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 |
Ai, Bo |
IEEE WCNCW CmMmW5G 2018: WS2-III.1 |
278 |
Dynamic mmWave Beam Tracking for High Speed Railway Communications |
Akhtar, Anique |
WS1-IV.2 |
362 |
Downlink Resource Allocation and Packet Scheduling in Multi-Numerology Wireless Systems |
Alarcón, Eduard |
WS6-I.1 |
237 |
A Machine Learning-Based Approach for Virtual Network Function Modeling |
Ali-Tolppa, Janne |
WS3-II.4 |
143 |
Distributed Energy Saving Management in Multi-Layer 4G/5G Ultra-Dense Networks |
Almeida, Hyggo |
WS9-I.3 |
308 |
Enabling the First Step for IoT Health Systems using Antidote and IEEE 11073 |
Altman, Eitan |
WS3-I.3 |
31 |
Heuristic approach for forecast scheduling |
Altman, Zwi |
WS3-I.3 |
31 |
Heuristic approach for forecast scheduling |
WS3-II.2 |
131 |
SON for Mobile Backhaul |
Amadori, Pierluigi Vito |
WS2-I.1 |
107 |
A Mixed Integer Programming Approach to Interference Exploitation in Massive MIMO |
Andreu, Carlos |
WS9-II.4 |
390 |
Localization for Capsule Endoscopy at UWB Frequencies using an Experimental Multilayer Phantom |
Andrushko, Dmitriy |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
Ansari, Junaid |
WS4-II.1 |
149 |
An Empirical Study on Using D2D Relaying in 5G for Factory Automation |
Antevski, Kiril |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
WS8-II.2 |
344 |
Opportunities and Challenges of Joint Edge and Fog Orchestration |
Ardakani, Maryam |
WS7-I.4 |
37 |
Fast List Decoding of Polar Codes: Decoders for Additional Nodes |
Ardakani, Masoud |
WS7-I.4 |
37 |
Fast List Decoding of Polar Codes: Decoders for Additional Nodes |
Arnold, Paul |
WS1-II.3 |
214 |
The Path Towards Resource Elasticity for 5G Network Architecture |
Arslan, Huseyin |
WS1-IV.2 |
362 |
Downlink Resource Allocation and Packet Scheduling in Multi-Numerology Wireless Systems |
Ayaz, Serkan |
WS2-III.2 |
284 |
5G Multi-antenna V2V Channel Modeling with a 3D Game Engine |
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 |
Backman, Jere |
WS5-II.2 |
185 |
Creating Value Through Blockchain Powered Resource Configurations: Analysis of 5G Network Slice Brokering Case |
Bajzik, Lajos |
WS3-II.2 |
131 |
SON for Mobile Backhaul |
Bakhshi, Zeinab |
WS4-II.5 |
173 |
Industrial IoT Security Threats and Concerns by Considering CISCO and Microsoft IoT reference Models |
Balador, Ali |
WS4-II.5 |
173 |
Industrial IoT Security Threats and Concerns by Considering CISCO and Microsoft IoT reference Models |
Barbi, Martina |
WS9-II.3 |
384 |
Initial UWB in-body channel characterization using a novel multilayer phantom measurement setup |
WS9-II.4 |
390 |
Localization for Capsule Endoscopy at UWB Frequencies using an Experimental Multilayer Phantom |
Bauch, Gerhard |
WS7-I.1 |
7 |
Polar Code Construction using the Information Bottleneck Method |
Bauer, Bernhard |
WS3-I.2 |
13 |
SON Function Performance Prediction in a Cognitive SON Management System |
Ben Ameur, Wissal |
WS3-II.2 |
131 |
SON for Mobile Backhaul |
Ben Jemaa, Sana |
WS3-I.3 |
31 |
Heuristic approach for forecast scheduling |
Berg, Miguel |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
Berglund, Joel |
WS3-II.3 |
137 |
Predicting Strongest Cell on Secondary Carrier using Primary Carrier Data |
Bernardos, Carlos |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
Berry, Mark |
WS6-I.3 |
248 |
Resource-aware Routing and Scheduling in Multi-Radio Multi-Channel Wireless Mesh Networks |
Bhat, Jagadeesha |
WS1-II.2 |
208 |
An Efficient Module Deployment Algorithm in Edge Computing |
Bin Redhwan, Sakib |
WS3-II.1 |
125 |
Automatic Neighbor Relations (ANR) in 3GPP NR |
Bioglio, Valerio |
WS7-I.6 |
61 |
Polar Codes with Internal Edge Permutations |
Böcherer, Georg |
WS7-I.5 |
49 |
Flexible IR-HARQ Scheme for Polar-Coded Modulation |
Broadbent, Matthew |
WS1-II.1 |
202 |
Siren: A Platform for deploying Virtual Network Services in the Cloud to Fog Continuum |
Burg, Andreas |
WS7-I.7 |
73 |
