Development and validation of a new oxide fuel rod performance analysis code for the liquid metal fast reactor

The integrity and reliability of fuel rods under both normal and accidental operating conditions are of great importance for nuclear reactors.In this study,considering various irradiation behaviors,a fuel rod performance analysis code,named KMC-Fueltra,was developed to evaluate the thermal–mechanical performance of oxide fuel rods under both normal and transient conditions in the LMFR.The accuracy and reliability of the KMC-Fueltra were validated by analytical solutions,as well as the results obtained from codes and experiments.The results indicated that KMC-Fueltra can predict the performance of oxide fuel rods under both normal and transient conditions in the LMFR.

Extending and analysis of X-Code

X-Code is one of the most important redundant array of independent disk （RAID）-6 codes which are capable of tolerating double disk failures. However, the code length of X-Code is restricted to be a prime number, and such code length restriction of X-Code limits its usage in the real storage systems. Moreover, as a vertical RAID-6 code, X-Code can not be extended easily to an arbitrary code length like horizontal RAID-6 codes. In this paper, a novel and efficient code shortening algorithm for X-Code is proposed to extend X-Code to an arbitrary length. It can be further proved that the code shortening algorithm maintains the maximum-distance-separable （MDS） property of X-Code, and namely, the shortened X-Code is still MDS code with the optimal space efficiency. In the context of the shortening algorithm for X-Code, an in-depth performance analysis on X-Code at consecutive code lengths is conducted, and the impacts of the code shortening algorithm on the performance of X-Code in various performance metrics are revealed.

THROUGHPUT ANALYSIS OF TWO-HOP WIRELESS NETWORKS WITH NETWORK CODING

A Two-hop Wireless Network (TWN) is the basic topology structure that provides network coding opportunity for improving throughput. Network coding on a homogeneous TWN, in which all the data flows have the same packet size and all the links have the same transmission rate, has been extensively investigated. In this paper, network coding on more practical heterogeneous TWNs, featured by various packet sizes and transmission rates, is studied. Based on the Markov model, the throughput of the proposed network coding scheme, together with the throughput gain, is derived, which matches the simulation results very well. Numerical analyses indicate that, encoding the packets with close size and close transmission rate and enlarging buffer size at the relay node help in improving the throughput gain.

Performance analysis of ARQ schemes with code combining over Nakagami-m fading channel

This article investigates the performance of hybrid automatic repeat request （HARQ） with code combining over the ideally interleaved Nakagami-m fading channel. Two retransmission protocols with coherent equal gain code combining are adopted, where the entire frame and several selected portions of the frame are repeated in protocols I and II, respectively. Protocol II could be viewed as a generalization of the recently proposed reliability-based HARQ. To facilitate performance analysis, an approximation of the product of two independent Nakagami-m distributed random variables is first developed. Then the approximate analysis is utilized to obtain exact frame error probability （FEP） for protocol I, and the upper bound of the FEP for protocol II. Furthermore, the throughput performance of both two protocols is presented. Simulation results show the reliability of the theoretical analysis, where protocol II outperforms protocol I in the throughput performance due to the reduced amount of transmitted information.

A User-Friendly SSVEP-Based BCI Using Imperceptible Phase-Coded Flickers at 60Hz

A brain-computer interface(BCI)system based on steady-state visual evoked potentials(SSVEP)was developed by four-class phase-coded stimuli.SSVEPs elicited by flickers at 60Hz,which is higher than the critical fusion frequency(CFF),were compared with those at 15Hz and 30Hz.SSVEP components in electroencephalogram(EEG)were detected using task related component analysis(TRCA)method.Offline analysis with 17 subjects indicated that the highest information transfer rate(ITR)was 29.80±4.65bpm with 0.5s data length for 60Hz and the classification accuracy was 70.07±4.15%.The online BCI system reached an averaged classification accuracy of 87.75±3.50%at 60Hz with 4s,resulting in an ITR of 16.73±1.63bpm.In particular,the maximum ITR for a subject was 80bpm with 0.5s at 60Hz.Although the BCI performance of 60Hz was lower than that of 15Hz and 30Hz,the results of the behavioral test indicated that,with no perception of flicker,the BCI system with 60Hz was more comfortable to use than 15Hz and 30Hz.Correlation analysis revealed that SSVEP with higher signal-to-noise ratio(SNR)corresponded to better classification performance and the improvement in comfortableness was accompanied by a decrease in performance.This study demonstrates the feasibility and potential of a user-friendly SSVEP-based BCI using imperceptible flickers.

