网络入侵检测系统自体集检测中的概率匹配高效寻优机制

针对自体集数据规模较大造成的时空上的巨大消耗而难以处理的问题,设计了基于人工免疫的网络入侵检测系统(NIDS)的自体集匹配机制。为提高入侵检测系统的检测效率,提出概率匹配高效寻优机制。首先证明了网络数据的相对集中性,通过计算平均查找长度(ASL)分析了概率匹配机制的有效性,并通过模拟实验验证了该机制的快速匹配效率,并且在一种基于自体集规模简约机制的新型人工免疫网络入侵检测系统上进行了工程应用,取得了较好的匹配效果。

基于免疫的异常检测中实值自体集优化算法

针对免疫异常检测一直被忽视的实值自体集多分区、样本重叠率高和噪声等现象,以及造成的检测器生成代价高和边界漏洞等问题,提出一种实值自体集优化算法。算法通过模糊聚类算法处理集合多分区问题,利用高斯理论对自体集中的噪声样本、高重叠率等问题进行处理。通过Iris数据集和网络数据验证,算法可以有效地解决以上问题,提高生成检测器的效率和系统检测率。

基于模糊模式识别的自体集的构造方法

目前计算机安全免疫系统中都还面临着“不完全self集合”的问题,尤其是在基于网络的入侵检测系统中会产生较大的缩放。提出了一种面向网络的免疫模型中自体集的构造方法,借鉴了模糊数学的理论,采用了模糊模式识别原则来评价网络连接行为的“正常度”,从而确定是否作为训练集(self集)中的元素。

冲击波联合自体血活性浓集物治疗骨折不愈合的临床疗效

目的探讨冲击波联合自体血活性浓集物治疗下肢骨折不愈合的临床疗效。方法54例下肢骨折不愈合患者随机分为研究组和对照组,研究组给予冲击波联合自体血生物活性浓集物治疗,对照组给予体外冲击波治疗;于治疗后2个月、3个月、6个月时采用骨痂X线评分评估两组骨折端愈合情况,同时负重状态下采用视觉模拟评分(VAS)评估患肢疼痛反应;于治疗结束时比较两组患者的愈合率、负重时间及不良反应,评估两组患者的临床疗效。结果研究组治疗后2个月时骨痂X线评分与对照组比较,差异无统计学意义(P>0.05);治疗后3个月及6个月时,研究组骨痂X线评分高于对照组(P<0.05);治疗后2个月时,研究组VAS评分与对照组比较,差异无统计学意义(P>0.05);治疗后3个月及6个月时,研究组VAS评分低于对照组(P<0.05);研究组治愈率高于对照组(P<0.05),研究组开始负重时间早于对照组(P<0.05);两组不良反应比较,差异无统计学意义(P>0.05)。结论冲击波联合自体血活性浓集物骨折端注入对骨折不愈合患者具有较好的疗效可促进骨折端愈合能力。

体外冲击波疗法联合自体骨髓血活性浓集物和富血小板血浆局部注射治疗下肢骨折不愈合

目的:探讨体外冲击波疗法联合自体骨髓血活性浓聚物和富血小板血浆局部注射治疗下肢骨折不愈合的临床疗效。方法:2019年3月至2023年6月,采用体外冲击波疗法联合自体骨髓血活性浓聚物和富血小板血浆局部注射治疗下肢骨折不愈合患者33例。男24例,女9例。年龄17~62岁,中位数43岁。肥大型骨折不愈合23例,萎缩型骨折不愈合10例。所有患者均接受过内固定术治疗,均为非感染性骨折不愈合,骨折端间隙均小于5 mm,骨折端对位对线均良好,内固定均无明显松动。体外冲击波治疗共4次,每次治疗间隔7 d;在体外冲击波治疗后第2天,于骨折端注射自体骨髓血活性浓集物和富血小板血浆,连续治疗4次,每次治疗间隔7 d。治疗后随访观察骨折端愈合情况。结果:33例患者均获随访,随访时间3~6个月,中位数4.3个月。23例肥大型骨折不愈合患者经治疗后,骨折端均获骨性愈合;10例萎缩型骨折不愈合患者经治疗后,6例骨折端获骨性愈合、4例骨折端未愈合。10例患者在治疗结束后3个月骨折端获骨性愈合,19例患者在治疗结束后6个月骨折端获骨性愈合;4例患者在治疗结束后6个月骨折端未愈合,均为萎缩型骨折不愈合患者,后期行内固定联合植骨术后6个月骨折端获骨性愈合。结论:采用体外冲击波疗法联合自体骨髓血活性浓集物和富血小板血浆局部注射治疗下肢骨折不愈合,能够明显促进骨折愈合。