Fast-SSC-Flip Decoding of Polar Codes |
Byrne, Dallan |
WS9-I.2 |
302 |
Data Fusion for Robust Indoor Localisation in Digital Health |
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 |
Cabellos-Aparicio, Albert |
WS6-I.1 |
237 |
A Machine Learning-Based Approach for Virtual Network Function Modeling |
Calafate, Carlos |
WS4-I.2 |
55 |
A Collision Avoidance Solution for UAVs Following Planned Missions |
Çalık, Mert |
WS1-IV.3 |
|
Density-aware Joint Optimization of Cell Scheduling and User Association |
Cano, Juan-Carlos |
WS4-I.2 |
55 |
A Collision Avoidance Solution for UAVs Following Planned Missions |
Cao, Zhanmao |
WS6-I.3 |
248 |
Resource-aware Routing and Scheduling in Multi-Radio Multi-Channel Wireless Mesh Networks |
Cardona, Narcis |
WS9-II.3 |
384 |
Initial UWB in-body channel characterization using a novel multilayer phantom measurement setup |
WS9-II.4 |
390 |
Localization for Capsule Endoscopy at UWB Frequencies using an Experimental Multilayer Phantom |
Casas, Pedro |
WS6-I.2 |
242 |
Machine Learning Models for Wireless Network Monitoring and Analysis |
Casas Melo, Victor |
WS4-I.3 |
67 |
On the impact of communication delays on UAVs flocking behavior |
Casetti, Claudio |
WS8-I.1 |
254 |
Network Slices for Vertical Industries |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Castelló-Palacios, Sergio |
WS9-II.3 |
384 |
Initial UWB in-body channel characterization using a novel multilayer phantom measurement setup |
Chang, Yeh-Cheng |
WS1-II.2 |
208 |
An Efficient Module Deployment Algorithm in Edge Computing |
Chang, Zheng |
WS5-I.4 |
95 |
Socially-Aware Content Delivery for Device-to-Device Communications Underlay Cellular Networks |
WS5-II.3 |
191 |
Energy-efficient Workload Offloading and Power Control in Vehicular Edge Computing |
Chatzinotas, Symeon |
WS5-I.3 |
89 |
Energy-Efficient Design for Latency-tolerant Content Delivery Networks |
Chen, Ying-Yu |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
Chen, Yu-Jia |
WS6-II.1 |
320 |
Learning-assisted Beam Search for Indoor mmWave Networks |
Chen, Zhi |
WS5-I.1 |
78 |
Optimal Caching Strategy in Device-to-Device Wireless Networks |
Cheng, Wei-Yuan |
WS6-II.1 |
320 |
Learning-assisted Beam Search for Indoor mmWave Networks |
Chiasserini, Carla Fabiana |
WS8-I.1 |
254 |
Network Slices for Vertical Industries |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Chien, Hsu Tung |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
Chiumento, Alessandro |
WS9-I.1 |
296 |
Building a connected BLE mesh: a network inference study |
Chundrigar, Shahzoob Bilal |
WS8-II.2 |
344 |
Opportunities and Challenges of Joint Edge and Fog Orchestration |
Coll-Perales, Baldomero |
WS2-III.3 |
290 |
Evaluation of IEEE 802.11ad for mmWave V2V Communications |
Cominardi, Luca |
WS8-II.2 |
344 |
Opportunities and Challenges of Joint Edge and Fog Orchestration |
Condo, Carlo |
WS7-I.2 |
19 |
Improved Successive Cancellation Flip Decoding of Polar Codes Based on Error Distribution |
Cöster, Rickard |
WS3-II.3 |
137 |
Predicting Strongest Cell on Secondary Carrier using Primary Carrier Data |
Craddock, Ian |
WS9-II.5 |
396 |
An Accelerometer Lossless Compression Algorithm and Energy Analysis for IoT Devices |
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 |
De Domenico, Antonio |
WS1-II.3 |
214 |
The Path Towards Resource Elasticity for 5G Network Architecture |
Deiss, Thomas |
WS8-I.1 |
254 |
Network Slices for Vertical Industries |
di Pietro, Nicola |
WS1-II.3 |
214 |
The Path Towards Resource Elasticity for 5G Network Architecture |
Diascorn, Vincent |
WS3-II.2 |
131 |
SON for Mobile Backhaul |
Ding, Genming |
WS9-II.2 |
379 |
Energy Efficient Human Activity Recognition Using Wearable Sensors |
Dönmez, Mehmet Yunus |
WS1-III.2 |
|
Metamorphic 5G Mobile Networks |
Duquennoy, Simon |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
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 |
Eisert, Jens |
WS2-I.3 |
119 |
