Technical Program (final)
Time | Session |
Sunday, May 21 |
|
09:00 am-09:05 am | Opening |
09:05 am-09:35 am | Keynote 1 |
09:35 am-10:30 am | Oral AM 1 |
10:30 am-11:00 am | Coffee Break AM |
11:00 am-12:30 pm | Oral AM 2 |
12:30 pm-02:00 pm | Lunch Break |
02:00 pm-02:30 pm | Keynote 2 |
02:30 pm-03:30 pm | Oral PM 1 |
03:30 pm-04:00 pm | Coffee Break PM |
04:00 pm-04:30 pm | Oral PM 2 |
04:30 pm-05:30 pm | Panel discussion |
Sunday, May 21, 09:00 - 09:05, Opening
Sunday, May 21, 09:05 - 09:35, Keynote 1
SDN & NFV : new security challenges & expected transformation
Dr. Emmanuel Dotaro,Thales Secure Communications & Information Systems
Sunday, May 21, 09:35 - 10:30, Oral AM 1 (15 mins / paper)
Propagation & signal processing
- Millimeter Wave MIMO Channel Estimation Based on Adaptive Compressed Sensing
- Using Predictor Antennas for the Prediction of Small-scale Fading Provides an Order-of-Magnitude Improvement of Prediction Horizons
- Noise Variance Estimation for 5G Wireless Networks under Pilot Contamination
Sunday, May 21, 10:30 - 11:00
Coffee Break AM
Sunday, May 21, 11:00 - 12:30, Oral AM 2 (15 mins / paper)
Fronthaul & Backhaul
- Traffic Adaptive Formation of mmWave Meshed Backhaul Networks
-
Empirical Investigation of IEEE 802.11ad Network -
Resource Allocation for Self-Backhauled Networks with Half-duplex Small Cells -
Low Frequency Assist for mmWave Backhaul - The case for SDN resiliency mechanisms -
Performance Improvement for OFDM-RoF Transported 60 GHz System using Spatial Diversity and Multiplexing
Sunday, May 21, 12:30 - 14:00
Lunch Break
Sunday, May 21, 14:00 - 14:30, Keynote 2
Enabling determinism in converged Operational Networks
Dr. Pascal Thubert, Cisco
Sunday, May 21, 14:30 - 15:30, Oral PM 1 (15 mins / paper)
MEC & Networking
- Enabling effective mobile edge computing using millimeter wave links
-
Power Efficient RACH mechanism for Dense IoT Deployment -
Throughput Analysis of Cooperative Multi-Hop Underlay CRNs with Incremental Relaying
Sunday, May 21, 15:30 - 16:00
Coffee Break PM
Sunday, May 21, 16:00 - 16:30, Oral PM 2 (15 mins / paper)
Control channel
- A Control method for autonomous mobility management systems toward 5G mobile networks
-
Control Channel Enhancements for Ultra-Reliable Low-Latency Communications