| 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 Y Z |
| Abdel Khalek, Farah |
WiMob-SPPDT'2020: SP.5 |
|
A Smart Grid WSN Research Testbed |
| Abi Char, Pierre |
S2.3 |
|
Towards Intelligent and Dynamic Road Speed Adaptation Model in Smart Cities |
| Abou Jaoude, Chady |
S3.2 |
|
Data Reduction and Cleaning Approach for Energy-saving in Wireless Sensors Networks of IoT |
| Abreu, Nuno |
S6.3 |
|
UDMSim: A Simulation Platform for Underwater Data Muling Communications |
| Adjih, Cedric |
STWiMob'2020: ST2.2 |
|
Physical and MAC Layer Design for Active Signaling Schemes in Vehicular Networks |
| Afifi, Haitham |
STWiMob'2020: ST3.4 |
|
Reinforcement Learning for Virtual Network Embedding in Wireless Sensor Networks |
| Aguero, Ramon |
S6.2 |
|
Learning congestion over millimeter-wave channels |
| S3.4 |
|
And QUIC Meets IoT: Performance Assessment of MQTT over QUIC |
| Ajami, Abdel Karim |
S7.3 |
|
Medium Access Probability Model Based on CSMA/CA for a DSRC Network Driven by Poisson Line Process |
| Ajayi, Olasupo |
STWiMob'2020: ST2.4 |
|
Efficient Airborne Network Clustering for 5G Backhauling and Fronthauling |
| Al-Qurabat, Ali Kadhum M. |
S3.2 |
|
Data Reduction and Cleaning Approach for Energy-saving in Wireless Sensors Networks of IoT |
| Alonso, José I. |
CWN'20: C1.3 |
|
Analysis of A&F Mobile Relay Nodes with Power Control and Link Selection in HSR Scenarios |
| Andrade, Maria Teresa |
WiMob-SPPDT'2020: SP.4 |
|
Video-assisted Overtaking System Enabled by C-V2X Mode 4 Communications |
| Andrey, Laurent |
S3.1 |
|
Leveraging Reinforcement Learning for Adaptive Monitoring of Low-Power IoT Networks |
| Arbi, Tarak |
S5.1 |
|
Joint dynamic delay and channel gain estimation BCRB for wireless communications |
| Arendt, Christian |
ICT4PPRR'20: I1.2 |
|
SKATES: Interoperable Multi-Connectivity Communication Module for Reliable Search and Rescue Robot Operation |
| Artail, Hassan |
S7.3 |
|
Medium Access Probability Model Based on CSMA/CA for a DSRC Network Driven by Poisson Line Process |
| Ashtaiwi, Abduladhim |
S2.3 |
|
Towards Intelligent and Dynamic Road Speed Adaptation Model in Smart Cities |
| Asokraj, Surudhi |
S6.4 |
|
A Q-learning Approach for the Support of Reliable Transmission in the Internet of Underwater Things |
| Ayed, Samiha |
STWiMob'2020: ST1.1 |
|
A Stochastic Approach for an Enhanced Trust Management in a Decentralized Healthcare Environment |
| B A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Backhaus, Martin |
WiMob-SPPDT'2020: SP.3 |
|
Towards the Complexity of the Widest Path Problem in Hybrid Multi-Channel WMNs |
| S1.1 |
|
Robustness and Scalability Improvements for Distance Vector Routing in Large WMNs |
| Bagula, Antoine |
STWiMob'2020: ST2.4 |
|
Efficient Airborne Network Clustering for 5G Backhauling and Fronthauling |
| Bahra, Nasrin |
S9.2 |
|
RNN-Based User Trajectory Prediction Using a Preprocessed Dataset |
| Bazzi, Oussama |
S9.1 |
|
Theoretical Performance of the Gradient-Based Tone Reservation PAPR Reduction Algorithm |
| Bedoui, Mohamed Hedi |
STWiMob'2020: ST3.1 |
|
Evaluation of LoRaWAN Class B efficiency for downlink traffic |
| Bengtsson, Mats |
S9.4 |
|
A Study of Delay and Doppler Spreads at 24 GHz ISM band |
| Bezerra, Rodrigo |
S5.3 |
|
Hidden Markov Model Spectrum Predictor for Poisson Distributed Traffic |
| Bhatnagar, Manav |
S10.3 |
|
Diversity-Multiplexing Tradeoff for Indoor Visible Light Communication |
| Bhiri, Sami |
STWiMob'2020: ST3.1 |
|