Secure Massive IoT Using Hierarchical Fast Blind Deconvolution |
Elsts, Atis |
WS9-II.5 |
396 |
An Accelerometer Lossless Compression Algorithm and Energy Analysis for IoT Devices |
Emara, Mustafa |
WS8-II.3 |
350 |
MEC-aware Cell Association for 5G Heterogeneous Networks |
Engström, Stefan |
WS3-II.1 |
125 |
Automatic Neighbor Relations (ANR) in 3GPP NR |
Ercan, Furkan |
WS7-I.2 |
19 |
Improved Successive Cancellation Flip Decoding of Polar Codes Based on Error Distribution |
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 |
Fabra, Francisco |
WS4-I.2 |
55 |
A Collision Avoidance Solution for UAVs Following Planned Missions |
Faerber, Michael |
WS2-IV.1 |
368 |
Configurable Distributed Physical Downlink Control Channel for 5G New Radio: Resource Bundling and Diversity Trade-off |
Faragardi, Hamid Reza |
WS4-II.2 |
155 |
An Analytical Model for Deploying Mobile Sinks in Industrial Internet of Things |
Fawcett, Lyndon |
WS1-II.1 |
202 |
Siren: A Platform for deploying Virtual Network Services in the Cloud to Fog Continuum |
Fendt, Andrea |
WS3-I.2 |
13 |
SON Function Performance Prediction in a Cognitive SON Management System |
Ferrari, Riccardo |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
Filippou, Miltiadis |
WS8-II.3 |
350 |
MEC-aware Cell Association for 5G Heterogeneous Networks |
Fotouhi, Hossein |
WS4-II.2 |
155 |
An Analytical Model for Deploying Mobile Sinks in Industrial Internet of Things |
Frangoudis, Pantelis |
WS8-I.1 |
254 |
Network Slices for Vertical Industries |
Fritschek, Rick |
WS2-I.3 |
119 |
Secure Massive IoT Using Hierarchical Fast Blind Deconvolution |
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 |
Gao, Meilin |
WS2-III.1 |
278 |
Dynamic mmWave Beam Tracking for High Speed Railway Communications |
Garcia-Pardo, Concepcion |
WS9-II.3 |
384 |
Initial UWB in-body channel characterization using a novel multilayer phantom measurement setup |
WS9-II.4 |
390 |
Localization for Capsule Endoscopy at UWB Frequencies using an Experimental Multilayer Phantom |
Garcia-Roger, David |
WS2-III.2 |
284 |
5G Multi-antenna V2V Channel Modeling with a 3D Game Engine |
Garrido, Piedad |
WS6-II.3 |
332 |
On the use of Artificial Intelligence techniques in Intelligent Transportation Systems |
Gdowski, Robert |
WS8-II.2 |
344 |
Opportunities and Challenges of Joint Edge and Fog Orchestration |
Ghauch, Hadi |
WS6-II.2 |
326 |
Random Forests Resource Allocation for 5G Systems: Performance and Robustness Study |
Gholipoor, Narges |
WS1-IV.1 |
356 |
Cross-Layer Resource Allocation for Mixed Tactile Internet and Traditional Data in SCMA Based Wireless Networks |
Giard, Pascal |
WS7-I.7 |
73 |
Fast-SSC-Flip Decoding of Polar Codes |
González, Sergio |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
Gozalvez, Javier |
WS2-III.3 |
290 |
Evaluation of IEEE 802.11ad for mmWave V2V Communications |
Gramaglia, Marco |
WS1-II.3 |
214 |
The Path Towards Resource Elasticity for 5G Network Architecture |
Groß, Benedikt |
WS2-I.3 |
119 |
Secure Massive IoT Using Hierarchical Fast Blind Deconvolution |
Gross, James |
WS6-II.2 |
326 |
Random Forests Resource Allocation for 5G Systems: Performance and Robustness Study |
Gross, Warren |
WS7-I.2 |
19 |
Improved Successive Cancellation Flip Decoding of Polar Codes Based on Error Distribution |
Große-Kampmann, Matteo |
WS9-I.4 |
314 |
Threat Modeling for Mobile Health Systems |
Gruteser, Marco |
WS2-III.3 |
290 |
Evaluation of IEEE 802.11ad for mmWave V2V Communications |
Guerrero, Carmen |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Gunnarsson, Fredrik |
WS3-II.1 |
125 |
Automatic Neighbor Relations (ANR) in 3GPP NR |
WS3-II.3 |
137 |
Predicting Strongest Cell on Secondary Carrier using Primary Carrier Data |
Gupta, Shashank |
WS4-I.1 |
43 |
Cluster-Based D2D Architecture for Safety Services in Vehicular Ad Hoc Networks |
Gutierrez-Estevez, David |
WS1-II.3 |
214 |
The Path Towards Resource Elasticity for 5G Network Architecture |
