The workshop will take place on Sunday the 21st of May 2017.
In room 242B.
Sunday, May 21, 09:00 - 10:30
WS02.1: Session #1
Chair: Marco Maso (Mathematical and Algorithmic Sciences Lab, Huawei France Research Center, France)
Session starts with a 45 min keynote by Prof. Vincent Lau (HKUST)
Title: Mission-Critical Control with Energy Harvesting Sensors
- 09:45 Wireless-Powered Cooperative Multi-Relay Networks with Relay Selection
- 10:00 Decode-and-Forward Two-Path Successive Relaying with Wireless Energy Harvesting
- 10:15 Utility Maximization Models for Two-Hop Energy Relaying in Practical RF Harvesting Networks
Sunday, May 21, 11:00 - 12:30
WS02.2: Session #2
Chair: Marco Maso (Mathematical and Algorithmic Sciences Lab, Huawei France Research Center, France)
Session starts with a 45 min keynote by Prof. Sennur Ulukus (University of Maryland)
Title: Energy Harvesting in IoT Networks: Recent Results and Future Directions
- 11:45 Energy Harvesting in Delay-Aware Cognitive Shared Access Networks
- 12:00 Optimization of Base Stations Density for Hybrid Energy Based 3-D Wireless Networks
- 12:15 Simultaneous Information and Power Transfer under a Non-Linear RF Energy Harvesting Model
Sunday, May 21, 14:00 - 15:30
WS02.3: Session #3
Chair: Axel Müller (Huawei Technologies, France)
Session concludes with a 45 min demonstration (RF Energy Powered Charging Station for Smartphones), by Prof. Dong In Kim (Sungkyunkwan University).
- 14:00 Wireless Information and Energy Transfer under Temperature Constraints
- 14:15 Towards self-control of service rate for battery management in energy harvesting devices
- 14:30 Simultaneously Charging Multiple Sensor Nodes in Multi-Antenna Wireless-Powered Sensor Networks
Sunday, May 21, 16:00 - 17:30
WS02.4: Session #4
Chair: Axel Müller (Huawei Technologies, France)
Session starts with a 45 min keynote by Prof. Arumugam Nallanathan (King's College London):
Title: Energy Harvesting in Wireless Networks: Challenges, Opportunities and Research Trends
- 16:45 Joint Optimization of Cognitive RF Energy Harvesting and Channel Access using Markovian Multi-Armed Bandit Problem
- 17:00 Optimal Deployment for Roadside Wireless Charger with Bounded Detouring Cost