagnetic Emissions from PCB |
L A B C D F G H J K L M N O P R S V W Y Z |
Lech, Rafal |
U04.1 |
81 |
Hybrid Technique for the EM Scattering Analysis with the Use of Ring Domain Decomposition |
Lewandowski, Arkadiusz |
P-02.1 |
33 |
Wireless IoT Communication Module with Low Power Consumption for a Soil Moisture and Salinity Sensor |
U06.1 |
108 |
Dependence of Profile Probe Sensitivity Zone on Probe Diameters |
U06.3 |
114 |
Error Correction in Variable-Temperature Characterization of Material Complex Dielectric Spectrum |
U09.1 |
155 |
Time Domain Transmission Sensor for Soil Moisture Profile Probe Selected Technical Aspects |
U09.2 |
158 |
Evaluation of a Multi-Rod Probe Performance for Accurate Measurements of Soil Water Content |
U09.3 |
161 |
A Modified Open-Ended Probe as a Reliable Tool for Measurements of Soil Water Content |
U09.4 |
165 |
Wideband Characterization of Soil Complex Dielectric Permittivity Spectrum |
U09.5 |
169 |
Soil Aquametry and Electromagnetic Metrology |
Lewandowski, Wojciech |
U01.4 |
10 |
Pulsar Observations Using the POLFAR Stations |
Luo, Fuyu |
P-02.15 |
57 |
Influence of Salt Mist on Microwave Propagation |
Łopatka, Jerzy |
U02.2 |
19 |
Interference Resistant Waveform for Cognitive Radio MANET |
U02.3 |
24 |
Evidence Theory Based Data Fusion for Centralized Cooperative Spectrum Sensing in Mobile Ad-hoc Networks |
U02.4 |
28 |
Q-learning Based Radio Channels Utility Evaluation Algorithm for the Local Dynamic Spectrum Management in Mobile Ad-hoc Networks |
Łostowski, Adrian |
P-02.1 |
33 |
Wireless IoT Communication Module with Low Power Consumption for a Soil Moisture and Salinity Sensor |
M A B C D F G H J K L M N O P R S V W Y Z |
Majcher, Jacek |
U06.1 |
108 |
Dependence of Profile Probe Sensitivity Zone on Probe Diameters |
U09.1 |
155 |
Time Domain Transmission Sensor for Soil Moisture Profile Probe Selected Technical Aspects |
U09.5 |
169 |
Soil Aquametry and Electromagnetic Metrology |
Malay, Ivan |
U06.2 |
111 |
Investigation of the Using Reflective Power Sensor for Equivalent Source Reflection Measurements |
Malon, Krzysztof |
U02.3 |
24 |
Evidence Theory Based Data Fusion for Centralized Cooperative Spectrum Sensing in Mobile Ad-hoc Networks |
U02.4 |
28 |
Q-learning Based Radio Channels Utility Evaluation Algorithm for the Local Dynamic Spectrum Management in Mobile Ad-hoc Networks |
Matveev, Alexey |
U06.2 |
111 |
Investigation of the Using Reflective Power Sensor for Equivalent Source Reflection Measurements |
Mikołajewski, Miroslaw |
U03.1 |
65 |
A Resonant Class E Power Amplifier for Low Resistance Load |
U03.4 |
77 |
A Class E ZVS Amplifier with Basic Matching Circuits |
Miś, Tomasz |
P-02.6 |
52 |
The Performance Analysis and Optimization of IGLUNA 2019 Lunar-Analogue Longwave Transmitting System |
N A B C D F G H J K L M N O P R S V W Y Z |
Napieralski, Andrzej |
P-02.3 |
42 |
Estimation of Comb Structure Capacitance for MEMS Inertial Sensors |
P-02.4 |
46 |
Geometry Details of Inertial Microsensors Influenced on Their Performance |
Nazdrowicz, Jacek |
P-02.3 |
42 |
Estimation of Comb Structure Capacitance for MEMS Inertial Sensors |
P-02.4 |
46 |
Geometry Details of Inertial Microsensors Influenced on Their Performance |
Nuzhnov, Mikhail |
U08.1 |
138 |
Detection of Cyclostationary Electromagnetic Emissions Using Degree of Cyclostationarity |
O A B C D F G H J K L M N O P R S V W Y Z |
Olejniczak, Alicja |
U05.1 |
89 |
Radio Distance Measurements Errors Estimation in Indoor Environment |
U05.2 |
95 |
Implementation of the Innovative Radiolocalization System VCS-MLAT (Voice Communication System - Multilateration) |
U05.4 |
104 |
Deep Learning Approach for LOS and NLOS Identification in the Indoor Environment |
Oleksy, Paweł |
U08.4 |
150 |
Simplified Human Body Models for Wearable Antenna Impedance Simulations and Measurements |
Osiadala, Natalia |
U03.3 |
73 |
The Use of MEMS Accelerometers for Remote Activity and Living Parameters Monitoring |