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 |
Hahn, Sören |
WS3-I.1 |
1 |
Impact of SON Function Combinations on the KPI Behaviour in Realistic Mobile Network Scenarios |
Han, Ce |
WS5-II.1 |
179 |
Radio Network-aware Edge Caching for Video Delivery in MEC-enabled Cellular Networks |
Han, Zhu |
WS5-I.2 |
83 |
Mobile Social Media Networks Caching with Convolutional Neural Network |
Hanif, Muhammad |
WS7-I.4 |
37 |
Fast List Decoding of Polar Codes: Decoders for Additional Nodes |
Haxhibeqiri, Jetmir |
WS4-II.3 |
161 |
Time-Critical Communication in 6TiSCH Networks |
Hertlein, Markus |
WS9-I.4 |
314 |
Threat Modeling for Mobile Health Systems |
Hoebeke, Jeroen |
WS4-II.3 |
161 |
Time-Critical Communication in 6TiSCH Networks |
Holz, Thorsten |
WS9-I.4 |
314 |
Threat Modeling for Mobile Health Systems |
Hsu, Yi-Huai |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
Hu, Yun |
WS5-I.4 |
95 |
Socially-Aware Content Delivery for Device-to-Device Communications Underlay Cellular Networks |
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 |
Ibrahiem, Osamah |
WS8-II.2 |
344 |
Opportunities and Challenges of Joint Edge and Fog Orchestration |
Imtiaz, Sahar |
WS6-II.2 |
326 |
Random Forests Resource Allocation for 5G Systems: Performance and Robustness Study |
Iovanna, Paola |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Isaksson, Martin |
WS3-II.3 |
137 |
Predicting Strongest Cell on Secondary Carrier using Primary Carrier Data |
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 |
Ji, Hui |
WS1-I.1 |
101 |
Advancements of QoE Assessment and Optimization in Mobile Networks in the Machine Era |
Jimenez, Tania |
WS3-I.3 |
31 |
Heuristic approach for forecast scheduling |
Jones, Richard |
WS9-II.1 |
373 |
5G and Wireless Body Area Networks |
Jun, Tian |
WS9-II.2 |
379 |
Energy Efficient Human Activity Recognition Using Wearable Sensors |
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 |
Karaagac, Abdulkadir |
WS4-II.3 |
161 |
Time-Critical Communication in 6TiSCH Networks |
Karasz, Tamas |
WS3-II.2 |
131 |
SON for Mobile Backhaul |
Katzis, Konstantinos |
WS9-II.1 |
373 |
5G and Wireless Body Area Networks |
Khan, Jamil |
WS4-I.1 |
43 |
Cluster-Based D2D Architecture for Safety Services in Vehicular Ad Hoc Networks |
Khatibi, Sina |
WS1-II.3 |
214 |
The Path Towards Resource Elasticity for 5G Network Architecture |
Kolding, Troels |
WS1-I.1 |
101 |
Advancements of QoE Assessment and Optimization in Mobile Networks in the Machine Era |
Koudouridis, Georgios |
WS6-II.2 |
326 |
Random Forests Resource Allocation for 5G Systems: Performance and Robustness Study |
Kousaridas, Apostolos |
WS2-III.2 |
284 |
5G Multi-antenna V2V Channel Modeling with a 3D Game Engine |
Kozlowski, Michal |
WS9-I.2 |
302 |
Data Fusion for Robust Indoor Localisation in Digital Health |
Ksentini, Adlen |
WS8-I.1 |
254 |
Network Slices for Vertical Industries |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Kuo, Ping-Heng Wallace |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
WS8-II.2 |
344 |
Opportunities and Challenges of Joint Edge and Fog Orchestration |
Kürner, Thomas |
WS3-I.1 |
1 |
Impact of SON Function Combinations on the KPI Behaviour in Realistic Mobile Network Scenarios |
Kuzminskiy, Alexandr |
WS2-II.2 |
226 |
Good Neighbor Distributed Beam Scheduling in Coexisting Multi-RAT Networks |
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 |
Lagrange, Xavier |
WS2-II.3 |
231 |
Simple modeling of energy consumption for D2D relay mechanism |
Land, Ingmar |
WS7-I.6 |
61 |
Polar Codes with Internal Edge Permutations |
Landi, Giada |
WS8-I.1 |
254 |
Network Slices for Vertical Industries |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
Laselva, Daniela |
WS1-I.1 |
101 |
Advancements of QoE Assessment and Optimization in Mobile Networks in the Machine Era |
Lei, Lei |
WS5-I.3 |
89 |
Energy-Efficient Design for Latency-tolerant Content Delivery Networks |