Evaluation of LoRaWAN Class B efficiency for downlink traffic |
| Bhusal, Hari |
STWiMob'2020: ST1.3 |
|
A Proposed Access Control-Based Privacy Preservation Model to Share Healthcare Data in Cloud |
| Bilbao, Josu |
S3.4 |
|
And QUIC Meets IoT: Performance Assessment of MQTT over QUIC |
| Bin Muslim, Anas |
STWiMob'2020: ST2.1 |
|
Analysis of methods for prioritizing critical data transmissions in agricultural vehicular networks |
| Björsell, Niclas |
S9.4 |
|
A Study of Delay and Doppler Spreads at 24 GHz ISM band |
| Bordim, Jacir |
S5.3 |
|
Hidden Markov Model Spectrum Predictor for Poisson Distributed Traffic |
| Borsatti, Davide |
ICT4PPRR'20: I1.1 |
|
Network slicing for Mission Critical communications |
| Boukhalfa, Fouzi |
STWiMob'2020: ST2.2 |
|
Physical and MAC Layer Design for Active Signaling Schemes in Vehicular Networks |
| Brunner, Richard |
S7.4 |
|
Cost-optimal V2X Service Placement in Distributed Cloud/Edge Environment |
| Burdinat, Christophe |
S7.1 |
|
Broadcast-Multicast Single Frequency Network versus Unicast in Cellular Systems |
| Busnel, Yann |
S10.4 |
|
Sensor Self-location with FTM Measurements |
| C A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Caetano, Marcos |
S5.3 |
|
Hidden Markov Model Spectrum Predictor for Poisson Distributed Traffic |
| Callegati, Franco |
ICT4PPRR'20: I1.1 |
|
Network slicing for Mission Critical communications |
| Campos, Rui |
S6.3 |
|
UDMSim: A Simulation Platform for Underwater Data Muling Communications |
| Cardinale, Yudith |
STWiMob'2020: ST1.4 |
|
Proxemic Interactions in Mobile Devices to Avoid the Spreading of Infections |
| Casoni, Maurizio |
ICT4PPRR'20: I1.3 |
|
IRONMAN: Infrastructured RSSI-based Opportunistic routiNg in Mobile Adhoc Networks |
| Castro, Francisco |
WiMob-SPPDT'2020: SP.4 |
|
Video-assisted Overtaking System Enabled by C-V2X Mode 4 Communications |
| Cecchinato, Davide |
S7.2 |
|
Mobility Prediction via Sequential Learning for 5G Mobile Networks |
| Cerroni, Walter |
ICT4PPRR'20: I1.1 |
|
Network slicing for Mission Critical communications |
| Chagdali, Abdellatif |
S1.3 |
|
Impact of Slice Function Placement on the Performance of URLLC with Redundant Coverage |
| Chamberland, Steven |
STWiMob'2020: ST2.3 |
|
A Multiple Linear Regression Model for Predicting Congestion in Heterogeneous Vehicular Networks |
| Chandramohan, Aashik |
S2.2 |
|
Modelling V2V message generation rates in a highway environment |
| Chatterjee, Ayan |
STWiMob'2020: ST1.3 |
|
A Proposed Access Control-Based Privacy Preservation Model to Share Healthcare Data in Cloud |
| Cherif, Sofiane |
S5.1 |
|
Joint dynamic delay and channel gain estimation BCRB for wireless communications |
| Coutaud, Ulysse |
S4.3 |
|
Adaptive Data Rate for Multiple Gateways LoRaWAN® Networks |
| Crussière, Matthieu |
S9.3 |
|
Joint Beamforming and PAPR Reduction in Massive MIMO: Analysis of Gain in Energy Efficiency |
| S9.1 |
|
Theoretical Performance of the Gradient-Based Tone Reservation PAPR Reduction Algorithm |
| D A B C D E F G H I J K L M N O P R S T U V W Y Z |
| d'Orey, Pedro |
WiMob-SPPDT'2020: SP.4 |
|
Video-assisted Overtaking System Enabled by C-V2X Mode 4 Communications |
| Dalmau, Marc |
STWiMob'2020: ST1.4 |
|
Proxemic Interactions in Mobile Devices to Avoid the Spreading of Infections |
| Darwaish, Asim |
S3.3 |
|
A Data Cleansing Approach In Smart Home Environments Using Artificial Neural Networks |
| S8.1 |
|
An Intelligent Malware Detection and Classification System Using Apps-to-Images Transformations and Convolutional Neural Networks |
