没有SDC的(t，n)门限秘密共享方案

利用椭圆曲线离散问题对数问题的难解性,给出了基于椭圆曲线密码体制的(t,n)门限秘密共享方案。基于门限秘密共享方案一般分为需要SDC和不需要SDC两类,在分布式环境下,一个被所有成员信任的SDC并不存在,不需要SDC的门限秘密共享方案的安全性得到很大的提高,该方案中由组成员共同生成群公钥和私有密钥。并给出了当新成员加入时,无SDC下的周期密钥分片的更新方案。还给出了一个本方案数据实例,最后对本方案的安全性进行了分析。     

微观结构对Ni-SDC阳极电化学性能的影响

用甘氨酸-硝酸盐法制备了具有高比表面积的纳米粒子NiO和Ce0．85Sm0.15O2—8（SDC）,用固相合成法制备了Ni—SDC复合阳极材料,通过测量过电位和电导率对其性能进行比较,研究微结构对复合阳极电化学性能的影响．结果表明,由于阳极组成和制备条件不同导致的微结构的变化,对阳极性能有很大影响．通过调整微结构,可以使阳极过电位和电导率明显改善．用甘氨酸-硝酸盐法制备SDC与NiO初始粉末,将2种初始粉末在600℃预烧,混合后得到的复合阳极具有优异的电化学性能．在600℃时,样品在氢气气氛下的电导率达到了3534S／cm,电流密度为0．5A／cm。时样品过电位是0．18V．     

某种SDC模块的分析和优化设计

为改善某系统模块日益短缺,模块订购渠道不畅,系统保障存在隐患等情况,对该系统模块进行了分析和优化设计,以保证畅通的模块保障渠道十分重要。为此,开展该系统模块的研制十分迫切。首先结合具体的电路,介绍某种SDC模块的实现机理,在此分析的基础上再选择合适的SDC器件和可编程的逻辑器件代替以往复杂的分立元件电路完成对此模块的优化设计。     

基于ECC的无可信中心的（t，n）门限秘密共享方案

利用椭圆曲线离散对数问题（ECDLP）,设计了一个无可信中心（SDC）的（t,n）门限秘密共享方案。系统的初始化、组成员的私钥、公钥的产生都不需要SDC的参与,利用各成员之间的秘密共享值,构造了秘密共享矩阵,结合Lagrange插值定理,实现了（t,n）门限秘密共享。分析表明,该方案具有较高的安全性和一定的实用价值。     

基于ECC的无可信中心的(t，n)门限秘密共享方案

利用椭圆曲线离散对数问题(ECDLP),设计了一个无可信中心(SDC)的(t,n)门限秘密共享方案。系统的初始化、组成员的私钥、公钥的产生都不需要SDC的参与,利用各成员之间的秘密共享值,构造了秘密共享矩阵,结合Lagrange插值定理,实现了(t,n)门限秘密共享。分析表明,该方案具有较高的安全性和一定的实用价值。     

皮纳卫星数据存储系统设计与在轨验证

为提高皮纳卫星数据存储系统性能和可靠性,提出了一种基于3种介质的"三级数据存储+三模容错架构"存储系统策略.首先,基于对星载存储介质的现状和故障特性分析,选择存储器件;然后对文件系统操作流程进行详细研究,提出错误来源;由此提出了采用ECC纠错、冗余备份和电流保护的方法提高系统可靠性;提前预分配文件空间,建立环形数据存储结构,以减少FS操作复杂性,降低错误率;结合RAM、FRAM、SD卡(secure digital card,SDC)三者的优点,采用三级数据存储策略来提高存储速度和故障容错能力;最后,通过地面实验测试,在1 MB总数量时,数据写入速度提高约4.7倍,任一SDC异常或者系统突然断电均不影响系统正常工作,数据丢失≤1帧,故障切换时间≤10 ms.卫星在轨运行过程中,FS、文件和介质均工作正常,且未影响其他系统工作.地面实验和在轨验证结果表明,数据存储系统方案有效可行,系统可靠性和读写性能均能满足卫星系统的任务需求.     

