基于增强现实技术的移动LBS系统的设计与实现

基于位置服务发展迅速,利用增强现实技术开发LBS系统,对人机界面与GIS服务整合具有重要的理论和现实意义。在此基础上,设计一个空间信息服务的构建与发布机制,利用智能终端配备的传感装置,在Android平台手持设备下扩展增强现实功能,融合真实场景和虚拟信息,搭建远程Web服务器完成数据交互,得到整体基于Web服务的LBS原型系统。     

ERDAS LPS与TerraSolid软件相结合快速制作低空数码遥感正射影像图的方法

分析了ERDAS的LPS模块制作DOM的方法及其存在的缺点,介绍了一种结合ERDAS LPS与TerraSolid软件,快速处理超轻型飞机低空数码遥感系统获取的数码航摄影像,制作DOM的技术流程,并通过实验验证了此方法在超轻型飞机低空数码大比例尺航空正射影像图制作中的适应性.     

Linux下基于ARM的工业控制终端与PLC通信技术的研究与应用

结合自动切纸机的嵌入式工业控制终端的开发,分析了Linux下以ARM9为处理器的工业控制终端与三菱F×系列PLC通信的过程.详细介绍了ARM与PLC之间的通信协议、通信命令、通信机制,可以实现ARM与PLC之间实时数据交换和控制功能.     

C8051F单片机在自动机器人上的应用

以2007年CCTV大学生机器人大赛自动机器人为对象,系统阐述了自动机器人的控制电路.     

基于TM影像的典型内陆淡水湿地水体提取研究

水是维系湿地生态系统稳定和健康的决定性因子,利用卫星遥感影像快速、准确地提取湿地水体信息已经成为湿地调查、研究与保护的重要手段。鉴于TM遥感影像具有较高的空间分辨率、波谱分辨率、极为丰富的信息量、较高的定位精度和相对较低的价格,其必然成为近一段时期湿地调查、研究与保护的重要数据源之一。研究基于TM遥感影像,运用多种方法针对典型内陆淡水湿地的水体信息进行了提取实验,通过对实验结果的分析得出：在面积的准确性、提取的准确度以及视觉效果3种指标下,光谱分类法较其它方法效果要好,其次为单波段阈值分析法与植被指数法,较差的是多波段谱间关系法与水体指数法;影响提取效果的主要原因是湿地水体提取不够完全,这是由影像的分辨率及湿地特殊的水文条件所造成的,采用像元分解及多源遥感数据融合技术将成为提高水体提取精度的重要手段。     

基于微气泡散射的水下无线光通信复合信道建模

海浪、船舶尾流以及海洋生物游动与呼吸等原因会导致海水中存在大量的气泡,气泡群带来的散射效应对光信号的水下传输具有重要影响,但典型的水下无线光通信信道模型一般不考虑气泡群带来的负面效应。为了进一步完善传统的水下无线光通信信道模型,本文利用Mie散射理论分析海水中的微气泡及微气泡群光散射特性,基于蒙特卡洛法建立包含气泡散射的复合海水信道模型,分析不同海水水质、气泡密度、链路距离等参数条件下接收端的光学特性和信号特性。结果表明:当链路距离为5m时,随着气泡密度的增大,接收端光斑的弥散程度加剧,其面积可增至初始大小的3～5倍,中心能量也显著降低,最多可降至最大值的05;当链路距离为10～40m时,气泡群的存在以及链路距离的增长会导致接收端第一次接收到光子的时间延长约10～200ns,且使脉冲展宽值增大;当链路距离为2～10m时,气泡群密度的增大最多可使归一化接收功率降低至初始值的0004,但随着水质的恶化,其他粒子含量提高,气泡群对接收功率的影响逐渐减小。该研究可以为水下无线光通信系统的设计和理论分析提供参考。     