Li, Chi-Yu |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
Li, Dapeng |
WS2-III.1 |
278 |
Dynamic mmWave Beam Tracking for High Speed Railway Communications |
Li, Emma Liying |
WS5-I.1 |
78 |
Optimal Caching Strategy in Device-to-Device Wireless Networks |
Li, Xi |
WS8-I.1 |
254 |
Network Slices for Vertical Industries |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Lima, Mateus |
WS9-I.3 |
308 |
Enabling the First Step for IoT Health Systems using Antidote and IEEE 11073 |
Liu, Lily |
WS1-I.1 |
101 |
Advancements of QoE Assessment and Optimization in Mobile Networks in the Machine Era |
Liu, Pengju |
WS5-II.3 |
191 |
Energy-efficient Workload Offloading and Power Control in Vehicular Edge Computing |
Liu, Yiru |
WS2-III.1 |
278 |
Dynamic mmWave Beam Tracking for High Speed Railway Communications |
Lohmüller, Simon |
WS3-I.2 |
13 |
SON Function Performance Prediction in a Cognitive SON Management System |
Lu, Chenguang |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
Luo, Ming |
WS5-II.1 |
179 |
Radio Network-aware Edge Caching for Video Delivery in MEC-enabled Cellular Networks |
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 |
Ma, Dongtang |
WS1-III.1 |
272 |
Deployment Algorithm for Minimum Unmanned Aerial Vehicles towards Optimal Coverage and Interconnections |
Ma, Guoyu |
WS2-III.1 |
278 |
Dynamic mmWave Beam Tracking for High Speed Railway Communications |
Machin, Mirialys |
WS6-II.3 |
332 |
On the use of Artificial Intelligence techniques in Intelligent Transportation Systems |
Mangues-Bafalluy, Josep |
WS8-I.1 |
254 |
Network Slices for Vertical Industries |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Manzoni, Pietro |
WS4-I.2 |
55 |
A Collision Avoidance Solution for UAVs Following Planned Missions |
Martín-Sacristán, David |
WS2-III.2 |
284 |
5G Multi-antenna V2V Channel Modeling with a 3D Game Engine |
Martinez, Francisco |
WS6-II.3 |
332 |
On the use of Artificial Intelligence techniques in Intelligent Transportation Systems |
Martini, Barbara |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Masouros, Christos |
WS2-I.1 |
107 |
A Mixed Integer Programming Approach to Interference Exploitation in Massive MIMO |
Mattina, Massimiliano |
WS1-I.1 |
101 |
Advancements of QoE Assessment and Optimization in Mobile Networks in the Machine Era |
Mestres, Albert |
WS6-I.1 |
237 |
A Machine Learning-Based Approach for Virtual Network Function Modeling |
Miao, Honglei |
WS2-IV.1 |
368 |
Configurable Distributed Physical Downlink Control Channel for 5G New Radio: Resource Bundling and Diversity Trade-off |
Mitschele-Thiel, Andreas |
WS4-I.3 |
67 |
On the impact of communication delays on UAVs flocking behavior |
Moerman, Ingrid |
WS4-II.3 |
161 |
Time-Critical Communication in 6TiSCH Networks |
Mokari, Nader |
WS1-IV.1 |
356 |
Cross-Layer Resource Allocation for Mixed Tactile Internet and Traditional Data in SCMA Based Wireless Networks |
Mollahasani, Shahram |
WS1-IV.3 |
|
Density-aware Joint Optimization of Cell Scheduling and User Association |
Molner, Nuria |
WS8-I.1 |
254 |
Network Slices for Vertical Industries |
Monserrat, Jose |
WS2-III.2 |
284 |
5G Multi-antenna V2V Channel Modeling with a 3D Game Engine |
Moosavi, Reza |
WS3-II.1 |
125 |
Automatic Neighbor Relations (ANR) in 3GPP NR |
Moscatelli, Francesca |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Mourad, Alain |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
WS8-II.2 |
344 |
Opportunities and Challenges of Joint Edge and Fog Orchestration |
Munz, Hubertus |
WS4-II.1 |
149 |
An Empirical Study on Using D2D Relaying in 5G for Factory Automation |
Murillo, Yuri |
WS9-I.1 |
296 |
Building a connected BLE mesh: a network inference study |
Mustafa, Jawad |
WS4-II.5 |
173 |
Industrial IoT Security Threats and Concerns by Considering CISCO and Microsoft IoT reference Models |
Mwanje, Stephen |
WS3-II.4 |
143 |
Distributed Energy Saving Management in Multi-Layer 4G/5G Ultra-Dense Networks |