| Dieng, Ousmane |
S4.4 |
|
Comparing and Adapting Propagation Models for LoRa Networks |
| Diez, Luis |
S6.2 |
|
Learning congestion over millimeter-wave channels |
| Dinh, Nga |
S1.4 |
|
Analysis and Power Scheduling Algorithm in Wireless Powered Communication Networks |
| Dyo, Vladimir |
S8.2 |
|
Counting calories without wearables: Device-free Human Energy Expenditure Estimation |
| E A B C D E F G H I J K L M N O P R S T U V W Y Z |
| El Hassan, Mariam |
S9.1 |
|
Theoretical Performance of the Gradient-Based Tone Reservation PAPR Reduction Algorithm |
| Elayoubi, Salah Eddine |
S1.3 |
|
Impact of Slice Function Placement on the Performance of URLLC with Redundant Coverage |
| Elbsir, Houssem Eddin |
STWiMob'2020: ST3.1 |
|
Evaluation of LoRaWAN Class B efficiency for downlink traffic |
| Elujide, Israel |
STWiMob'2020: C1.4 |
|
An Entropy-Based WLAN Channel Allocation using Channel State Information |
| Esseghir, Moez |
STWiMob'2020: ST1.1 |
|
A Stochastic Approach for an Enhanced Trust Management in a Decentralized Healthcare Environment |
| F A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Falahatraftar, Farnoush |
STWiMob'2020: ST2.3 |
|
A Multiple Linear Regression Model for Predicting Congestion in Heterogeneous Vehicular Networks |
| Fernandez, Alfonso |
S6.2 |
|
Learning congestion over millimeter-wave channels |
| Fernández, Fátima María |
S3.4 |
|
And QUIC Meets IoT: Performance Assessment of MQTT over QUIC |
| Ferreira, Bruno |
S6.3 |
|
UDMSim: A Simulation Platform for Underwater Data Muling Communications |
| Frikha, Mohamed said |
S3.1 |
|
Leveraging Reinforcement Learning for Adaptive Monitoring of Low-Power IoT Networks |
| Fuhr, Oliver |
ICT4PPRR'20: I1.4 |
|
CELIDON: Supporting First Responders through 3D AOA-based UWB Ad-Hoc Localization |
| G A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Galluccio, Laura |
S6.4 |
|
A Q-learning Approach for the Support of Reliable Transmission in the Internet of Underwater Things |
| Garrido, Pablo |
S3.4 |
|
And QUIC Meets IoT: Performance Assessment of MQTT over QUIC |
| Geller, Benoît |
S5.1 |
|
Joint dynamic delay and channel gain estimation BCRB for wireless communications |
| Gerdes, Martin |
STWiMob'2020: ST1.3 |
|
A Proposed Access Control-Based Privacy Preservation Model to Share Healthcare Data in Cloud |
| Gondal, Iqbal |
S8.4 |
|
Mobile Malware Detection with Imbalanced Data using a Novel Synthetic Oversampling Strategy and Deep Learning |
| Gorczak, Philipp |
ICT4PPRR'20: I1.2 |
|
SKATES: Interoperable Multi-Connectivity Communication Module for Reliable Search and Rescue Robot Operation |
| Gosselin, Flovic |
WiMob-SPPDT'2020: SP.5 |
|
A Smart Grid WSN Research Testbed |
| Gouvy, Nicolas |
WiMob-SPPDT'2020: SP.5 |
|
A Smart Grid WSN Research Testbed |
| Grasselli, Chiara |
ICT4PPRR'20: I1.1 |
|
Network slicing for Mission Critical communications |
| Grazia, Carlo Augusto |
ICT4PPRR'20: I1.3 |
|
IRONMAN: Infrastructured RSSI-based Opportunistic routiNg in Mobile Adhoc Networks |
| Graziani, Alessio |
STWiMob'2020: ST1.2 |
|
Improving Health Information Exchange through Wireless Communication Protocols |
| Güldenring, Johannes |
ICT4PPRR'20: I1.2 |
|
SKATES: Interoperable Multi-Connectivity Communication Module for Reliable Search and Rescue Robot Operation |
| H A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Hadded, Mohamed |
STWiMob'2020: ST2.2 |
|