面向蜂巢式微机电陀螺模态交换工作模式的卡尔曼滤波

该文对模态交换工作模式下的蜂巢式微机电陀螺进行了噪声成分分析,并建立了噪声模型。提出采用卡尔曼滤波降低陀螺输出白噪声的方法,从而提升陀螺的静态性能,该方法可用于惯性寻北。实验结果表明,经滤波后陀螺输出在采样时间1 s下与未滤波前的平滑时间100 s下的陀螺输出噪声水平相当。陀螺输出白噪声幅值降低,从而缩短寻北时间。实际应用中,最短寻北时间可由卡尔曼滤波初值收敛后的时间进行标定。     

Minimizing Energy Barrier in Intermediate Connection Layer for Monolithic Tandem WPeLEDs with Wide Color Gamut

Perovskite light-emitting diodes (PeLEDs) show promising prospects in the wide color gamut display owing to their ultra-narrow full width at half maximum (FWHM). However, up to now, all perovskite white LEDs integrated by standard red, green, and blue perovskite emitters, namely, monolithic white PeLEDs (WPeLEDs), have been rarely reported, owing to facing some issues, e.g., solvent incompatibility in solution technique, ion exchange, and energy transfer between different emission centers. Herein, centered on these issues, an optimal intermediate connection layer (ICL) of Po-T2T/LiF/Ag/HAT-CN/MoO₃ is adopted to successfully develop monolithic tandem multicolor PeLEDs and WPeLEDs for the first time. The multicolor PeLEDs can achieve the best external quantum efficiency of 1.8% and the highest luminance of 4844 cd m⁻². Besides, the red/green/blue (R/G/B) monolithic tandem WPeLED shows a standard white International Commission on Illumination coordinate of (0.33, 0.33) and achieves an extremely wide color gamut reaching  National Television Standards Committee of 130%. This study is the first to realize the standard R/G/B co-electroluminescence in a monolithic perovskite device and offers a feasible strategy for developing wide-color gamut perovskite displays.     

Doped/Undoped A1-A2 Typed Copolymers as ETLs for Highly Efficient Organic Solar Cells

The electron transport layer (ETL) is a critical component in achieving high device performance and stability in organic solar cells. Conjugated polyelectrolytes (CPEs) have become an attractive alternative due to film-forming properties and ease of preparation. However, p-type CPEs generally exhibit poor charge mobility and conductivity, incorporation of electron-withdrawing units forming alternated D-A conjugated backbone can make up for these deficiencies. Herein, the ratio of electron withdrawing moieties are further increased and two poly(A1-alt-A2) typed PIIDNDI-Br and PDPPNDI-Br based on the combination of naphthalene diimide (NDI) with isoindigo (IID) or diketopyrrolopyrrole (DPP) via direct arylation polycondensation are synthesized. These CPEs possess excellent alcohol solubility, a suitable lowest unocuppied molecular orbital energy level, and work function tunability. Surprisingly, the incorporation of IID and DPP units generate distinct self-doping behaviors, which are confirmed by UV–vis absorption and ESR spectra. However, no matter doped or undoped, both CPEs present better charge-transporting properties and conductivity when utilized as ETLs. The PIIDNDI-Br and PDPPNDI-Br display good universal compatibility with the blend of PM6:Y6 and PM6:L8-BO, and PCEs of 18.32% and 18.36% are obtained, respectively, which also present excellent storage stability. In short, the combination of two different acceptors demonstrates an efficient strategy to design highly efficient ETLs for high performance photovoltaic devices.     

Electronic Auction Scheme Based on Smart Contract and IPFS

Sealed-bid auctions are a vital transaction tool in the e-commerce field. Traditional centralized auction schemes typically result in severe threats to data integrity,information transparency,and traceability owing to their excessive reliance on third parties,and blockchain-based auction schemes generally suffer from high storage costs and are deficient in functional and architectural design. To solve these problems,this study presents a sealed-bid auction scheme that removes the third-party bas...