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 |
Nascimento, Jose Luis |
WS9-I.3 |
308 |
Enabling the First Step for IoT Health Systems using Antidote and IEEE 11073 |
Navratil, David |
WS2-II.1 |
220 |
Challenges for Enabling Virtual Reality Broadcast Using 5G Small Cell Network |
Ngo, Duy |
WS4-I.1 |
43 |
Cluster-Based D2D Architecture for Safety Services in Vehicular Ad Hoc Networks |
Niu, Yong |
WS2-III.1 |
278 |
Dynamic mmWave Beam Tracking for High Speed Railway Communications |
Nossek, Josef |
WS2-I.2 |
113 |
Robust massive MIMO Equilization for mmWave systems with low resolution ADCs |
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 |
Oikonomou, George |
WS9-II.5 |
396 |
An Accelerometer Lossless Compression Algorithm and Energy Analysis for IoT Devices |
Onur, Ertan |
WS1-IV.3 |
|
Density-aware Joint Optimization of Cell Scheduling and User Association |
Ottersten, Björn |
WS5-I.3 |
89 |
Energy-Efficient Design for Latency-tolerant Content Delivery Networks |
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 |
Pascual, Iñaki |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
Peng, Shaoqin |
WS5-I.1 |
78 |
Optimal Caching Strategy in Device-to-Device Wireless Networks |
Pepe, Teresa |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Perez-Simbor, Sofia |
WS9-II.3 |
384 |
Initial UWB in-body channel characterization using a novel multilayer phantom measurement setup |
WS9-II.4 |
390 |
Localization for Capsule Endoscopy at UWB Frequencies using an Experimental Multilayer Phantom |
Perkusich, Angelo |
WS9-I.3 |
308 |
Enabling the First Step for IoT Health Systems using Antidote and IEEE 11073 |
Piechocki, Robert |
WS9-I.2 |
302 |
Data Fusion for Robust Indoor Localisation in Digital Health |
WS9-II.5 |
396 |
An Accelerometer Lossless Compression Algorithm and Energy Analysis for IoT Devices |
Pister, Kris |
WS4-II.4 |
167 |
Analysis of Low Latency TSCH Networks for Physical Event Detection |
Pohlmann, Norbert |
WS9-I.4 |
314 |
Threat Modeling for Mobile Health Systems |
Pollin, Sofie |
WS9-I.1 |
296 |
Building a connected BLE mesh: a network inference study |
Pope, James |
WS9-II.5 |
396 |
An Accelerometer Lossless Compression Algorithm and Energy Analysis for IoT Devices |
Prasad, Athul |
WS2-II.1 |
220 |
Challenges for Enabling Virtual Reality Broadcast Using 5G Small Cell Network |
Prinz, Tobias |
WS7-I.5 |
49 |
Flexible IR-HARQ Scheme for Polar-Coded Modulation |
Pu, Yi-Cian |
WS1-II.2 |
208 |
An Efficient Module Deployment Algorithm in Edge Computing |
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 |
Rabe, Fabian |
WS3-I.2 |
13 |
SON Function Performance Prediction in a Cognitive SON Management System |
Race, Nicholas |
WS1-II.1 |
202 |
Siren: A Platform for deploying Virtual Network Services in the Cloud to Fog Continuum |
Ramachandra, Pradeepa |
WS3-II.1 |
125 |
Automatic Neighbor Relations (ANR) in 3GPP NR |
Reynders, Brecht |
WS9-I.1 |
296 |
Building a connected BLE mesh: a network inference study |
Ristaniemi, Tapani |
WS5-I.4 |
95 |
Socially-Aware Content Delivery for Device-to-Device Communications Underlay Cellular Networks |
Roger, Sandra |
WS2-III.2 |
284 |
5G Multi-antenna V2V Channel Modeling with a 3D Game Engine |
Roth, Ingo |
WS2-I.3 |
119 |
Secure Massive IoT Using Hierarchical Fast Blind Deconvolution |
Roth, Kilian |
WS2-I.2 |
113 |
Robust massive MIMO Equilization for mmWave systems with low resolution ADCs |
Rydén, Henrik |
WS3-II.3 |
137 |
Predicting Strongest Cell on Secondary Carrier using Primary Carrier Data |
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 |
Sabella, Dario |
WS8-II.3 |
350 |
MEC-aware Cell Association for 5G Heterogeneous Networks |
Saeedi, Hamid |
WS1-IV.1 |
356 |
Cross-Layer Resource Allocation for Mixed Tactile Internet and Traditional Data in SCMA Based Wireless Networks |
Säily, Mikko |
WS2-II.1 |
220 |
Challenges for Enabling Virtual Reality Broadcast Using 5G Small Cell Network |
Sanguesa, Julio A. |
WS6-II.3 |
332 |