P A B C D F G H J K L M N O P R S V W Y Z |
Pawlicki, Lukasz |
U04.3 |
|
Reliable Greedy Multipoint Model-Order Reduction Technique for Efficient Finite Element Analysis |
R A B C D F G H J K L M N O P R S V W Y Z |
Rajchowski, Piotr |
U05.1 |
89 |
Radio Distance Measurements Errors Estimation in Indoor Environment |
U05.4 |
104 |
Deep Learning Approach for LOS and NLOS Identification in the Indoor Environment |
Rajewski, Remigiusz |
U07.2 |
124 |
The MBA(N,e,g) Optical Switching Fabric |
Remlein, Piotr |
U07.1 |
118 |
Tamarin Software - The Tool for Protocols Verification Security |
Rogacki, Mikołaj |
U07.1 |
118 |
Tamarin Software - The Tool for Protocols Verification Security |
Rożko, Karolina |
U01.4 |
10 |
Pulsar Observations Using the POLFAR Stations |
Russer, Johannes |
U08.2 |
142 |
Poynting's Vector Modelling for Cyclostationary Electromagnetic Emissions from PCB |
Rutkowski, Adam |
P-02.5 |
49 |
Integrated Correlator with Rat-Race Hybrids for the WiFi Band Quadrature Microwave Frequency Discriminator |
Ryabov, Boris |
U01.3 |
7 |
The Development and the Proposed Research of LOFAR-Latvia |
S A B C D F G H J K L M N O P R S V W Y Z |
Sadowski, Jaroslaw |
U05.1 |
89 |
Radio Distance Measurements Errors Estimation in Indoor Environment |
U05.2 |
95 |
Implementation of the Innovative Radiolocalization System VCS-MLAT (Voice Communication System - Multilateration) |
U05.4 |
104 |
Deep Learning Approach for LOS and NLOS Identification in the Indoor Environment |
Saito, Hironobu |
U09.4 |
165 |
Wideband Characterization of Soil Complex Dielectric Permittivity Spectrum |
Shevchuk, Mykola |
U01.2 |
4 |
The Type III Radio Bursts Observations on 25th August 2017 with PL612 LOFAR Station in Baldy |
Sihvola, Ari |
U04.5 |
|
Radio Science in Northern Europe: Untapped Potential for URSI Developments |
U04.4 |
|
Wave Propagation Along Surfaces and Interfaces: Analysis with General Electromagnetic Boundary Conditions |
Skierucha, Wojciech |
P-02.1 |
33 |
Wireless IoT Communication Module with Low Power Consumption for a Soil Moisture and Salinity Sensor |
U06.1 |
108 |
Dependence of Profile Probe Sensitivity Zone on Probe Diameters |
U06.3 |
114 |
Error Correction in Variable-Temperature Characterization of Material Complex Dielectric Spectrum |
U09.1 |
155 |
Time Domain Transmission Sensor for Soil Moisture Profile Probe Selected Technical Aspects |
U09.2 |
158 |
Evaluation of a Multi-Rod Probe Performance for Accurate Measurements of Soil Water Content |
U09.3 |
161 |
A Modified Open-Ended Probe as a Reliable Tool for Measurements of Soil Water Content |
U09.4 |
165 |
Wideband Characterization of Soil Complex Dielectric Permittivity Spectrum |
U09.5 |
169 |
Soil Aquametry and Electromagnetic Metrology |
Skokowski, Pawel |
U02.3 |
24 |
Evidence Theory Based Data Fusion for Centralized Cooperative Spectrum Sensing in Mobile Ad-hoc Networks |
U02.4 |
28 |
Q-learning Based Radio Channels Utility Evaluation Algorithm for the Local Dynamic Spectrum Management in Mobile Ad-hoc Networks |
Smierciak, Bartosz |
U01.4 |
10 |
Pulsar Observations Using the POLFAR Stations |
Sojka, Łukasz |
U03.2 |
70 |
Pulsed Fluoride Glass Fiber Laser with near 3Um Operating Wavelength |
Sorokosz, Lukasz |
U04.2 |
85 |
Electromagnetic Modeling of Microstrip Elements Aided with Artificial Neural Network |
Sroka, Paweł |
U07.4 |
134 |
Cell Range Extension Adaptation in Coordinated LTE-A Network |
Stachowiak, Urszula |
U07.1 |
118 |
Tamarin Software - The Tool for Protocols Verification Security |
Stadnik, Hubert |
P-02.5 |
49 |
Integrated Correlator with Rat-Race Hybrids for the WiFi Band Quadrature Microwave Frequency Discriminator |
Staszek, Kamil |
P-02.2 |
38 |
Determining a Matched Load Response of Six-Port Reflectometer Using Partially Known Calibration Loads |
Stawiński, Adam |
P-02.3 |
42 |
Estimation of Comb Structure Capacitance for MEMS Inertial Sensors |
P-02.4 |
46 |
Geometry Details of Inertial Microsensors Influenced on Their Performance |
