Pulsed power technology,whereas the electrical energy stored in a relative long period is released in much shorter timescale,is an efficient method to create high energy density physics(HEDP)conditions in laboratory.A...Pulsed power technology,whereas the electrical energy stored in a relative long period is released in much shorter timescale,is an efficient method to create high energy density physics(HEDP)conditions in laboratory.Around the beginning of this century,China Academy of Engineering Physics(CAEP)began to build some experimental facilities for HEDP investigations,among which the Primary Test Stand(PTS),a multi-module pulsed power facility with a nominal current of 10 MA and a current rising time~90 ns,is an important achievement on the roadmap of the electro-magnetically driven inertial confinement fusion(ICF)researches.PTS is the first pulsed power facility beyond 10 TW in China.Therefore,all the technologies have to be demonstrated,and all the engineering issues have to be overcome.In this article,the research outline,key technologies and the preliminary HEDP experiments are reviewed.Prospects on HEDP research on PTS and pulsed power development for the next step are also discussed.展开更多
为进一步提高压缩感知重构算法的重构成功率和重构精度,从原子匹配准则和预选阶段原子选择方式的角度出发,提出一种基于Dice系数的弱选择回溯匹配追踪(weak-selection backtracking matching pursuit based on Dice coefficient,DWBMP)...为进一步提高压缩感知重构算法的重构成功率和重构精度,从原子匹配准则和预选阶段原子选择方式的角度出发,提出一种基于Dice系数的弱选择回溯匹配追踪(weak-selection backtracking matching pursuit based on Dice coefficient,DWBMP)算法.首先,采用Dice系数匹配准则度量两个向量之间的相似性,选出最匹配的原子,以优化支撑集;然后,结合回溯思想和弱选择思想剔除相似性较小的原子,完成预选阶段原子的二次筛选.MATLAB仿真结果显示,相同条件下,DWBMP算法较经典的压缩感知重构算法具有更优的重构精度和重构成功率.展开更多
In this paper, a new partial transmit sequence(PTS)scheme with low computational complexity is proposed for the problems of high computational complexity in the conventional PTS method. By analyzing the relationship...In this paper, a new partial transmit sequence(PTS)scheme with low computational complexity is proposed for the problems of high computational complexity in the conventional PTS method. By analyzing the relationship of candidate sequences in the PTS method under the interleaved partition method, it has been discovered that some candidate sequences generated by phase factor sequences have the same peak average power ratio(PAPR). Hence, phase factor sequences can be optimized to reduce their searching times. Then, the computational process of generating candidate sequences can be simplified by improving the utilization of data and minimizing the calculations of complex multiplication. The performance analysis shows that, compared with the conventional PTS scheme, the proposed approach significantly decreases the computational complexity and has no loss of PAPR performance.展开更多
针对时变信道环境下传统信道估计方法性能受限,其他基于深度学习的信道估计方法估计精度低或复杂度高的问题,提出一种基于长短期记忆结构的信道估计网络,由双向长短期记忆(bidirectional long short-term memory,BiLSTM)网络和多层感知...针对时变信道环境下传统信道估计方法性能受限,其他基于深度学习的信道估计方法估计精度低或复杂度高的问题,提出一种基于长短期记忆结构的信道估计网络,由双向长短期记忆(bidirectional long short-term memory,BiLSTM)网络和多层感知器(multilayer perceptron,MLP)网络组成,即BiLSTM-MLP.首先,利用BiLSTM网络来学习信道的时变特性;然后,利用MLP网络进行去噪并重构信道估计.仿真结果表明,所提出的信道估计方法与传统方法相比,性能提升明显,与同类型的基于深度学习的估计方法相比,复杂度较低且性能更优.此外,所提方法还具有对不同导频密度的鲁棒性.展开更多
文摘Pulsed power technology,whereas the electrical energy stored in a relative long period is released in much shorter timescale,is an efficient method to create high energy density physics(HEDP)conditions in laboratory.Around the beginning of this century,China Academy of Engineering Physics(CAEP)began to build some experimental facilities for HEDP investigations,among which the Primary Test Stand(PTS),a multi-module pulsed power facility with a nominal current of 10 MA and a current rising time~90 ns,is an important achievement on the roadmap of the electro-magnetically driven inertial confinement fusion(ICF)researches.PTS is the first pulsed power facility beyond 10 TW in China.Therefore,all the technologies have to be demonstrated,and all the engineering issues have to be overcome.In this article,the research outline,key technologies and the preliminary HEDP experiments are reviewed.Prospects on HEDP research on PTS and pulsed power development for the next step are also discussed.
文摘为进一步提高压缩感知重构算法的重构成功率和重构精度,从原子匹配准则和预选阶段原子选择方式的角度出发,提出一种基于Dice系数的弱选择回溯匹配追踪(weak-selection backtracking matching pursuit based on Dice coefficient,DWBMP)算法.首先,采用Dice系数匹配准则度量两个向量之间的相似性,选出最匹配的原子,以优化支撑集;然后,结合回溯思想和弱选择思想剔除相似性较小的原子,完成预选阶段原子的二次筛选.MATLAB仿真结果显示,相同条件下,DWBMP算法较经典的压缩感知重构算法具有更优的重构精度和重构成功率.
基金supported by the National Natural Science Foundation of China(6167309361370152)the Science and Technology Project of Shenyang(F16-205-1-01)
文摘In this paper, a new partial transmit sequence(PTS)scheme with low computational complexity is proposed for the problems of high computational complexity in the conventional PTS method. By analyzing the relationship of candidate sequences in the PTS method under the interleaved partition method, it has been discovered that some candidate sequences generated by phase factor sequences have the same peak average power ratio(PAPR). Hence, phase factor sequences can be optimized to reduce their searching times. Then, the computational process of generating candidate sequences can be simplified by improving the utilization of data and minimizing the calculations of complex multiplication. The performance analysis shows that, compared with the conventional PTS scheme, the proposed approach significantly decreases the computational complexity and has no loss of PAPR performance.
文摘针对时变信道环境下传统信道估计方法性能受限,其他基于深度学习的信道估计方法估计精度低或复杂度高的问题,提出一种基于长短期记忆结构的信道估计网络,由双向长短期记忆(bidirectional long short-term memory,BiLSTM)网络和多层感知器(multilayer perceptron,MLP)网络组成,即BiLSTM-MLP.首先,利用BiLSTM网络来学习信道的时变特性;然后,利用MLP网络进行去噪并重构信道估计.仿真结果表明,所提出的信道估计方法与传统方法相比,性能提升明显,与同类型的基于深度学习的估计方法相比,复杂度较低且性能更优.此外,所提方法还具有对不同导频密度的鲁棒性.