股骨头坏死患者髓芯减压联合浓集自体骨髓单个核细胞移植人工骨植入术后护理

总结髓芯减压联合浓集自体骨髓单个核细胞移植人工骨植入治疗35例(57髋)中早期股骨头坏死患者的术后护理。术后坚持做好健康宣教,减轻患者疑虑和焦虑心理;密切观察伤口渗出情况,防止出现人工骨植入的排异反应;重点做好术后康复指导,术后6个月内患髋关节完全限制负重,6个月后持双拐部分负重,12个月后完全负重,建议18个月后可从事体力及体育活动;做好药物辅助治疗及并发症的护理。本组35例患者取得了较好的临床效果,均痊愈出院。

经皮自体骨髓浓集液联合富血小板血浆治疗骨折延迟愈合的临床效果

目的研究经皮自体骨髓浓集液联合富血小板血浆治疗骨折延迟愈合的临床效果。方法选取2019年1月至2020年12月南阳市中心医院收治的126例骨折延迟愈合患者,按照随机数字表法分为对照组(63例)和研究组(63例)。对照组接受经皮自体骨髓浓集液治疗,研究组在对照组基础上接受富血小板血浆治疗。对比两组骨髓血抽取量和治疗费用、不同愈合程度骨痂形成时间、视觉模拟评分法(VAS)评分和胫骨骨折影像学愈合评分系统(RUST)评分及生活质量调查表(SF-36)评分。结果与对照组比较,研究组骨髓血抽取量少、治疗费用高(P<0.05);术后24个月与对照组比较,研究组VAS评分低、RUST评分高(P<0.05);与对照组比较,研究组少量骨痂、中量骨痂、大量骨痂形成时间及临床愈合时间短(P<0.05);术后24个月与对照组比较,研究组SF-36评分高(P<0.05)。结论经皮自体骨髓浓集液联合富血小板血浆治疗骨折延迟愈合效果显著,能减少骨髓抽取量,减轻机体疼痛,促进骨折快速愈合,提升患者生活质量。

基于决策树的主从结构的Self集构造算法

针对基于计算机免疫的入侵检测系统中所面临着"不完全Self集"的问题,设计了基于决策树的主从结构的Self集构造算法。将决策树引入到传统的否定选择算法中,通过决策树把经过免疫耐受淘汰后的候选检测器进行重新分类,并将满足设定条件的候选检测器集合构造"从Self集",实现Self集的动态扩充,最后利用"匹配矛盾"淘汰"从Self集"中不合格的元素。实验分析结果表明了该算法的有效性,改善了检测器识别性能。

入侵检测系统中动态优化检测器生成方法的研究

在基于人工免疫的入侵检测系统中,通常会采用阴性选择算法来生成检测器,这种算法生成的检测器存在缺乏更新、容易饱和、误警率高等缺陷.鉴于此,给出了一种生成检测器的算法思路:以免疫遗传算法作为基础,对子代记忆检测器进行优化,并结合动态自体集演化方法生成正常行为特征,使子代检测器能够在一定程度上继承父代检测器的优良基因,该方案发挥了遗传算法并行操作、全局寻优、自适应优化等特征,避免了免疫病理机制转移进入入侵检测系统造成的安全隐患,增强了免疫入侵检测系统的实时性、健壮性、高效性、并行性和可适应性.

匹配预测在人工免疫入侵检测中的研究与应用

将人工免疫算法用于入侵检测,建立基于自体集的网络入侵检测系统,能有效检测出未知入侵方式,具有很好的适应性,但是仍存在辨别待检测模式速度过慢的问题。基于网络数据流的局部性,提出建立自体预测表记录当前成功与未知模式匹配过的自体的存储地址,通过优先匹配预测表中有记录的自体来节省冗余匹配次数提高检测系统的工作效率。通过分析和实验找出了预测表大小的最佳取值范围,并分析和证明了通过预测表匹配检测的效率要明显高于顺序匹配方法。

