分块压缩感知(BCS)适用于图像信号的压缩感知(CS)处理.当采样率较低时,BCS迭代阈值投影(BCS-SPL)算法对图像纹理部分重构质量差,针对此不足,提出基于全变差分自适应采样率BCS正交匹配追踪(Total Variation based Sampling Adaptive Bloc...分块压缩感知(BCS)适用于图像信号的压缩感知(CS)处理.当采样率较低时,BCS迭代阈值投影(BCS-SPL)算法对图像纹理部分重构质量差,针对此不足,提出基于全变差分自适应采样率BCS正交匹配追踪(Total Variation based Sampling Adaptive Block Compressed Sensing w ith OM P,TVSA-BCS-OM P)算法,该算法对图像重叠分块以消除重构结果的块效应,根据图像子块的纹理复杂度自适应分配采样率,并且子块的纹理复杂度用各自的全变差分进行测量,从而全变差分较大的子块可获得更高采样率.各子块由纹理分配采样率保留变换域下的非零系数,分别进行CS采样以及OMP重构.实验结果显示,当图像初始采样率较低(低于0.2)时,TVSA-BCS-OMP算法的重构精度始终高于BCS-SPL算法,特别是对图像纹理块的重构质量更高,并且前者的重构时间比后者更低.展开更多
When the fundamental frequency is shifting, it is hard for traditional repetitive controller to work at the resonant frequencies. In this paper, a novel adaptive repetitive controller for power factor correction syste...When the fundamental frequency is shifting, it is hard for traditional repetitive controller to work at the resonant frequencies. In this paper, a novel adaptive repetitive controller for power factor correction systems is proposed to suppress the current harmonics. Through the controller, the shifting sampling times of the repetitive controller in a fundamental period can be obtained. Mathematical analysis, simulations and physical experiments have validated the effectiveness of the adaptive repetitive controller.展开更多
文摘分块压缩感知(BCS)适用于图像信号的压缩感知(CS)处理.当采样率较低时,BCS迭代阈值投影(BCS-SPL)算法对图像纹理部分重构质量差,针对此不足,提出基于全变差分自适应采样率BCS正交匹配追踪(Total Variation based Sampling Adaptive Block Compressed Sensing w ith OM P,TVSA-BCS-OM P)算法,该算法对图像重叠分块以消除重构结果的块效应,根据图像子块的纹理复杂度自适应分配采样率,并且子块的纹理复杂度用各自的全变差分进行测量,从而全变差分较大的子块可获得更高采样率.各子块由纹理分配采样率保留变换域下的非零系数,分别进行CS采样以及OMP重构.实验结果显示,当图像初始采样率较低(低于0.2)时,TVSA-BCS-OMP算法的重构精度始终高于BCS-SPL算法,特别是对图像纹理块的重构质量更高,并且前者的重构时间比后者更低.
基金the National Natural Science Foundation of China(No.61463037)the Technology Project of Education Department of Jiangxi(No.GJJ14531)the Science&Technology Project of Jiangxi(No.2010BGA01000)
文摘When the fundamental frequency is shifting, it is hard for traditional repetitive controller to work at the resonant frequencies. In this paper, a novel adaptive repetitive controller for power factor correction systems is proposed to suppress the current harmonics. Through the controller, the shifting sampling times of the repetitive controller in a fundamental period can be obtained. Mathematical analysis, simulations and physical experiments have validated the effectiveness of the adaptive repetitive controller.