湖北工人文化宫超限结构设计

湖北工人文化宫的主要功能为职工培训和展览等,主体结构采用框架-剪力墙结构,存在扭转不规则、偏心布置、楼板不连续、局部跃层柱等不规则项,属于复杂超限高层建筑。采用抗震性能化设计对主要构件进行复核,采用YJK和MIDAS Building软件对结构进行多遇地震弹性计算和弹性时程分析以及罕遇地震下的动力弹塑性时程分析和楼板应力分析等。分析结果表明,整体结构可以满足规范的要求,达到预定的性能目标。并根据分析结果采取抗震加强措施。在容易产生共振的大跨度预应力楼盖区域,以高阻尼橡胶减振垫作为减振材料,对楼盖在人行激励下和有节奏运动激励下的楼板舒适度进行分析。分析结果表明,楼板舒适度满足规范要求。

“相对贫困”治理绩效评价体系研究——基于包容性创新视角对扶贫绩效指标的编码分析

“相对贫困”治理与包容性创新具有高度的契合性,两者都遵循质量、公平原则,关注可持续的内生动力因素,倡导全员参与和成果共享。从减贫成效、管理成效、社会成效和能力成效对2013—2020年中央及省级单位颁布的扶贫绩效考核评价体系进行分类编码分析。当前我国扶贫绩效考核体系的包容性存在偏差,长远来看,扶贫绩效考核要与扶贫实践的长久性、深刻性、复杂性与动态性相符合,要不断平衡经济与社会、能力指标,平衡体制内与体制外指标,平衡结果与过程指标,以提高考核体系的包容性、前瞻性和操作性。

苏州太仓阿尔卑斯雪世界超限高层结构设计

苏州太仓阿尔卑斯雪世界结构形式为钢筋混凝土框架结构,屋盖采用平面桁架体系。存在扭转不规则、楼板不连续、偏心率大于0.15、错层等不规则项,为超限高层建筑。对基础形式、结构体系、荷载取值、性能目标等进行了介绍,并采用YJK、PMSAP、MIDAS Gen三种软件进行了弹性计算,应用Paco-Sap软件进行动力弹塑性分析;阐述了雪场结构设计中的关键问题,如层间位移角、长短柱、桁架关键节点、温度荷载等。计算结果表明,结构的周期比、层间位移角等指标均满足规范要求。采用性能化设计和动力弹塑性分析方法实现结构和构件在中震和大震作用下的既定性能目标,并对结构关键部位和构件采取了针对性的加强措施。

包头奥运冰雪中心结构设计

包头奥运冰雪中心属于超限高层建筑,下部混凝土部分为框架结构体系,局部大跨度楼盖采用双向交叉平面桁架体系,屋盖采用立体桁架。各层空间关系较为复杂,具有扭转不规则、楼板不连续、结构超长、错层等特点。结构设计采用基于性能的抗震设计方法,采用YJK、PMSAP和MIDAS Gen进行弹性分析和比较,应用Paco-spa软件进行动力弹塑性分析。此外,对大跨度楼盖的舒适度、钢结构楼屋盖的整体稳定性、关键节点、楼屋盖的防倒塌能力以及超长结构的温度应力、薄弱楼板应力进行了专门分析。并根据分析结果对结构的关键部位和构件采取针对性的加强措施。计算结果表明,结构的各项指标满足规范和既定抗震性能目标要求,结构设计合理、安全可行。

国产神威环境下Athread代码生成工具的设计与开发

针对国产神威环境下众核代码编写工作量大的问题,设计实现一个可以将核心段的串行代码自动转换为Athread代码的工具。采用Rust语言进行词法和语法分析,面向不同数组维度的Fortran和C语言程序,基于主程序调用master程序再由master程序调用slave程序的三层模板程序架构,集成常用众核优化方法的代码框架。经过实验分析,采用该自动转换工具生成的Athread代码相较于人工编写的OpenACC*加速的程序有更高的加速比,特别是对多个核心段进行众核化加速时的加速比相差15%,验证该转换工具具有很好的实用性。

广州某超限连体高层结构设计

广州某超限高层为带连体的部分框支剪力墙结构,两栋结构高度分别为9725、9275m,在4层、11~13层通过连廊连接。为了验证结构布置的可靠性和安全性,采用YJK和ETABS软件对建筑结构进行整体计算分析及弹性时程分析,同时借助Perform-3D软件,对结构的动力弹塑性进行深入分析,并对连接体结构受力情况做专项分析。结果表明,两栋塔楼的转换构件及连接体结构受力体系合理可靠。根据结构的受力特征,通过对关键构件及其他受力构件的加强处理,确保结构整体上满足各项预先设定的抗震性能目标的要求。

济南华润万象城抗震性能分析与设计

济南华润万象城为一栋结构高度412m的超限高层商业建筑,采用框架-剪力墙结构。结构中同时存在扭转不规则、平面开洞、大跨度结构、大悬挑结构、斜柱、桁架悬挑等多项平面及竖向不规则情况。采用多种计算程序进行了抗震性能分析,其结果均满足既定的抗震性能目标。对复杂商业中的各关键部位设计进行了多方案比选,确定了合理的结构布置和适当的构造措施,取得了良好的效果。