Stefanski, Jacek |
U05.2 |
95 |
Implementation of the Innovative Radiolocalization System VCS-MLAT (Voice Communication System - Multilateration) |
Sypek, Piotr |
U04.3 |
|
Reliable Greedy Multipoint Model-Order Reduction Technique for Efficient Finite Element Analysis |
Szerement, Justyna |
U06.3 |
114 |
Error Correction in Variable-Temperature Characterization of Material Complex Dielectric Spectrum |
U09.2 |
158 |
Evaluation of a Multi-Rod Probe Performance for Accurate Measurements of Soil Water Content |
U09.3 |
161 |
A Modified Open-Ended Probe as a Reliable Tool for Measurements of Soil Water Content |
U09.4 |
165 |
Wideband Characterization of Soil Complex Dielectric Permittivity Spectrum |
U09.5 |
169 |
Soil Aquametry and Electromagnetic Metrology |
Szypłowska, Agnieszka |
P-02.1 |
33 |
Wireless IoT Communication Module with Low Power Consumption for a Soil Moisture and Salinity Sensor |
U06.1 |
108 |
Dependence of Profile Probe Sensitivity Zone on Probe Diameters |
U06.3 |
114 |
Error Correction in Variable-Temperature Characterization of Material Complex Dielectric Spectrum |
U09.1 |
155 |
Time Domain Transmission Sensor for Soil Moisture Profile Probe Selected Technical Aspects |
U09.2 |
158 |
Evaluation of a Multi-Rod Probe Performance for Accurate Measurements of Soil Water Content |
U09.3 |
161 |
A Modified Open-Ended Probe as a Reliable Tool for Measurements of Soil Water Content |
U09.4 |
165 |
Wideband Characterization of Soil Complex Dielectric Permittivity Spectrum |
U09.5 |
169 |
Soil Aquametry and Electromagnetic Metrology |
Szypulski, Damian |
U04.3 |
|
Reliable Greedy Multipoint Model-Order Reduction Technique for Efficient Finite Element Analysis |
V A B C D F G H J K L M N O P R S V W Y Z |
Vrublevskis, Arturs |
U01.3 |
7 |
The Development and the Proposed Research of LOFAR-Latvia |
W A B C D F G H J K L M N O P R S V W Y Z |
Wane, Sidina |
U08.1 |
138 |
Detection of Cyclostationary Electromagnetic Emissions Using Degree of Cyclostationarity |
Wilczek, Andrzej |
P-02.1 |
33 |
Wireless IoT Communication Module with Low Power Consumption for a Soil Moisture and Salinity Sensor |
U06.1 |
108 |
Dependence of Profile Probe Sensitivity Zone on Probe Diameters |
U06.3 |
114 |
Error Correction in Variable-Temperature Characterization of Material Complex Dielectric Spectrum |
U09.1 |
155 |
Time Domain Transmission Sensor for Soil Moisture Profile Probe Selected Technical Aspects |
U09.2 |
158 |
Evaluation of a Multi-Rod Probe Performance for Accurate Measurements of Soil Water Content |
U09.3 |
161 |
A Modified Open-Ended Probe as a Reliable Tool for Measurements of Soil Water Content |
U09.4 |
165 |
Wideband Characterization of Soil Complex Dielectric Permittivity Spectrum |
U09.5 |
169 |
Soil Aquametry and Electromagnetic Metrology |
Wiszniewski, Szymon |
U05.2 |
95 |
Implementation of the Innovative Radiolocalization System VCS-MLAT (Voice Communication System - Multilateration) |
Woszczyk, Aleksandra |
U09.2 |
158 |
Evaluation of a Multi-Rod Probe Performance for Accurate Measurements of Soil Water Content |
U09.3 |
161 |
A Modified Open-Ended Probe as a Reliable Tool for Measurements of Soil Water Content |
U09.5 |
169 |
Soil Aquametry and Electromagnetic Metrology |
Y A B C D F G H J K L M N O P R S V W Y Z |
Yagihara, Shin |
U09.4 |
165 |
Wideband Characterization of Soil Complex Dielectric Permittivity Spectrum |
Z A B C D F G H J K L M N O P R S V W Y Z |
Zakharenkova, Irina |
U01.1 |
1 |
Variation of Pulsar Signal Received with the PL612 as an Indicator of the Ionosphere Dynamics |
Zhang, Bing |
P-02.15 |
57 |
Influence of Salt Mist on Microwave Propagation |
Zhang, Wenyi |
P-02.15 |
57 |
Influence of Salt Mist on Microwave Propagation |
Zhou, Haibin |
P-02.15 |
57 |
Influence of Salt Mist on Microwave Propagation |
Zieniutycz, Wlodzimierz |
U04.2 |
85 |
Electromagnetic Modeling of Microstrip Elements Aided with Artificial Neural Network |