Physical and MAC Layer Design for Active Signaling Schemes in Vehicular Networks |
| Haugen, Øystein |
S1.4 |
|
Analysis and Power Scheduling Algorithm in Wireless Powered Communication Networks |
| Heidari, Parisa |
S7.4 |
|
Cost-optimal V2X Service Placement in Distributed Cloud/Edge Environment |
| Heijenk, Geert |
S2.2 |
|
Modelling V2V message generation rates in a highway environment |
| Hélard, Jean-François |
S9.3 |
|
Joint Beamforming and PAPR Reduction in Massive MIMO: Analysis of Gain in Energy Efficiency |
| S9.1 |
|
Theoretical Performance of the Gradient-Based Tone Reservation PAPR Reduction Algorithm |
| Helou, Ghassan |
S4.1 |
|
Radio Resource Optimization for Spectrum-Aware LoRa Secondary System |
| Henry, Jerome |
S10.4 |
|
Sensor Self-location with FTM Measurements |
| Heusse, Martin |
S4.3 |
|
Adaptive Data Rate for Multiple Gateways LoRaWAN® Networks |
| Higashino, Teruo |
S2.4 |
|
Multi-Lane Detection and Tracking Using Vision for Traffic Situation Awareness |
| Hiromori, Akihito |
S2.4 |
|
Multi-Lane Detection and Tracking Using Vision for Traffic Situation Awareness |
| Hrasko, Ivan |
S10.4 |
|
Sensor Self-location with FTM Measurements |
| I A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Ibrahim, Marc |
S4.1 |
|
Radio Resource Optimization for Spectrum-Aware LoRa Secondary System |
| Idrees, Ali |
S3.2 |
|
Data Reduction and Cleaning Approach for Energy-saving in Wireless Sensors Networks of IoT |
| Imam, Tasadduq |
S8.4 |
|
Mobile Malware Detection with Imbalanced Data using a Novel Synthetic Oversampling Strategy and Deep Learning |
| Ishizaki, Masahiro |
S2.4 |
|
Multi-Lane Detection and Tracking Using Vision for Traffic Situation Awareness |
| J A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Jiang, Chunxiao |
S6.1 |
|
Second Order Time-Frequency Modulation in Satellite High-Mobility Communications |
| Juarez, Jose Ramón |
S3.4 |
|
And QUIC Meets IoT: Performance Assessment of MQTT over QUIC |
| K A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Kabalan, Karim |
S7.3 |
|
Medium Access Probability Model Based on CSMA/CA for a DSRC Network Driven by Poisson Line Process |
| Kamruzzaman, Joarder |
S8.4 |
|
Mobile Malware Detection with Imbalanced Data using a Novel Synthetic Oversampling Strategy and Deep Learning |
| Karl, Holger |
STWiMob'2020: ST3.4 |
|
Reinforcement Learning for Virtual Network Embedding in Wireless Sensor Networks |
| Kassab, Mohamed |
STWiMob'2020: ST3.1 |
|
Evaluation of LoRaWAN Class B efficiency for downlink traffic |
| Kazemzadeh, Mitra |
WiMob-SPPDT'2020: SP.1 |
|
Data Stream Query Processing on Mobile Devices |
| Khalfaoui, Chaima |
STWiMob'2020: ST1.1 |
|
A Stochastic Approach for an Enhanced Trust Management in a Decentralized Healthcare Environment |
| Khan, Muhammad |
S6.2 |
|
Learning congestion over millimeter-wave channels |
| Khatiwada, Pankaj |
STWiMob'2020: ST1.3 |
|
A Proposed Access Control-Based Privacy Preservation Model to Share Healthcare Data in Cloud |
| Khoda, Mahbub E |
S8.4 |
|
Mobile Malware Detection with Imbalanced Data using a Novel Synthetic Oversampling Strategy and Deep Learning |
| Kiourtis, Athanasios |
STWiMob'2020: ST1.2 |
|
Improving Health Information Exchange through Wireless Communication Protocols |
| Klapez, Martin |
ICT4PPRR'20: I1.3 |
|
IRONMAN: Infrastructured RSSI-based Opportunistic routiNg in Mobile Adhoc Networks |
| Kuang, Linling |
S6.1 |
|
Second Order Time-Frequency Modulation in Satellite High-Mobility Communications |
| Kyriazis, Dimosthenis |
