To improve the quality of the illumination distribution,one novel indoor visible light communication(VLC)system,which is jointly assisted by the angle-diversity transceivers and simultaneous transmission and reflectio...To improve the quality of the illumination distribution,one novel indoor visible light communication(VLC)system,which is jointly assisted by the angle-diversity transceivers and simultaneous transmission and reflection-intelligent reflecting surface(STAR-IRS),has been proposed in this work.A Harris Hawks optimizer algorithm(HHOA)-based two-stage alternating iteration algorithm(TSAIA)is presented to jointly optimize the magnitude and uniformity of the received optical power.Besides,to demonstrate the superiority of the proposed strategy,several benchmark schemes are simulated and compared.Results showed that compared to other optimization strategies,the TSAIA scheme is more capable of balancing the average value and variance of the received optical power,when the maximal ratio combining(MRC)strategy is adopted at the receiver.Moreover,as the number of the STAR-IRS elements increases,the optical power variance of the system optimized by TSAIA scheme would become smaller while the average optical power would get larger.This study will benefit the design of received optical power distribution for indoor VLC systems.展开更多
This paper proposes a dual alternative iter-ation algorithm-based hierarchical MPC(DAMPC)strategy to realize frequency regulation control and active power allocation of wind-storage coupling system.The proposed DAMPC ...This paper proposes a dual alternative iter-ation algorithm-based hierarchical MPC(DAMPC)strategy to realize frequency regulation control and active power allocation of wind-storage coupling system.The proposed DAMPC strategy involves a top-level grid fre-quency model predictive control(FMPC)strategy and a bottom-level multi-objective model predictive control(MMPC)strategy.In the FMPC strategy,to improve the frequency regulation performance,the active power ref-erence of the wind-storage coupling system is generated by minimizing the frequency deviation,where the fre-quency reference is calculated by considering the active power deviation and its integral.In the MMPC strategy,the active power reference is optimally allocated to the wind turbine generators(WTGs)and battery energy storage system(BESS)by raising the minimum rotor speed,minimizing the pitch angle deviation and state of charge(SOC)deviation.To solve the multi-objective al-location optimization problem with high efficiency,a dual alternative iteration algorithm(DAIA)is proposed to update the global and local control vectors with the dual vector.Extensive simulations validate the effectiveness of the proposed DAMPC strategy in frequency regulation and active power allocation.展开更多
In[3],Chan and Wong proposed to use total variational regularization for both images and point spread functions in blind deconvolution.Their experimental results show that the detail of the restored images cannot be r...In[3],Chan and Wong proposed to use total variational regularization for both images and point spread functions in blind deconvolution.Their experimental results show that the detail of the restored images cannot be recovered.In this paper,we consider images in Lipschitz spaces,and propose to use Lipschitz regularization for images and total variational regularization for point spread functions in blind deconvolution.Our experimental results show that such combination of Lipschitz and total variational regularization methods can recover both images and point spread functions quite well.展开更多
基金supported by the National Natural Science Foundation of China(No.62071365)the Key Research and Development Program of Shaanxi Province(No.2017ZDCXL-GY-06-02).
文摘To improve the quality of the illumination distribution,one novel indoor visible light communication(VLC)system,which is jointly assisted by the angle-diversity transceivers and simultaneous transmission and reflection-intelligent reflecting surface(STAR-IRS),has been proposed in this work.A Harris Hawks optimizer algorithm(HHOA)-based two-stage alternating iteration algorithm(TSAIA)is presented to jointly optimize the magnitude and uniformity of the received optical power.Besides,to demonstrate the superiority of the proposed strategy,several benchmark schemes are simulated and compared.Results showed that compared to other optimization strategies,the TSAIA scheme is more capable of balancing the average value and variance of the received optical power,when the maximal ratio combining(MRC)strategy is adopted at the receiver.Moreover,as the number of the STAR-IRS elements increases,the optical power variance of the system optimized by TSAIA scheme would become smaller while the average optical power would get larger.This study will benefit the design of received optical power distribution for indoor VLC systems.
文摘This paper proposes a dual alternative iter-ation algorithm-based hierarchical MPC(DAMPC)strategy to realize frequency regulation control and active power allocation of wind-storage coupling system.The proposed DAMPC strategy involves a top-level grid fre-quency model predictive control(FMPC)strategy and a bottom-level multi-objective model predictive control(MMPC)strategy.In the FMPC strategy,to improve the frequency regulation performance,the active power ref-erence of the wind-storage coupling system is generated by minimizing the frequency deviation,where the fre-quency reference is calculated by considering the active power deviation and its integral.In the MMPC strategy,the active power reference is optimally allocated to the wind turbine generators(WTGs)and battery energy storage system(BESS)by raising the minimum rotor speed,minimizing the pitch angle deviation and state of charge(SOC)deviation.To solve the multi-objective al-location optimization problem with high efficiency,a dual alternative iteration algorithm(DAIA)is proposed to update the global and local control vectors with the dual vector.Extensive simulations validate the effectiveness of the proposed DAMPC strategy in frequency regulation and active power allocation.
基金This research is supported in part by RGC 7046/03P,7035/04P,7035/05P and HKBU FRGs.
文摘In[3],Chan and Wong proposed to use total variational regularization for both images and point spread functions in blind deconvolution.Their experimental results show that the detail of the restored images cannot be recovered.In this paper,we consider images in Lipschitz spaces,and propose to use Lipschitz regularization for images and total variational regularization for point spread functions in blind deconvolution.Our experimental results show that such combination of Lipschitz and total variational regularization methods can recover both images and point spread functions quite well.
