This paper introduces the fundamental principle and features ofmagneto-optical storage technol- ogy, and discuses the trend and aseries of key techniques for increasing the data storage density ofmagneto-opti- cal dis...This paper introduces the fundamental principle and features ofmagneto-optical storage technol- ogy, and discuses the trend and aseries of key techniques for increasing the data storage density ofmagneto-opti- cal disk. The three ways including MO media, recordingmethod and readout method for increasing the disk ca- pacity havebeen discussed. Moreover, the importance with the exchange-coupledeffect between the magnetic layers and recording domain morphology isemphasized.展开更多
In Quantum Information Theory(QIT) the classical measures of information content in probability distributions are replaced by the corresponding resultant entropic descriptors containing the nonclassical terms generate...In Quantum Information Theory(QIT) the classical measures of information content in probability distributions are replaced by the corresponding resultant entropic descriptors containing the nonclassical terms generated by the state phase or its gradient(electronic current). The classical Shannon(S[p]) and Fisher(I[p]) information terms probe the entropic content of incoherent local events of the particle localization, embodied in the probability distribution p, while their nonclassical phase-companions, S[ Φ ] and I[ Φ ], provide relevant coherence information supplements.Thermodynamic-like couplings between the entropic and energetic descriptors of molecular states are shown to be precluded by the principles of quantum mechanics. The maximum of resultant entropy determines the phase-equilibrium state, defined by "thermodynamic" phase related to electronic density,which can be used to describe reactants in hypothetical stages of a bimolecular chemical reaction.Information channels of molecular systems and their entropic bond indices are summarized, the complete-bridge propagations are examined, and sequential cascades involving the complete sets of the atomic-orbital intermediates are interpreted as Markov chains. The QIT description is applied to reactive systems R = A―B, composed of the Acidic(A) and Basic(B) reactants. The electronegativity equalization processes are investigated and implications of the concerted patterns of electronic flows in equilibrium states of the complementarily arranged substrates are investigated. Quantum communications between reactants are explored and the QIT descriptors of the A―B bond multiplicity/composition are extracted.展开更多
针对现有的DDoS(distributed denial of service)攻击检测模型面临大量数据时,呈现出检测效率低的问题。为适应当前网络环境,通过研究DDoS攻击检测模型、提取流量特征、计算攻击密度,提出一种基于融合稀疏注意力机制的DDoS攻击检测模型G...针对现有的DDoS(distributed denial of service)攻击检测模型面临大量数据时,呈现出检测效率低的问题。为适应当前网络环境,通过研究DDoS攻击检测模型、提取流量特征、计算攻击密度,提出一种基于融合稀疏注意力机制的DDoS攻击检测模型GVBNet(global variable block net),使用攻击密度自适应计算稀疏注意力。利用信息熵以及信息增益分析提取攻击流量的连续字节作为特征向量,通过构建基于GVBNet的网络模型在两种数据集上进行训练。实验结果表明,该方法具有良好的识别效果、检测速度以及抗干扰能力,在不同的环境下具有应用价值。展开更多
为解决用户群体移动轨迹划分和密度峰值聚类算法自身局限性的问题,以校园轨迹为对象,考虑时间和位置语义信息层面的信息,建立网络用户间的相似性度量模型,提出一种基于共享近邻贡献度的密度峰值聚类算法(density peak clustering based ...为解决用户群体移动轨迹划分和密度峰值聚类算法自身局限性的问题,以校园轨迹为对象,考虑时间和位置语义信息层面的信息,建立网络用户间的相似性度量模型,提出一种基于共享近邻贡献度的密度峰值聚类算法(density peak clustering based on shared nearest neighbor contribution,SNNC-DPC),结合信息熵理论,通过最小化局部密度熵自适应选择截断距离;在局部密度计算上,利用共享近邻贡献度重新计算局部密度,更加全面地反映数据分布的特性;采用非线性变换方法选取决策值,解决聚类中心选取困难且方法单一的问题。在真实校园轨迹数据集上实验,验证了改进算法的有效性。展开更多
针对传统异常用电检测在面临高维数据中的维数诅咒,以及不相关特征对异常检测的影响,造成检测精度低等问题,提出了一种基于无监督密度子空间选择的孤立森林检测算法。首先,提出了一种有效的基于密度的紧凑数据表示方法,提高了子空间选...针对传统异常用电检测在面临高维数据中的维数诅咒,以及不相关特征对异常检测的影响,造成检测精度低等问题,提出了一种基于无监督密度子空间选择的孤立森林检测算法。首先,提出了一种有效的基于密度的紧凑数据表示方法,提高了子空间选择策略的效率。然后,应用最小冗余-最大相关-密度准则(min-redundancy-maximum-relevance-to-density,mRMRD),用于选择基于互信息的相关子空间。最后,在相关子空间中构建隔离树并集成孤立森林,实现对异常用电数据的检测。通过实验分析,与传统检测算法相比,所提方法在准确率、ROC曲线下面积(area under curve,AUC)、F 1指标上均有提升,提高了异常用电检测的效果。同时,灵敏性分析也验证了无监督密度子空间孤立森林检测算法的有效性。展开更多
文摘This paper introduces the fundamental principle and features ofmagneto-optical storage technol- ogy, and discuses the trend and aseries of key techniques for increasing the data storage density ofmagneto-opti- cal disk. The three ways including MO media, recordingmethod and readout method for increasing the disk ca- pacity havebeen discussed. Moreover, the importance with the exchange-coupledeffect between the magnetic layers and recording domain morphology isemphasized.
