Project Objective
The objective of this year’s proposed research is to model and solve various optimization problems on the witricity charging protocols in WSNs. WSNs monitor physical or environmental conditions with spatially distributed autonomous sensor devices. A sensor is a tiny computer with extremely limited computational capacity, memory size, data transmission capacity, and battery power. It is widely accepted that the batteries on the sensors are hard or very expensive to recharge. Due to the limited battery power in each sensor, energy efficiency has been one of the most critical factors in existing WSN protocols, and many aspects of network performance are sacrificed in those protocols. To eliminate the energy constraint from a WSN, we propose research on witricity charging protocols in wireless sensor networks. The proposed research will include a witricity charging protocol for multi-hop power transmission from the power source to the power capturing device as shown in Figure 1. A witricity charging protocol is much more than simple witricity passing between sensors. Rather, it is coordinated energy passing between a large number of sensors with minimal energy leakage and, if charging is limited, maximizing the network lifetime. The energy transmission efficiency indicates how much energy is leaked during the witricity transmission.
This project is designed based on the outcomes of the previous year’s CREU project. The object of the last year’s project was to integrate a wireless electricity (witricity) charging technique into wireless sensor networks (WSNs) into a WSN while minimizing energy leakage and maximizing network lifetime. Upon successful completion of this research, researchers in the WSN field will be able to focus more on improving WSN performances than on considering the energy constraints in sensor devices.