城市应急联动系统GEIS

GEIS（Grid Based Emergency Inter-Act System）是一个基于主体网格的城市应急联动与社会综合服务系统，通过主体网格和通信系统将治安、消防、卫生急救、交通、公共设施，自然灾害等突发事件的应急联动与综合服务，调度集成在一个管理平台中，通过共享指挥平台和基础信息，实现统一接处警，统一指挥，联合行动，快速反应，为市民提供更加便捷的紧急救援及相关服务，为政府科学决策和处置各种紧急与灾害事件提供技术支持为城市公共安全提供技术保障。GEIS的一个突出优势是将范例推理（Case Base Reasoning,CBR）与规则推理（Rule Base Reasoning,RBR）两种人工智能技术相结合，实现了快速预案支持，为科学决策打下良好基础，目前，GEIS已经应用到抗洪抢险和交通事故处理中，效果表明它具有跨平台性好，稳定性强，响应速度快，易操作的独特优势。     

Self-Standing Covalent Organic Framework Membranes for H2/CO2 Separation

Covalent organic frameworks (COFs) are proposed as promising candidates for engineering advanced molecular sieving membranes due to their precise pore sizes, modifiable pore environment, and superior stability. However, COFs are insoluble in common solvents and do not melt at high temperatures, which presents a great challenge for the fabrication of COF-based membranes (COFMs). Herein, for the first time, a new synthetic strategy is reported to prepare continuous and intact self-standing COFMs, including 2D N-COF membrane and 3D COF-300 membrane. Both COFMs show excellent selectivity of H₂/CO₂ mixed gas (13.8 for N-COF membrane and 11 for COF-300 membrane), and especially ultrahigh H₂ permeance (4319 GPU for N-COF membrane and 5160 GPU for COF-300 membrane), which is superior to those of COFMs reported so far. It should be noted that the overall separation performance of self-standing COFMs exceeds the Robeson upper bound. Furthermore, a theoretical study based on Grand Canonical Monte Carlo (GCMC) simulation is performed to explain the excellent separation of H₂/CO₂ through COFMs. Thus, this facile preparation method will provide a broad prospect for the development of self-standing COFMs with highly efficient H₂ purification.     

某电磁屏蔽方舱的优化设计

介绍方舱舱体的屏蔽要求、屏蔽原理、屏蔽效能的测试及计算方法,对某电磁屏蔽方舱进行了测试,针对方舱的门屏蔽效能不足的问题进行了详细的分析,并提出改进建议,比对改进前后的测试结果,提出进一步优化设计的设想.     

一种选择多小波预滤波器的方法

提出了多小波(Multiwavelet)预滤波器的选择原则—预滤波和多小波变换对原数据不引入任何形式的信息损失或失真,该原则对应于预滤波器和多小波滤波器组在频域内能谱密度恒为常数．在此基础上,得到了常用多小波预滤波器应满足的必要条件．提出了用于数据压缩的预滤波器的选择方法,该方法以数据高低频成分分离的分离效率为选择准则．以此准则,给出了常用多小波的最佳预滤波器．仿真实例证实了这种方法的有效性．     

一种基于电压向量分解的金属探测器的研制

本文首先在能耗式检测电路基础上,分析了限制传统金属探测器精度的因素,提出将电压向量分解为有功分量和无功分量,从而将探测线圈电感和电阻的变化分开以检测金属的方法,最后分析了各种属性金属对电压有功分量和无功分量的影响,所提出的检测原理提高了检测的精度和准确性.     

CuI Encapsulated within Single-Walled Carbon Nanotube Networks with High Current Carrying Capacity and Excellent Conductivity

High current carrying capacity and high conductivity are two important indicators for materials used in microscale electronics and inverters. However, it is challenging to obtain high conductivity and high current carrying capacity at the same time since high conductivity requires a weakly bonded system to provide free electrons, while high current carrying capacity requires a strongly bonded system. In this paper, CuI@SWCNT networks by filling the single-walled carbon nanotubes (SWCNTs) with CuI is ingeniously prepared. CuI@SWCNT shows good stability due to the confinement protection of SWCNTs. Through the host-guest hybridization, CuI@SWCNT networks exhibit a current carrying capacity of 2.04 × 10⁷ A cm⁻² and a conductivity of 31.67 kS m⁻¹. Their current carrying capacity and conductivity are significantly improved compared with SWCNT. The Kelvin probe force microscopy measurements show a drop of surface potential energy after SWCNT filled with CuI, indicating that the CuI guest molecules regulate the position of the Fermi level of SWCNTs, increasing carrier concentration, achieving high conductivity and high current carrying capacity. This study offers ideas and solutions for the regulation of high-performance carbon tube networks, which hold great promise for future applications in carbon-based electronic devices.     

双面镜多元并扫遥感图像的几何校正方法

双面镜多元并扫成像方式在星载仪器中已得到越来越广泛的应用,但相应的遥感图像的预处理工作的重要性也日渐突出.文中从成像方式和仪器结构方面考虑,针对双面镜多元并扫成像方式提出了一套0级数据的几何方法,并对处理前后的图像质量进行了比较.结果表明,该校正方法可有效地改善图像的几何质量,校正效果良好.     

嵌入式系统中SNMP Agent和WBM综合设计

SNMP是目前Internet中网络节点和主机管理的最重要协议,基于Web的网络管理近些年发展很快,但是,如何实现两种网管方式的有机结合和资源共享却有一系列问题需要考虑.文中结合宽带网络接入系统的项目设计,综合使用国际上最新的各种网络管理开发工具,对SNMP Agent和嵌入式Web网管系统进行了研究,着重讨论了实现本系统网管部分的关键技术和具体实现过程.     

Ultrabroadband Infrared Luminescence and Optical Amplification in Bismuth-Doped Germanosilicate Glass

This letter reports the ultrabroadband infrared luminescence from 1000- to 1700-nm wavelength range and demonstrate optical amplification at the second optical communication window in a novel bismuth-doped germanosilicate glass. The full-width at half-maximum of the luminescence is about 300 nm and the optical gain is larger than 1.37 within the wavelength region from 1272 to 1348 nm with pump power 0.97 W. This material could be useful to fabricate ultrabroadband optical fiber amplifiers.