On the use of Artificial Intelligence techniques in Intelligent Transportation Systems |
Santos, Danilo |
WS9-I.3 |
308 |
Enabling the First Step for IoT Health Systems using Antidote and IEEE 11073 |
Santos-Rodriguez, Raul |
WS9-I.2 |
302 |
Data Fusion for Robust Indoor Localisation in Digital Health |
Schindler, Craig |
WS4-II.4 |
167 |
Analysis of Low Latency TSCH Networks for Physical Event Detection |
Schmelz, Lars Christoph |
WS3-I.2 |
13 |
SON Function Performance Prediction in a Cognitive SON Management System |
Schweins, Michael |
WS3-I.1 |
1 |
Impact of SON Function Combinations on the KPI Behaviour in Realistic Mobile Network Scenarios |
Schwoerer, Jean |
WS2-II.3 |
231 |
Simple modeling of energy consumption for D2D relay mechanism |
Serrano, Nicolás |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
Serrano, Pablo |
WS1-II.3 |
214 |
The Path Towards Resource Elasticity for 5G Network Architecture |
Shah, Kunjan |
WS1-II.3 |
214 |
The Path Towards Resource Elasticity for 5G Network Architecture |
Shah, Syed Aizaz Ali |
WS7-I.1 |
7 |
Polar Code Construction using the Information Bottleneck Method |
Sheu, Jang-Ping |
WS1-II.2 |
208 |
An Efficient Module Deployment Algorithm in Edge Computing |
Spapis, Panagiotis |
WS2-III.2 |
284 |
5G Multi-antenna V2V Channel Modeling with a 3D Game Engine |
Stark, Maximilian |
WS7-I.1 |
7 |
Polar Code Construction using the Information Bottleneck Method |
Steiner, Fabian |
WS7-I.5 |
49 |
Flexible IR-HARQ Scheme for Polar-Coded Modulation |
Sundararajan, Arvind |
WS4-II.4 |
167 |
Analysis of Low Latency TSCH Networks for Physical Event Detection |
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 |
Tafazolli, Rahim |
WS2-II.2 |
226 |
Good Neighbor Distributed Beam Scheduling in Coexisting Multi-RAT Networks |
Tan, Xianing |
WS5-I.1 |
78 |
Optimal Caching Strategy in Device-to-Device Wireless Networks |
Tan, Yiming |
WS5-II.1 |
179 |
Radio Network-aware Edge Caching for Video Delivery in MEC-enabled Cellular Networks |
Trifonov, Peter |
WS7-I.3 |
25 |
Randomized chained polar subcodes |
Tsai, Kuo Chun |
WS5-I.2 |
83 |
Mobile Social Media Networks Caching with Convolutional Neural Network |
Tsolkas, Dimitris |
WS1-II.3 |
214 |
The Path Towards Resource Elasticity for 5G Network Architecture |
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 |
Uusitalo, Mikko |
WS2-II.1 |
220 |
Challenges for Enabling Virtual Reality Broadcast Using 5G Small Cell Network |
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 |
Vafeas, Antonis |
WS9-II.5 |
396 |
An Accelerometer Lossless Compression Algorithm and Energy Analysis for IoT Devices |
Vahabi, Maryam |
WS4-II.2 |
155 |
An Analytical Model for Deploying Mobile Sinks in Industrial Internet of Things |
Valcarenghi, Luca |
WS8-I.2 |
260 |
Service Orchestration and Federation for Verticals |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Valtanen, Kristiina |
WS5-II.2 |
185 |
Creating Value Through Blockchain Powered Resource Configurations: Analysis of 5G Network Slice Brokering Case |
Vargas Anamuro, Cesar |
WS2-II.3 |
231 |
Simple modeling of energy consumption for D2D relay mechanism |
Varsier, Nadège |
WS2-II.3 |
231 |
Simple modeling of energy consumption for D2D relay mechanism |
Vincze, Zoltán |
WS3-II.2 |
131 |
SON for Mobile Backhaul |
Vu, Thang |
WS5-I.3 |
89 |
Energy-Efficient Design for Latency-tolerant Content Delivery Networks |
Vulkán, Csaba |
WS3-II.2 |
131 |
SON for Mobile Backhaul |
Vuppala, Satyanarayana |
WS5-I.3 |
89 |
Energy-Efficient Design for Latency-tolerant Content Delivery Networks |
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 |
Wang, Haijun |
WS1-III.1 |
272 |
Deployment Algorithm for Minimum Unmanned Aerial Vehicles towards Optimal Coverage and Interconnections |
Wang, Lan |
WS5-II.4 |
197 |
Data preprocessing in tandem mass spectra based on SVM |
Wang, Li |
WS5-I.2 |
83 |
Mobile Social Media Networks Caching with Convolutional Neural Network |
Wang, Li-Chun |
