一种超混沌映射的单双参量自适应同步

利用参量自适应法实现了超混沌系统Kawakami映射的同步.通过严密的数学推导,给出了Kawakami映射在单参量自适应下实现同步的充分条件,并在双参量自适应控制下系统同样实现了同步.数值模拟结果显示,该映射输出具有类似于白噪声的宽谱特性,因此比较适合用于保密通信.     

基于硅基硼掺金刚石电极的电化学-原位核磁共振波谱电解池的设计、制备与可行性研究

电化学与核磁共振波谱联用技术(EC-NMR)可以实时监测电化学反应过程,从分子水平阐释反应机理,是一种非常有前景的无损在线检测技术.本文首次报道以硅基硼掺金刚石(Si/BDD)作为工作电极的原位EC-NMR三电极单室电解池的设计和制作.研究表明,由于尺寸12.5 mm×1.2 mm×0.5 mm的Si/BDD电极在核磁...     

超级微波消解－石墨炉原子吸收光谱法测定香菇中的镉

为建立一种快速批量检测香菇中镉的方法,建立了超级微波消解－石墨炉原子吸收光谱法测定香菇中镉含量的方法。分别采用湿法消解、普通微波消解和超级微波、传统微波和湿法消解技术前处理香菇标准物质样品,对比消解效果,优化超级微波消解技术的酸体系和消解最终温度。;采用石墨炉原子吸收光谱仪法测定,优化基体改进剂、灰化温度等工作参数,确定仪器最佳检测条件,验证分析方法的准确性和稳定性。结果表明,超级微波消解优于湿法消解和传统微波消解技术,准确性和重复性最佳,大幅减少用酸量的同时更加安全、高效,避免样品污染。在最优分析方法条件下,镉在0~4.0 μg/L范围内所得回归方程线性关系良好,相关系数(R)为0.9994,方法检出限为0.001 mg/kg,精密度RSD为1.4%~2.5%。超级微波消解－石墨炉原子吸收光谱法检测的探索与应用超级微波消解优于湿法消解和传统微波消解技术,大幅减少用酸量的同时更加安全、高效,避免样品污染,为农产品镉含量批量检测提供可靠的方法支撑。     

ZnO薄膜的丙酮气敏特性研究

用直流磁控反应溅射法,分别在Si(111)基片及Al2O3陶瓷基片上制备了ZnO薄膜,并进行TiO2、SnO2、Al2O3或CuO的掺杂和退火处理。用XRD分析了退火前后晶型的变化,利用气敏测试系统对各样品进行了气敏特性测试。结果表明:经过700℃退火后的样品,在最佳工作温度为220℃时,对丙酮有很好的选择性和很高的灵敏度(34.794)。掺杂TiO2或SnO2,可提高ZnO薄膜传感器对丙酮的灵敏度(57.963)。     

基于生成对抗网络的动态心电信号QRS波检测

心电信号分析是预防心血管疾病的重要举措,QRS波的精确检测不仅是心电信号处理的关键步骤且对心率计算和异常情况分析具有重要作用.针对动态心电信号存在信号质量差或异常节奏波形导致常用QRS波检测方法精度较低的问题,本文提出了 一种基于生成对抗网络新型QRS波检测算法.该算法以Pix2Pix网络为基础,生成网络采用U-Net...     

产品开发活动中文件和记录的控制

本文论述了在产品开发过程中,文件的分类,文件的有效性控制、技术性控制、管理性控制的内容和控制方法,以及记录的控制要求和方法.     

Inhibitory Effect and Mechanism of Chitosan–Ag Complex Hydrogel on Fungal Disease in Grape

Hydrogel antibacterial agent is an ideal antibacterial material because of its ability to diffuse antibacterial molecules into the decayed area by providing a suitable microenvironment and acting as a protective barrier on the decay interface. The biocompatibility and biodegradation make the removal process easy and it is already widely used in medical fields. However, there have been few reports on its application for controlling postharvest diseases in fruit. In this study, the Chitosan–silver (CS–Ag) complex hydrogels were prepared using the physical crosslinking method, which is used for controlling postharvest diseases in grape. The prepared hydrogels were stable for a long period at room temperature. The structure and surface morphology of CS–Ag composite hydrogels were characterized by UV-Vis, FTIR, SEM, and XRD. The inhibitory effects of CS–Ag hydrogel on disease in grape caused by P. expansum, A. niger, and B. cinerea were investigated both in vivo and in vitro. The remarkable antibacterial activity of CS–Ag hydrogels was mainly due to the combined antibacterial and antioxidant effects of CS and Ag. Preservation tests showed that the CS–Ag hydrogel had positive fresh-keeping effect. This revealed that CS–Ag hydrogels can play a critical role in controlling fungal disease in grapes.     

A new de-noising method based on 3-band wavelet and nonparametric adaptive estimation

Wavelet de-noising has been well known as an important method of signal de-noising. Recently,most of the research efforts about wavelet de-noising focus on how to select the threshold,where Donoho method is applied widely. Compared with traditional 2-band wavelet,3-band wavelet has advantages in many aspects. According to this theory,an adaptive signal de-noising method in 3-band wavelet domain based on nonparametric adaptive estimation is proposed. The experimental results show that in 3-band wavelet domain,the proposed method represents better characteristics than Donoho method in protecting detail and improving the signal-to-noise ratio of reconstruction signal.     

一种基于流水线的MQ编码器FPGA设计

提出了一种应用于JPEG2000标准的4级流水线MQ编码器设计方案.采用状态超前更新,前导0位超前检测和字节输出缓冲策略,解决了在上下文(CX)状态表更新、归一化及字节输出过程中的反馈和循环等问题,提高了编码效率.同时,对关键路径处算法进行优化,提高了系统工作的时钟频率.该设计使用VHDL语言在RTL级描述,并在FPGA上对其进行了仿真验证.实验表明,在Altera的StratixⅡ EP2S601020C4上,编码器的工作效率可以达到1CxD/cycle,最高工作时钟频率可达99.66 MHz.     

NO在稀有金属钇表面的吸附行为

以往的理论在预测六方结构(HCP)金属的表面能时,计算值与实验值存在较大误差.鉴于此,本文首先用一种较为合理的方法精准地预测了稀有金属钇(Y)(0001)面的表面能,计算值(1.141 J/M²)与实验值(1.125 J/M²)吻合的很好.随后,系统研究了NO小分子在Y(0001)面不同位置(空位、桥位和端位)的吸附行为.结果表明:空位(H1)表现出了良好的吸附能力,吸附能超过了5eV,同时N-O键长伸长量超过了24%,此时,NO分子几乎平行地吸附于Y(0001)表面.所有的吸附位置的N-O分子伸长量范围为0.2?-0.42?.这种伸长量明显超过了NO在其它金属表面时的计算结果.