핵심 개념
Investigating energy-efficient hybrid beamforming design for integrated sensing, communications, and powering systems.
초록
This paper explores the design of energy-efficient hybrid beamforming for a multi-functional system that integrates sensing, communication, and wireless power transfer. The study focuses on optimizing power consumption while meeting performance requirements in communication rates, sensing accuracy, and harvested power levels. The content delves into the challenges of non-linear power amplifier efficiency and on-off control of RF chains and phase shifters in the context of hybrid beamforming.
The research proposes a novel architecture for the base station transmitter to enable dynamic on-off control of RF chains and analog phase shifters. It formulates an optimization problem to minimize total power consumption while ensuring performance constraints. The study employs techniques like alternating optimization, sequential convex approximation, and semi-definite relaxation to tackle the non-convex optimization problem.
Key Highlights:
- Investigating energy-efficient hybrid beamforming for multi-functional systems.
- Novel architecture design for dynamic on-off control at the base station transmitter.
- Optimization problem formulation considering non-linear PA efficiency and binary on-off power consumption.
- Proposed iterative algorithm using alternating optimization techniques.
- Numerical results demonstrating improved energy efficiency compared to benchmark schemes.
통계
To facilitate the energy-efficient ISCAP design, we consider a comprehensive power consumption model for the BS by taking into account practical non-linear PA efficiency.
The total harvested DC power at ER j is modeled as PDCj(F,{wk},S) = Ψj(F,{wk},S) - MjΩj/(1 - Ωj).
인용구
"The proposed design achieves an improved energy efficiency for ISCAP than other benchmark schemes without joint design of hybrid beamforming."
"This validates the benefit of dynamic on-off control in energy reduction."