外科脱位入路头凹植骨联合自体骨髓浓集液和富血小板血浆凝胶治疗非创伤性股骨头坏死的疗效分析

目的探讨外科脱位入路头凹处清除死骨植骨联合自体骨髓浓集液和富血小板凝胶治疗非创伤性股骨头坏死的临床疗效。方法回顾性分析2014年8月—2016年12月应用外科脱位入路经头凹清除死骨植骨联合自体骨髓浓集液和富血小板凝胶治疗23例(26髋)非创伤性股骨头坏死病例资料。其中男15例(18髋),女8例(8髋);年龄21~53岁,平均36.2岁;激素性股骨头坏死12例(15髋),酒精性股骨头坏死8例(8髋),特发性股骨头坏死3例(3髋);国际骨循环研究协会(ARCO)股骨头坏死分期Ⅱb期5髋,Ⅱc期12髋,Ⅲa期5髋,Ⅲb期3髋,Ⅲc期1髋。术前制备自体富血小板血浆和骨髓浓集液,测定富血小板血浆中血小板水平以及血管内皮生长因子(VEGF)和转化生长因子-β(TGF-β)的含量,检测骨髓浓集液中骨髓单核细胞数量。无菌条件下制备骨髓浓集液和富血小板血浆凝胶。采取髋关节外科脱位入路显露股骨头,经股骨头凹处开窗进行死骨清除,将自体骨粒与骨髓浓集液、富血小板血浆凝胶混合后,经股骨头凹处顺向打压植骨。记录手术时间、术中出血量,观察术后并发症发生情况。术后3、6、12个月行骨盆X线片及CT、MRI检查,观察关节面塌陷及骨修复重建情况。末次随访时采用疼痛视觉模拟评分(VAS)评估关节疼痛情况,采用Harris髋关节评分标准评定疗效。结果富血小板血浆测定血小板水平为(1.82±0.29)×10^6/μL,其中VEGF和TGF-β水平分别为(504.32±52.13)pg/mL、(134.19±20.52)ng/mL。骨髓浓集液中骨髓单核细胞数量为(8.17±1.54)×10^5/L。所有患者均顺利完成手术。手术时间80~125 min,平均108 min;术中出血250~400 mL,平均320 mL。23例患者术后随访26~42个月,平均36.6个月。1例出现大转子截骨端延迟愈合,二次手术后4个月愈合。11例(11髋)出现了关节面不同程度塌陷,其中10髋关节面塌陷1.0~3.0(1.9±0.82)mm,关节间隙可,塌陷关节面下骨质密度接近正常,关节功能正常,未予处理;1例股骨头坏死面积约占股骨头体积60%,术后17个月关节面塌陷3.5 mm,关节功能受限,行人工全髋关节置换。23例(26髋)中,术后25髋股骨头植骨均重建,完全重建时间为1~1.5年。25髋末次随访Harris评分(87.38±8.21)分,高于术前的(58.92±10.42),VAS(2.58±1.58)分,低于术前的(7.42±1.20)分,差异均有统计学意义(t=26.630、26.718,P值均<0.01)。结论外科脱位入路头凹死骨清除打压植骨治疗非创伤性股骨头坏死,可以直视下彻底清除坏死骨;同时联合自体骨髓浓集液和富血小板血浆凝胶的应用,可为骨髓间充质干细胞提供细胞支架、增加骨髓间充质干细胞的数量及VEGF和TGF-β的水平,促进股骨头坏死的修复。

Collective Hamiltonian for Multi-O（4） Model

The collective Bamiltonian up to the fourth order for multi-O（4） model is derived based on the self-consistent collective-coordinate （SCC） method, which is formulated in the framework of the time-dependent Hartree-Bogoliubov （TDHB） theory. The validity of the collective Hamiltonian is checked in the two special cases of the multi-O（4） model： the case where the number of the shells is equal to one （a single j-shell case）, and the case where the Hartree-Bogoliubov equilibrium point is spherical （the spherical case）. The collective Hamiltonian constitutes a good starting point to study nuclear shape coexistence.

敦煌文献S3441“明众生入法界”探析

本文以敦煌S3441“明众生入法界”的部分为中心,首先对于S3441作了简要地考察,认为其大致出现的时间为公元592—626年。其次,本文依据S3441底本,参照日本学者青木隆的录文,对S3441“明众生入法界”部分做重新校录和注释。最后,依据新校录文,对于S3441文献中的“众生界义”、“入法界义”进行详细地分析和探讨,发现S3441所论述的众生界与法界同体无二、不出不入、不增不灭的理论依据,就是建立在“地论学派”之大乘通宗圆教的教判,及自体缘集说等最具“地论学派”代表性的学说之上。通过分析发现,S3441强调众生界与法界的无二、生灭与不生灭的无二,是从众生如何成佛的方法论的角度进行论述,也就是因圆顿众生界与法界同一无二、因圆顿生灭与不生灭无二,而不是从现象与本体的关系进行论述,这其中有佛教界话语转移的问题。

Excitation Spectrum of Spin-1 Bosonic Atoms in Mott Insulating Phase

The effective action for spin-1 bosonic atom in an optical lattice is derived. The quasiparticle and quasihole dispersions are calculated for different cases by using a functional integral formalism. For all cases, the excitation spectra are analyzed. All the quasiparticle and quasihole excitations start with a gap.