中卫南站房抗震性能化分析

为研究不规则混凝土框架结构的抗震性能,结合中卫南站房实际情况,提出其抗震性能目标和钢拱架的抗震设计指标,基于性能的抗震设计方法,对结构进行多遇地震弹性、罕遇地震静力弹塑性(Pushover分析)和动力弹塑性时程分析。研究结果表明:站房整体结构抗震性能良好,钢拱架作为关键构件,其抗震性能目标满足并超出预设的性能水准;对于典型平面布置的铁路中小型站房,罕遇地震作用下,可考虑对其仅进行静力弹塑性分析。

燃料棒性能分析程序FUPAC V2.0的研发与验证

鉴于现有软件均缺乏CF3燃料组件N36锆合金包壳分析能力,开展了燃料棒性能分析程序FUPAC V2.0的研发工作。基于N36锆合金的堆外试验数据和N36锆合金包壳燃料棒池边检查数据,研究了N36锆合金的物理性能、腐蚀行为和辐照生长行为,初步建立了N36锆合金包壳相应模型。在现有自主化软件FUPAC V1.1的基础上,耦合入N36锆合金包壳分析模块,形成FUPAC V2.0,并进行了初步验证。验证结果表明:N36锆合金辐照生长模型和腐蚀模型与目前试验结果符合较好,FUPAC V2.0已实现计算N36锆合金包壳燃料棒性能的功能。

数据链系统RS码性能分析与仿真

介绍了数据链系统(DLCS)的基本结构与原理,详细分析了DLCS采用的RS纠错编码/解码技术与MSK调制/解调技术。研究了DLCS在加性高斯白噪声(AWGN)情况下的抗噪声性能,并基于Matlab的Simulink仿真平台建立了具有RS编码/解码及MSK调制/解调能力的DLCS仿真模型,并对仿真试验结果进行了分析。

恶意文档检测研究综述

近年来,以窃取敏感数据、破坏国家重要基础设施为主要目标的高级持续威胁(Advanced Persistent Threat,APT)已经给国家安全带来了严重的威胁。与可执行文件相比,恶意文档具有涉及领域广、影响范围大、用户防范意识不足、攻击手段灵活多样、难以检测等诸多特点,已经成为实施APT攻击的重要载体。因此有必要关注恶意文档检测已有的研究成果与发展趋势。本文首先对文档类型及其结构进行了解析,然后阐述了文档的安全隐患、攻击技术以及传播途径等。将当前恶意文档检测方法归纳为静态检测法、动态检测法、动静态结合检测法以及其他相关研究等四类,分别对各类检测方法的研究状况、进展进行了分析和总结。最后,提出了当前恶意文档检测研究的性能评价方法,综述了代表性的数据、检测工具和平台,并展望了未来的研究方向。

基于Fast-ICA的CDMA信号扩频序列盲估计及性能分析

DS-CDMA分为长码和短码扩频2种扩频方式,已有的扩频序列盲估计算法只适用于短码扩频信号,不能完成长码扩频信号的扩频序列估计。对长码扩频CDMA信号的数学模型进行分析,提出了一种的新的基于Fast-ICA的多用户扩频序列盲估计方法并推导了算法的理论性能。该方法不仅能适用于长码扩频CDMA信号,而且对同步短码扩频CDMA信号也同样适用。理论分析和仿真结果验证了该方法的有效性。

RS码在汉信码中的纠错性能分析及仿真

对汉信码所采用的RS纠错码的纠错方法进行研究,探讨了如何采用MATLAB工具实现汉信码中RS码的编码和译码,并对其纠正随机错误和突发错误的性能进行了仿真,得到不同的误码率-信噪比曲线,这些曲线反映了RS码纠错能力与码长及校验位长度的关系。研究结果为汉信码的工程实现和评估汉信码传输可靠性提供了理论依据。

三类混沌二相码性能分析

为产生伪随机编码雷达波形,提高雷达低截获概率(LIP)和电子反干扰(ECCM)性能。针对logistic、full logistic、Kent三类最具代表性的映射所产生的混沌序列,在大量仿真基础上,对由此三类混沌序列获得的二相码相关性、平衡性及游程性等性能进行了比较分析,并给出了相应的仿真结果。研究表明三类混沌序列,都具有较好的伪随机特性,由此均可获得产生雷达波形的理性混沌二相码,Kent序列和full logistic序列的综合性能较好。

基于网络编码的传感器网络多径路由模型能量分析

该文分析了传感器网络多径路由在不同模型和条件下数据包成功交付率,以及整个系统节点的能耗总量和能耗均衡,将最优节点间距的配置方案引入到多路径网络模型,并根据随机线性网络编码技术设计基于网络编码的多路径路由模型。理论分析和仿真实验证明,使用了网络编码技术的多径传输模型能够更好地保证数据传输可靠度,同时最优节点间距配置方案均衡并减少了网络中节点的能量消耗,延长了网络寿命。