Abstract
Multiple objective function with beamforming techniques by algorithms have been studied for the Simultaneous Wireless Information and Power Transfer (SWIPT) technology at millimeter wave. Using the feed length to adjust the phase for different objects of SWIPT with Bit Error Rate (BER) and Harvesting Power (HP) are investigated in the broadband communication. Symmetrical antenna array is useful for omni bearing beamforming adjustment with multiple receivers. Self-Adaptive Dynamic Differential Evolution (SADDE) and Asynchronous Particle Swarm Optimization (APSO) are used to optimize the feed length of the antenna array. Two different object functions are proposed in the paper. The first one is the weighting factor multiplying the constraint BER and HP plus HP. The second one is the constraint BER multiplying HP. Simulations show that the first object function is capable of optimizing the total harvesting power under the BER constraint and APSO can quickly converges quicker than SADDE. However, the weighting for the final object function requires a pretest in advance, whereas the second object function does not need to set the weighting case by case and the searching is more efficient than the first one. From the numerical results, the proposed criterion can achieve the SWIPT requirement. Thus, we can use the novel proposed criterion (the second criterion) to optimize the SWIPT problem without testing the weighting case by case.
Highlights
Since Internet of Things (IoT) devices are deployed at fixed locations and low-power environments, the wireless harvesting power has been investigated for IoT recently
The Bit Error Rate (BER) performance shall be considered in the wireless wideband communication system due to the frequency selective effect of the multipath channel and Inter Symbol Interference (ISI) rather than
We introduce different objective functions for the BER
Summary
The exponential growth of wireless devices has been developed quickly with the Internet of Things (IoT) in recent years. Since IoT devices are deployed at fixed locations and low-power environments, the wireless harvesting power has been investigated for IoT recently To achieve this goal, a combination of millimeter wave (mmWave) communication and energy harvesting for SWIPT had been studied in [7,8,9,10,11,12,13,14,15,16,17,18,19,20]. In [21], multiple objective functions were considered to optimize the communication quality, but the authors need to find the best weighting in advance for those cases. We introduce different objective functions for the BER and power harvesting efficiency for a wideband circular array SWIPT system. The conclusion section summarizes the key points of this paper
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