STWiMob'2020: ST1.2 |
|
Improving Health Information Exchange through Wireless Communication Protocols |
| L A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Lagrange, Xavier |
S7.1 |
|
Broadcast-Multicast Single Frequency Network versus Unicast in Cellular Systems |
| Lahmadi, Abdelkader |
S3.1 |
|
Leveraging Reinforcement Learning for Adaptive Monitoring of Low-Power IoT Networks |
| Lamar, Marcus |
S5.3 |
|
Hidden Markov Model Spectrum Predictor for Poisson Distributed Traffic |
| Larabi, Adel |
S7.4 |
|
Cost-optimal V2X Service Placement in Distributed Cloud/Edge Environment |
| Le Martret, Christophe |
S5.2 |
|
Average PER Prediction Based on Statistical CSI for SC-FDE Systems |
| Lefevere, Vincent |
WiMob-SPPDT'2020: SP.5 |
|
A Smart Grid WSN Research Testbed |
| Leturc, Xavier |
S5.2 |
|
Average PER Prediction Based on Statistical CSI for SC-FDE Systems |
| Leung, Victor |
S1.2 |
|
A Color Adjustment Method for HDR Display of Video Content Received Over Wireless Multimedia Networks |
| Li, Qian |
STWiMob'2020: ST3.2 |
|
Quality-of-experience-oriented network selection for indoor VLC heterogeneous networks |
| Liu, Yonghe |
STWiMob'2020: C1.4 |
|
An Entropy-Based WLAN Channel Allocation using Channel State Information |
| Ludinard, Romaric |
S10.4 |
|
Sensor Self-location with FTM Measurements |
| M A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Magalhães, Pedro |
WiMob-SPPDT'2020: SP.4 |
|
Video-assisted Overtaking System Enabled by C-V2X Mode 4 Communications |
| Magarini, Maurizio |
S10.1 |
|
Characterization of the Indoor-to-Outdoor Wireless Channel in Air-to-Ground Communication Systems |
| Maluleke, Hloniphani |
STWiMob'2020: ST2.4 |
|
Efficient Airborne Network Clustering for 5G Backhauling and Fronthauling |
| Martins, Philippe |
STWiMob'2020: ST3.3 |
|
Multi-cell Downlink Dimensioning in NB-IoT Networks |
| Masson, Dominique |
STWiMob'2020: ST1.4 |
|
Proxemic Interactions in Mobile Devices to Avoid the Spreading of Infections |
| Masucci, Antonia Maria |
S1.3 |
|
Impact of Slice Function Placement on the Performance of URLLC with Redundant Coverage |
| Masud Rana, Shaikh |
S9.4 |
|
A Study of Delay and Doppler Spreads at 24 GHz ISM band |
| Mavrogiorgou, Argyro |
STWiMob'2020: ST1.2 |
|
Improving Health Information Exchange through Wireless Communication Protocols |
| Melen, Riccardo |
WiMob-SPPDT'2020: SP.6 |
|
Rethinking the Design of Wearable Expert Systems: The Role of Network Infrastructures |
| Mendoza, Charmae Franchesca |
CWN'20: C1.2 |
|
Cluster Formation in Scalable Cell-free Massive MIMO Networks |
| Meneghello, Francesca |
S7.2 |
|
Mobility Prediction via Sequential Learning for 5G Mobile Networks |
| Mettali Gammar, Sonia |
S3.1 |
|
Leveraging Reinforcement Learning for Adaptive Monitoring of Low-Power IoT Networks |
| Mirjalily, Ghasem |
S2.1 |
|
The Deployment of Roadside Units in Vehicular Networks Based on the V2I Connection Duration |
| Mohammadi, Pedram |
S1.2 |
|
A Color Adjustment Method for HDR Display of Video Content Received Over Wireless Multimedia Networks |
| Mohanna, Yasser |
S4.1 |
|
Radio Resource Optimization for Spectrum-Aware LoRa Secondary System |
| Mokhtari, Somayeh |
S2.1 |
|
The Deployment of Roadside Units in Vehicular Networks Based on the V2I Connection Duration |
| Montavont, Nicolas |
S10.4 |
|
Sensor Self-location with FTM Measurements |
| Moraitis, Nektarios |
S10.2 |
|
Machine Learning-Based Methods for Path Loss Prediction in Urban Environment for LTE Networks |