Two-dimensional modeling for physical processes in direct flame fuel cells

Commercial direct flame fuel cells (DFFC) need larger cell surface area for higher power output. In such cases, multi-dimensional effects play significant roles on cell performances. In this work, a two-dimensional numerical model is developed to illustrate physical behaviors associated with the multi-dimensional effects in DFFCs. It is revealed that DFFCs suffer from the negative consequences of non-uniform distributions of temperature, species and voltage in radial direction. Non-uniform distributions of temperature and species results in the decrease of current density at edge regions of DFFCs, owing to lower ionic conductivities and fuel species concentration. And the non-uniform voltage distribution in radial direction causes the decreases of current density at center regions of DFFCs due to the lower over-potential there. Therefore, current density distributions in electrolytes are likely to be M-shaped. The multi-dimensional effects become progressively important with increasing the size of solid oxide fuel cells. Comparing with the DFFC with a SOFC with small cell radius (6.5 mm), a DFFC with a SOFC with large cell radius (33.75 mm) has 25–30% lower maximum power density. We also reveal that cross-over electronic currents in samaria-doped-ceria electrolytes and fuel species starvation due to the secondary oxidation are dominant factors on the cell performance loss at high cell temperatures (∼1000 K).     

Synthesis,characterization and electrochemical properties of La2-xEuxNiO4+δ Ruddlesden-Popper-type layered nickelates as cathode materials for SOFC applications

Eu doped La₂NiO₄ powders, with the general formula La_2-xEu_xNiO_4+δ denoted as LENO_x (for x = 0, 0.2, 0.4, 0.6 and 0.8), were synthesized via the mechanical milling reaction method. The Eu³⁺ doping content has a remarkable influence on structural and electrochemical properties. The phase identification and morphology were studied by X-ray diffraction (XRD), Raman spectroscopy, Infrared spectroscopy (IR), A laser size analyzer and scanning electron microscopy (SEM). Lattice parameters were calculated using the Rietveld method. It was observed that the lattice parameter values in LENO_x systems varied with the amount of Eu³⁺. The latter was symmetrically deposited by spin coating on both surfaces of an Ce_0.8Sm_0.2O_1.9 (SDC) electrolyte and studied using AC impedance spectroscopy. The electrochemical properties were studied using two-probe impedance spectroscopy and results showed that the ASR of LENO_x was enhanced by the Eu³⁺ dopant content x. Results also showed that LNEO_0.2 had the lowest Area specific resistance (ASR) at 700 °C and it was therefore concluded that doping with the appropriate amount of Eu³⁺ can further improve the properties of a nickelate cathode.     

UPLINK PERFORMANCE OF CWP-MC-CDMA WITH SPACE DIVERSITY COMBINING TECHNIQUE OVER RAYLEIGH FADING CHANNEL

In this paper, a Complex Wavelet Packet （CWP-MC-CDMA） system uplink model is proposed, based Multi-Carrier Code Division Multiple Access based on the analysis of the principle of MC-CDMA and the use of the optimized complex wavelet packet. Considering that the base station can adopt multiple re- ceiver antennas in the uplink, we employ the Space Diversity Combining （SDC） technique to improve the sys- tem pertbrmance via multiple antennas. The uplink performance of proposed CWP-MC-CDMA system with SDC technique is investigated over Rayleigh lading channel, and corresponding bit error rate analysis is given in detail. The system can avoid the decrease of spectrum efficiency of conventional MC-CDMA due to inserting cyclic prefix. Theoretical analysis and simulation result show that the application of SDC technique can improve the CWP-MC-CDMA system ability to combat spatial lading and various interferences effectively. Moreover, the proposed system based on SDC technique has superior Bit Error Rate （BER） performance over the Discrete Fourier Transform （DFT） and SDC based MC-CDMA system and the real wavelet packet and SDC based MC-CDMA system.     

集散型热处理炉微机控制系统的研制

研制了采用最新的SDC40B可编程数字调节器与通用型工控机组成的集散型热处理炉微机控制系统。主要介绍了系统组成、主要仪表选型及硬件构成等。分析了双交叉限幅控制方式的原理及实现方法。现场使用证明，系统性能稳定、超支、操作方便，可使加热质量和热效率明显提高，能耗大大降低，系统整体性能达到了较高水平。