The random forest algorithm was applied to study the nuclear binding energy and charge radius.The regularized root-mean-square of error(RMSE)was proposed to avoid overfitting during the training of random forest.RMSE ...The random forest algorithm was applied to study the nuclear binding energy and charge radius.The regularized root-mean-square of error(RMSE)was proposed to avoid overfitting during the training of random forest.RMSE for nuclides with Z,N>7 is reduced to 0.816 MeV and 0.0200 fm compared with the six-term liquid drop model and a three-term nuclear charge radius formula,respectively.Specific interest is in the possible(sub)shells among the superheavy region,which is important for searching for new elements and the island of stability.The significance of shell features estimated by the so-called shapely additive explanation method suggests(Z,N)=(92,142)and(98,156)as possible subshells indicated by the binding energy.Because the present observed data is far from the N=184 shell,which is suggested by mean-field investigations,its shell effect is not predicted based on present training.The significance analysis of the nuclear charge radius suggests Z=92 and N=136 as possible subshells.The effect is verified by the shell-corrected nuclear charge radius model.展开更多
针对经典MCMC(Markov chain Monte Carlo)算法求解河流水污染源信息(排放量、排放时间和排放位置)时初始点的选取和接受率不高导致的计算效率低下问题,通过COMSOL仿真软件构建污染物二维扩散模型,利用不同算法对比分析了上述两方面对水...针对经典MCMC(Markov chain Monte Carlo)算法求解河流水污染源信息(排放量、排放时间和排放位置)时初始点的选取和接受率不高导致的计算效率低下问题,通过COMSOL仿真软件构建污染物二维扩散模型,利用不同算法对比分析了上述两方面对水污染溯源结果的影响,并由此提出了基于等距随机抽样方法(equidistant random sampling)的两阶段多链Metropolis Hastings算法(ERS-TSMH).仿真结果表明,传统的MH算法和TSMH算法在求解时易陷入局部最优值或不收敛的情况,前者接受率在20%左右,后者却达到近50%;多链ERS-MH算法提高了反演的准确性,但经过10 000次左右迭代后收敛,效率低下;多链ERS-TSMH算法在保证溯源精度的同时,在5 000次左右迭代后收敛,效率显著提高且表现出高稳定性和可靠性.展开更多
基金Supported by Basic and Applied Basic Research Project of Guangdong Province(2021B0301030006)。
文摘The random forest algorithm was applied to study the nuclear binding energy and charge radius.The regularized root-mean-square of error(RMSE)was proposed to avoid overfitting during the training of random forest.RMSE for nuclides with Z,N>7 is reduced to 0.816 MeV and 0.0200 fm compared with the six-term liquid drop model and a three-term nuclear charge radius formula,respectively.Specific interest is in the possible(sub)shells among the superheavy region,which is important for searching for new elements and the island of stability.The significance of shell features estimated by the so-called shapely additive explanation method suggests(Z,N)=(92,142)and(98,156)as possible subshells indicated by the binding energy.Because the present observed data is far from the N=184 shell,which is suggested by mean-field investigations,its shell effect is not predicted based on present training.The significance analysis of the nuclear charge radius suggests Z=92 and N=136 as possible subshells.The effect is verified by the shell-corrected nuclear charge radius model.
文摘针对经典MCMC(Markov chain Monte Carlo)算法求解河流水污染源信息(排放量、排放时间和排放位置)时初始点的选取和接受率不高导致的计算效率低下问题,通过COMSOL仿真软件构建污染物二维扩散模型,利用不同算法对比分析了上述两方面对水污染溯源结果的影响,并由此提出了基于等距随机抽样方法(equidistant random sampling)的两阶段多链Metropolis Hastings算法(ERS-TSMH).仿真结果表明,传统的MH算法和TSMH算法在求解时易陷入局部最优值或不收敛的情况,前者接受率在20%左右,后者却达到近50%;多链ERS-MH算法提高了反演的准确性,但经过10 000次左右迭代后收敛,效率低下;多链ERS-TSMH算法在保证溯源精度的同时,在5 000次左右迭代后收敛,效率显著提高且表现出高稳定性和可靠性.