| Moreira, Nuno |
S6.3 |
|
UDMSim: A Simulation Platform for Underwater Data Muling Communications |
| Moubayed, Abdallah |
S7.4 |
|
Cost-optimal V2X Service Placement in Distributed Cloud/Edge Environment |
| Muhlethaler, Paul |
STWiMob'2020: ST2.2 |
|
Physical and MAC Layer Design for Active Signaling Schemes in Vehicular Networks |
| N A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Nait-Abdesselam, Farid |
S3.3 |
|
A Data Cleansing Approach In Smart Home Environments Using Artificial Neural Networks |
| S8.1 |
|
An Intelligent Malware Detection and Classification System Using Apps-to-Images Transformations and Convolutional Neural Networks |
| Najjar, Leila |
S5.1 |
|
Joint dynamic delay and channel gain estimation BCRB for wireless communications |
| Nasiopoulos, Panos |
S1.2 |
|
A Color Adjustment Method for HDR Display of Video Content Received Over Wireless Multimedia Networks |
| Nasr, Imen |
S5.1 |
|
Joint dynamic delay and channel gain estimation BCRB for wireless communications |
| Nassar, Jad |
WiMob-SPPDT'2020: SP.5 |
|
A Smart Grid WSN Research Testbed |
| Nasser, Youssef |
S9.1 |
|
Theoretical Performance of the Gradient-Based Tone Reservation PAPR Reduction Algorithm |
| Nebuloni, Roberto |
S10.1 |
|
Characterization of the Indoor-to-Outdoor Wireless Channel in Air-to-Ground Communication Systems |
| Nguyen, Tuan Anh |
STWiMob'2020: ST3.3 |
|
Multi-cell Downlink Dimensioning in NB-IoT Networks |
| Nogueira, Jose |
S2.1 |
|
The Deployment of Roadside Units in Vehicular Networks Based on the V2I Connection Duration |
| Norberti, Lorenzo |
S10.1 |
|
Characterization of the Indoor-to-Outdoor Wireless Channel in Air-to-Ground Communication Systems |
| Nordemann, Frank |
STWiMob'2020: ST2.1 |
|
Analysis of methods for prioritizing critical data transmissions in agricultural vehicular networks |
| O A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Osborn, Wendy |
WiMob-SPPDT'2020: SP.1 |
|
Data Stream Query Processing on Mobile Devices |
| Ousmane, Thiare |
S4.4 |
|
Comparing and Adapting Propagation Models for LoRa Networks |
| P A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Panigrahi, Smruti |
S9.4 |
|
A Study of Delay and Doppler Spreads at 24 GHz ISM band |
| Patchou, Manuel |
ICT4PPRR'20: I1.2 |
|
SKATES: Interoperable Multi-Connectivity Communication Module for Reliable Search and Rescue Robot Operation |
| Pérez, Paulo |
STWiMob'2020: ST1.4 |
|
Proxemic Interactions in Mobile Devices to Avoid the Spreading of Infections |
| Pham, CongDuc |
S4.4 |
|
Comparing and Adapting Propagation Models for LoRa Networks |
| Pierre, Samuel |
S9.2 |
|
RNN-Based User Trajectory Prediction Using a Preprocessed Dataset |
| STWiMob'2020: ST2.3 |
|
A Multiple Linear Regression Model for Predicting Congestion in Heterogeneous Vehicular Networks |
| Pikrakis, Aggelos |
S5.4 |
|
Low-dimensional Representation Learning for Wireless CSI-based Localisation |
| Pourazad, Mahsa |
S1.2 |
|
A Color Adjustment Method for HDR Display of Video Content Received Over Wireless Multimedia Networks |
| Prabagarane, Nagaradjane |
S6.4 |
|
A Q-learning Approach for the Support of Reliable Transmission in the Internet of Underwater Things |
| R A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Rahaman, Md Habibur |
S8.2 |
|
Counting calories without wearables: Device-free Human Energy Expenditure Estimation |
| Rahman, Ashfaqur |
S8.4 |
|
Mobile Malware Detection with Imbalanced Data using a Novel Synthetic Oversampling Strategy and Deep Learning |