文摘In Quantum Information Theory(QIT) the classical measures of information content in probability distributions are replaced by the corresponding resultant entropic descriptors containing the nonclassical terms generated by the state phase or its gradient(electronic current). The classical Shannon(S[p]) and Fisher(I[p]) information terms probe the entropic content of incoherent local events of the particle localization, embodied in the probability distribution p, while their nonclassical phase-companions, S[ Φ ] and I[ Φ ], provide relevant coherence information supplements.Thermodynamic-like couplings between the entropic and energetic descriptors of molecular states are shown to be precluded by the principles of quantum mechanics. The maximum of resultant entropy determines the phase-equilibrium state, defined by "thermodynamic" phase related to electronic density,which can be used to describe reactants in hypothetical stages of a bimolecular chemical reaction.Information channels of molecular systems and their entropic bond indices are summarized, the complete-bridge propagations are examined, and sequential cascades involving the complete sets of the atomic-orbital intermediates are interpreted as Markov chains. The QIT description is applied to reactive systems R = A―B, composed of the Acidic(A) and Basic(B) reactants. The electronegativity equalization processes are investigated and implications of the concerted patterns of electronic flows in equilibrium states of the complementarily arranged substrates are investigated. Quantum communications between reactants are explored and the QIT descriptors of the A―B bond multiplicity/composition are extracted.
文摘在使用毫米波雷达进行室内人员信息检测时,其信号处理阶段采用的静态杂波滤除算法有效地滤除了检测区域中包括墙壁、地面、桌椅等在内的静止目标,实现了对运动人员的检测,但同时会导致静止人员被漏检.为此提出按照径向速度把点云数据划分为动态数据和静态数据,先剔除动态数据,然后累积剩余的静态数据.在达到指定的累积帧数时,进行密度聚类,以簇的数量作为人员的数量,簇的中心坐标作为人员的位置.通过实验,验证了所提出方法的有效性,在室内办公场景下,人员数量统计平均绝对误差为0.81,人员位置估计均方根误差为0.1 m.
文摘为解决用户群体移动轨迹划分和密度峰值聚类算法自身局限性的问题,以校园轨迹为对象,考虑时间和位置语义信息层面的信息,建立网络用户间的相似性度量模型,提出一种基于共享近邻贡献度的密度峰值聚类算法(density peak clustering based on shared nearest neighbor contribution,SNNC-DPC),结合信息熵理论,通过最小化局部密度熵自适应选择截断距离;在局部密度计算上,利用共享近邻贡献度重新计算局部密度,更加全面地反映数据分布的特性;采用非线性变换方法选取决策值,解决聚类中心选取困难且方法单一的问题。在真实校园轨迹数据集上实验,验证了改进算法的有效性。
文摘针对传统异常用电检测在面临高维数据中的维数诅咒,以及不相关特征对异常检测的影响,造成检测精度低等问题,提出了一种基于无监督密度子空间选择的孤立森林检测算法。首先,提出了一种有效的基于密度的紧凑数据表示方法,提高了子空间选择策略的效率。然后,应用最小冗余-最大相关-密度准则(min-redundancy-maximum-relevance-to-density,mRMRD),用于选择基于互信息的相关子空间。最后,在相关子空间中构建隔离树并集成孤立森林,实现对异常用电数据的检测。通过实验分析,与传统检测算法相比,所提方法在准确率、ROC曲线下面积(area under curve,AUC)、F 1指标上均有提升,提高了异常用电检测的效果。同时,灵敏性分析也验证了无监督密度子空间孤立森林检测算法的有效性。