Preliminary Observation on the Influence of Tumor Osseous Metastasis on Autologous Peripheral Blood Stem Cell Collection

OBJECTIVE To examine the influence of tumor osseous metastasis on the patients undergoing autoiogous peripheral blood stem ceil collection. METHODS A total of 36 patients with malignant diseases who received an autoiogous peripheral blood stem ceil transplantation, during a period from April 2004 to June 2006, were chosen. The patients were divided into two groups, i.e. group A were patients with a complication of tumor osseous metastasis, and group B were without metastasis. Both groups were treated with Taxotere 120 mg/m^2 plus granuiocyte colony-stimulating factor （G-CSF） 5 μg/kg/d, for a mobilization regimen. A blood ceil separator was used to collect the mononuciear ceils. The proportion of harvested CD34＋ ceils in the peripheral blood and the collected mononuciear ceils were detected by flow cytometry. The number of CD34＋ ceils was used to determine the difference in the nature of the collections between the two groups. RESULTS After mobilization in groups A and B, the number of the peripheral blood mononuciear ceils （PBMC） was 39.3±14.7% and 41.1±12.4 % and the proportion of CD34＋ ceils was 0.16±0.07% and 0.17±0.10%, respectively. Following administration of the drugs, there was no significant difference between the number of harvested PBMC and CD34＋ cells of the two groups, i.e., 3.47±1.16×10^8/Kg and 2.52±1.43×10^6/Kg in group A and 4.02±1.31×10^8/Kg and 2.73±1.87×10^6/Kg in group B, respectively. CONCLUSION Osseous metastasis, as a single factor, may have no impact on mobilization and harvesting of hematopoietic stem ceils and their engraftment after autotransplantation.

Polydentate-ligand-supported self-assembly of heterometallic T-shaped Co_4 Dy cluster showing slow magnetic relaxation

A novel mixed-valent heterometallic pentanuclear CoⅢ3 CoⅡ Dy Ⅲ cluster has been rationally assembled taking advantage of a bifunctional ligand with o-vanillin and tripodal tris(hydroxymethyl)aminomethane units. This unique heterometallic cluster represents a rare example of T-shaped molecules exhibiting slow magnetic relaxation.

Microscopic analysis of spherical to γ-soft shape transitions in Zn isotopes

The rapid transition between spherical and γ-soft shapes in Zn isotopes in the mass A 70 region,is analyzed using excitation spectra and collective wave functions obtained by diagonalization of a five-dimensional Hamiltonian for quadrupole vibrational and rotational degrees of freedom,with parameters determined by constrained self-consistent relativistic mean-field calculations for triaxial shapes.The microscopic potential energy surfaces,together with the characteristic collective observables,illustrate a rapid transition from near spherical shape at the N = 40 subshell,to γ-soft deformed shapes for lighter isotopes.The calculated spectra display fingerprints of a second-order shape phase transition that can be approximately described by the E(5) analytic solution.

Theoretical study of the low-lying electronic excited states for molecular aggregates

We present here a brief summary of a National Natural Science Foundation Major Project entitled "Theoretical study of the low-lying electronic excited state for molecular aggregates". The project focuses on theoretical investigation of the electronic structures and dynamic processes upon photo-and electric-excitation for molecules and aggregates. We aim to develop reliable methodology to predict the optoelectronic properties of molecular materials related to the electronic excitations and to apply in the experiments. We identify two essential scientific challenges: (i) nature of intramolecular and intermolecular electronic excited states; (ii) theoretical description of the dynamic processes of the coupled motion of electronic excitations and nucleus. We propose the following four subjects of research: (i) linear scaling time-dependent density-functional theory and its application to open shell system; (ii) computational method development of electronic excited state for molecular aggregates; (iii) theoretical investigation of the time evolution of the excited state dynamics; (iv) methods to predict the optoelectronic properties starting from electronic excited state investigation for organic materials and experimental verifications.

Preface

In the past three decades, molecular magnetism has been a rapidly growing interdisciplinary field in chemistry, phys- ics and materials sciences. It covers diverse range of topics including inorganic/organic/hybrid magnetic molecular ma- terials, multifunctional and/or switchable magnetic molecu- lar materials, molecular nanomagnets, nanostructural mo- lecular magnets, molecular spintronics and biomagnetism. Much research on molecular magnetism has been carried out in China both before and after we organized the Interna- tional Conference on Molecule-Based Magnets 2010 （ICMM 2010） in Beijing.