WS6-II.1 |
320 |
Learning-assisted Beam Search for Indoor mmWave Networks |
Wang, Taotao |
WS5-II.4 |
197 |
Data preprocessing in tandem mass spectra based on SVM |
Wang, Yongqiang |
WS6-I.3 |
248 |
Resource-aware Routing and Scheduling in Multi-Radio Multi-Channel Wireless Mesh Networks |
Weber, Arne |
WS1-I.1 |
101 |
Advancements of QoE Assessment and Optimization in Mobile Networks in the Machine Era |
Wei, Ji-Bo |
WS1-III.1 |
272 |
Deployment Algorithm for Minimum Unmanned Aerial Vehicles towards Optimal Coverage and Interconnections |
Wu, Chase |
WS6-I.3 |
248 |
Resource-aware Routing and Scheduling in Multi-Radio Multi-Channel Wireless Mesh Networks |
Wu, Jinsong |
WS9-II.2 |
379 |
Energy Efficient Human Activity Recognition Using Wearable Sensors |
Wunder, Gerhard |
WS2-I.3 |
119 |
Secure Massive IoT Using Hierarchical Fast Blind Deconvolution |
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, Pei |
WS2-II.2 |
226 |
Good Neighbor Distributed Beam Scheduling in Coexisting Multi-RAT Networks |
Xie, Dandan |
WS5-II.4 |
197 |
Data preprocessing in tandem mass spectra based on SVM |
Xie, Lili |
WS9-II.2 |
379 |
Energy Efficient Human Activity Recognition Using Wearable Sensors |
Xu, Chen |
WS5-I.4 |
95 |
Socially-Aware Content Delivery for Device-to-Device Communications Underlay Cellular Networks |
WS5-II.3 |
191 |
Energy-efficient Workload Offloading and Power Control in Vehicular Edge Computing |
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 |
Yang, Alex |
WS4-II.4 |
167 |
Analysis of Low Latency TSCH Networks for Physical Event Detection |
Yen, Li-Hsing |
WS8-II.2 |
344 |
Opportunities and Challenges of Joint Edge and Fog Orchestration |
Yrjölä, Seppo |
WS5-II.2 |
185 |
Creating Value Through Blockchain Powered Resource Configurations: Analysis of 5G Network Slice Brokering Case |
Yuan, Peihong |
WS7-I.5 |
49 |
Flexible IR-HARQ Scheme for Polar-Coded Modulation |
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 |
Zaaraoui, Hind |
WS3-I.3 |
31 |
Heuristic approach for forecast scheduling |
Zabala, Aitor |
WS8-II.1 |
338 |
An Integrated Edge and Fog System for Future Communication Networks |
WS8-II.2 |
344 |
Opportunities and Challenges of Joint Edge and Fog Orchestration |
Zennaro, Giuliana |
WS8-I.3 |
266 |
5G Mobile Transport and Computing Platform for verticals |
Zetterberg, Kristina |
WS3-II.1 |
125 |
Automatic Neighbor Relations (ANR) in 3GPP NR |
Zhang, Shengli |
WS5-II.4 |
197 |
Data preprocessing in tandem mass spectra based on SVM |
Zhang, Xing |
WS5-II.1 |
179 |
Radio Network-aware Edge Caching for Video Delivery in MEC-enabled Cellular Networks |
Zhang, Yan |
WS5-II.3 |
191 |
Energy-efficient Workload Offloading and Power Control in Vehicular Edge Computing |
Zhang, Zhewei |
WS2-III.1 |
278 |
Dynamic mmWave Beam Tracking for High Speed Railway Communications |
Zhao, Haitao |
WS1-III.1 |
272 |
Deployment Algorithm for Minimum Unmanned Aerial Vehicles towards Optimal Coverage and Interconnections |
Zhao, Philip Guodong |
WS5-I.1 |
78 |
Optimal Caching Strategy in Device-to-Device Wireless Networks |
Zhao, Qian |
WS9-II.2 |
379 |
Energy Efficient Human Activity Recognition Using Wearable Sensors |
Zhong, Zhangdui |
WS2-III.1 |
278 |
Dynamic mmWave Beam Tracking for High Speed Railway Communications |
Zhou, Chan |
WS2-III.2 |
284 |
5G Multi-antenna V2V Channel Modeling with a 3D Game Engine |
Zhou, Li |
WS1-III.1 |
272 |
Deployment Algorithm for Minimum Unmanned Aerial Vehicles towards Optimal Coverage and Interconnections |
Zhou, Xiang |
WS5-II.1 |
179 |
Radio Network-aware Edge Caching for Video Delivery in MEC-enabled Cellular Networks |
Zhou, Zhenyu |
WS5-I.4 |
95 |
Socially-Aware Content Delivery for Device-to-Device Communications Underlay Cellular Networks |
WS5-II.3 |
191 |
Energy-efficient Workload Offloading and Power Control in Vehicular Edge Computing |
Zhou, Zhongyu |
WS5-II.4 |
197 |
Data preprocessing in tandem mass spectra based on SVM |