江苏移动利用信令监测系统实现回拨业务分析

对网间互联互通中存在的回拨卡和回拨呼叫发生原理和业务特征进行了深入分析,详细说明了信令监测系统对于回拨呼叫行为的分析和统计。该分析有助于移动运营商有针对性拦截处理,减少异常欺诈业务对移动用户呼叫的影响。也对信令监测系统的深入分析应用有促进作用。     

硅薄膜太阳电池高效陷光结构的研究

利用严格耦合波分析方法和模式传输线理论,对硅薄膜太阳电池结合DBR（Distributed Bragg Reflector,分布布拉格反射器）和衍射光栅的叠层底部背反射器结构进行了优化设计。结果表明,光栅周期、光栅厚度和光栅宽度分别为0.5λg、0.18λg、0.48λg（λg为硅的带隙波长）以及对应的DBR中心波长为0.85μm时,太阳电池对光子的总吸收最强,且总吸收的提高主要来自于对长波光子的吸收增强,提高了薄膜太阳能电池对长波光子的陷光能力。     

卫星电视快速寻星及多功能接收技术

利用量角器法和平面解析法进行实地卫星接收调试,总结出了快速定星的便捷实用的方法及单体多功能接收技术.     

个性化回铃音业务的技术发展和建设探讨

个性化回铃音业务作为一种新型的语音增值业务,由于其创新的业务视角,目前已经得到了广泛的开展和应用.本文对目前各通信网络中的个性化回铃音业务解决方案进行了对比和分析,对于其发展进行了探讨和展望.     

利用斜方棱镜实现平行光管校准

平行光管是光学实验及计量检测的重要设备.平行光管处于离焦状态将给检测结果带来诸多不良影响.文章提出斜方棱镜校准法,利用斜方棱镜的光轴平移作用,将平行光管的两束边缘光分别入射到同一个CCD中,分划板成像在不同位置则说明分划板偏离物镜后焦面,根据成像位置调整分划板位置,实现平行光管的校准.对可能产生的误差进行了分析,得出在增加8倍望远镜的情况下精度可以达到2”以内,并通过实验验证了该方法的可行性和准确性.     

内存映射文件及其在广义舒适度仿真中的应用

本文分析了win32系统下的虚拟内存系统模式及内存映射文件的工作机理,介绍了如何用windows API将文件映射至内存,利用原型页表入口技术实现了多个进程之间的数据共享。通过实验数据得出,采用内存映射文件读取高速服役列车的广义舒适度仿真中的超大数据文件,其效率远远高于传统的基于文件I/O方式的数据存取。     

三维快速因式分解后向投影算法

后向投影算法具有精确成像、易于补偿、适于多种阵列构型及信号形式等优点,广泛应用于雷达成像领域。针对三维成像中,巨大计算量带来的低运算效率问题,文中利用孔径分块的方式将二维快速因式分解后向投影（FFBP）扩展至三维成像应用,建立了适于三维FFBP成像的三维极坐标系,对三维FFBP中孔径划分问题、算法实现问题以及计算效率问题进行了分析。仿真结果验证了该算法,其成像效率可提高13.8倍。     

DSOI-a novel structure enabling adjust circuit dynamically

A double silicon on insulator (DSOI) structure was introduced based on fully depleted SOI (FDSOI) technology. The circuit performance could be adjusted dynamically through the separate back gate electrodes applied to N-channel and P-channel devices. Based on DSOI ring oscillator (OSC), this paper focused on the theoretical analysis and electrical test of how the OSC''s frequency being influenced by the back gate electrodes (soi2n, soi2p). The testing results showed that the frequency and power consumption of OSC could change nearly linearly along with the back gate bias. According to the different requirements of the circuit designers, the circuit performance could be improved by positive soi2n and negative soi2p, and the power consumption could be reduced by negative soi2n and positive soi2p. The best compromise between performance and power consumption of the circuit could be achieved by appropriate back gate biasing.     

A stacked chalcopyrite thin‐film tandem solar cell with 1.2 V open‐circuit voltage

CuGaSe₂ (CGS) thin films were prepared on tin‐doped indium oxide (ITO) coated soda‐lime glass substrates by thermal co‐evaporation to fabricate transparent solar cells. The films consisted of columnar grains with a diameter of approximately 1 μm. Some deterioration of the transparency of the ITO was observed after deposition of the CGS film. The CGS solar cells were electrically connected in series with Cu(In,Ga)Se₂ (CIGS) solar cells and mechanically stacked on the CIGS cells to construct tandem cells. The tandem solar cell with the CGS cell as the top cell showed an efficiency of 7.4% and an open‐circuit voltage of 1.18 V (AM 1.5, total area). Copyright © 2003 John Wiley & Sons, Ltd.     

Simulation analysis of the effects of a back surface field on a p-a-Si:H/n-c-Si/n+-a-Si:H heterojunction solar cell

In order to investigate the effects of a back surface field（BSF） on the performance of a p-doped amorphous silicon（p-a-Si：H）/n-doped crystalline silicon（n-c-Si） solar cell,a heterojunction solar cell with a p-a-Si：H/n-c-Si/n^＋-a-Si：H structure was designed.An n^＋-a-Si：H film was deposited on the back of an n-c-Si wafer as the BSF.The photovoltaic performance of p-a-Si：H/n-c-Si/n^＋-a-Si：H solar cells were simulated.It was shown that the BSF of the p-a-Si：H/n-c-Si/n^＋-a-Si：H solar cells could effectively inhibit the decrease of the cell performance caused by interface states.