| Ricardo, Manuel |
S6.3 |
|
UDMSim: A Simulation Platform for Underwater Data Muling Communications |
| Roose, Philippe |
STWiMob'2020: ST1.4 |
|
Proxemic Interactions in Mobile Devices to Avoid the Spreading of Infections |
| Rossberg, Michael |
S1.1 |
|
Robustness and Scalability Improvements for Distance Vector Routing in Large WMNs |
| Rossi, Michele |
S7.2 |
|
Mobility Prediction via Sequential Learning for 5G Mobile Networks |
| Rupp, Markus |
S5.4 |
|
Low-dimensional Representation Learning for Wireless CSI-based Localisation |
| CWN'20: C1.2 |
|
Cluster Formation in Scalable Cell-free Massive MIMO Networks |
| S A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Salihu, Artan |
S5.4 |
|
Low-dimensional Representation Learning for Wireless CSI-based Localisation |
| Sartori, Fabio |
WiMob-SPPDT'2020: SP.6 |
|
Rethinking the Design of Wearable Expert Systems: The Role of Network Infrastructures |
| Sarubbi, João |
S2.1 |
|
The Deployment of Roadside Units in Vehicular Networks Based on the V2I Connection Duration |
| Savi, Marco |
WiMob-SPPDT'2020: SP.6 |
|
Rethinking the Design of Wearable Expert Systems: The Role of Network Infrastructures |
| Schaefer, Guenter |
S1.1 |
|
Robustness and Scalability Improvements for Distance Vector Routing in Large WMNs |
| WiMob-SPPDT'2020: SP.3 |
|
Towards the Complexity of the Widest Path Problem in Hybrid Multi-Channel WMNs |
| Schiller, Eryk |
S4.2 |
|
Design and Evaluation of an SDR-based LoRa Cloud Radio Access Network |
| Schmidt, Christian |
S9.3 |
|
Joint Beamforming and PAPR Reduction in Massive MIMO: Analysis of Gain in Energy Efficiency |
| Schwarz, Stefan |
S5.4 |
|
Low-dimensional Representation Learning for Wireless CSI-based Localisation |
| CWN'20: C1.2 |
|
Cluster Formation in Scalable Cell-free Massive MIMO Networks |
| Seitz, Jochen |
CWN'20: C1.1 |
|
On-demand Quality-of-Service for Crucial Vehicle-to-Pedestrian Communication |
| Settembre, Marina |
ICT4PPRR'20: I1.1 |
|
Network slicing for Mission Critical communications |
| Sewalkar, Parag |
CWN'20: C1.1 |
|
On-demand Quality-of-Service for Crucial Vehicle-to-Pedestrian Communication |
| Shagdar, Oyunchimeg |
STWiMob'2020: ST2.2 |
|
Physical and MAC Layer Design for Active Signaling Schemes in Vehicular Networks |
| Shala, Mendrit |
CWN'20: C1.1 |
|
On-demand Quality-of-Service for Crucial Vehicle-to-Pedestrian Communication |
| Shami, Abdallah |
S7.4 |
|
Cost-optimal V2X Service Placement in Distributed Cloud/Edge Environment |
| Shan, Changsheng |
S6.1 |
|
Second Order Time-Frequency Modulation in Satellite High-Mobility Communications |
| Shang, Tao |
STWiMob'2020: ST3.2 |
|
Quality-of-experience-oriented network selection for indoor VLC heterogeneous networks |
| Sharda, Pranav |
S10.3 |
|
Diversity-Multiplexing Tradeoff for Indoor Visible Light Communication |
| Silva, Cristiano |
S2.1 |
|
The Deployment of Roadside Units in Vehicular Networks Based on the V2I Connection Duration |
| Spinacci, Luca |
ICT4PPRR'20: I1.1 |
|
Network slicing for Mission Critical communications |
| Stiller, Burkhard |
S4.2 |
|
Design and Evaluation of an SDR-based LoRa Cloud Radio Access Network |
| Sundararaman, Shivani |
S6.4 |
|
A Q-learning Approach for the Support of Reliable Transmission in the Internet of Underwater Things |
| T A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Tang, Tang |
STWiMob'2020: ST3.2 |
|
Quality-of-experience-oriented network selection for indoor VLC heterogeneous networks |
| Tawil, Rami |
S4.1 |
|
Radio Resource Optimization for Spectrum-Aware LoRa Secondary System |
| Teixeira, Filipe |
S6.3 |
|
UDMSim: A Simulation Platform for Underwater Data Muling Communications |
| Theil, Markus |
S1.1 |
|
Robustness and Scalability Improvements for Distance Vector Routing in Large WMNs |
| Thienot, Cédric |
S7.1 |
|
Broadcast-Multicast Single Frequency Network versus Unicast in Cellular Systems |
| Tiemann, Janis |
ICT4PPRR'20: I1.2 |
|
SKATES: Interoperable Multi-Connectivity Communication Module for Reliable Search and Rescue Robot Operation |
| ICT4PPRR'20: I1.4 |
|
CELIDON: Supporting First Responders through 3D AOA-based UWB Ad-Hoc Localization |
| Titouna, Chafiq |
S3.3 |
|
A Data Cleansing Approach In Smart Home Environments Using Artificial Neural Networks |
| S8.1 |
|
An Intelligent Malware Detection and Classification System Using Apps-to-Images Transformations and Convolutional Neural Networks |
| Tönjes, Ralf |
STWiMob'2020: ST2.1 |
|
Analysis of methods for prioritizing critical data transmissions in agricultural vehicular networks |
| Torelli, Francesco |
STWiMob'2020: ST1.2 |
|
Improving Health Information Exchange through Wireless Communication Protocols |
| Tourancheau, Bernard |
S4.3 |
|
Adaptive Data Rate for Multiple Gateways LoRaWAN® Networks |
| Tsipi, Lefteris |
S10.2 |
|
Machine Learning-Based Methods for Path Loss Prediction in Urban Environment for LTE Networks |
| Tsukamoto, Yukihiro |
S2.4 |
|
Multi-Lane Detection and Tracking Using Vision for Traffic Situation Awareness |
| U A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Urien, Pascal |
WiMob-SPPDT'2020: SP.2 |
|
Innovative Dynamic SRAM PUF Authentication for Trusted Internet of Things |
| V A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Vargas, Juan |
S7.1 |
|
Broadcast-Multicast Single Frequency Network versus Unicast in Cellular Systems |
| Verdecia-Peña, Randy |
CWN'20: C1.3 |
|
Analysis of A&F Mobile Relay Nodes with Power Control and Link Selection in HSR Scenarios |
| Vouyioukas, Demosthenes |
S10.2 |
|
Machine Learning-Based Methods for Path Loss Prediction in Urban Environment for LTE Networks |
| Vu, Vu |
S8.3 |
|
On the Latency of Multipath-QUIC in Real-time Applications |
| W A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Walker, Brenton |
S8.3 |
|
On the Latency of Multipath-QUIC in Real-time Applications |
| Wang, Jiawei |
S6.1 |
|
Second Order Time-Frequency Modulation in Satellite High-Mobility Communications |
| Weber, Silas |
S4.2 |
|
Design and Evaluation of an SDR-based LoRa Cloud Radio Access Network |
| Wietfeld, Christian |
ICT4PPRR'20: I1.4 |
|
CELIDON: Supporting First Responders through 3D AOA-based UWB Ad-Hoc Localization |
| ICT4PPRR'20: I1.2 |
|
SKATES: Interoperable Multi-Connectivity Communication Module for Reliable Search and Rescue Robot Operation |
| Y A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Yamaguchi, Hirozumi |
S2.4 |
|
Multi-Lane Detection and Tracking Using Vision for Traffic Situation Awareness |
| Z A B C D E F G H I J K L M N O P R S T U V W Y Z |
| Zaki, Yasir |
S6.2 |
|
Learning congestion over millimeter-wave channels |
| Zhan, Chuncai |
S6.1 |
|
Second Order Time-Frequency Modulation in Satellite High-Mobility Communications |
| Zhou, Fen |
STWiMob'2020: ST3.2 |
|
Quality-of-experience-oriented network selection for indoor VLC heterogeneous networks |
| Zverev, Mihail |
S3.4 |
|
And QUIC Meets IoT: Performance Assessment of MQTT over QUIC |
