余弦形过渡段阶梯形变幅杆研究

推导出余弦形单一超声变幅杆的等效四端网络参量.基于传递矩阵法,得到了具有余弦形过渡段阶梯形变幅杆的频率方程和振幅放大系数.在对前后段相等的这种复合变幅杆分析后发现,用余弦形变幅杆作阶梯形变幅杆的过渡段,可以得到较好的效果.

余弦形超声变幅杆的改进

推导了改进的余弦形超声变幅杆的频率方程、各参数的计算公式以及等效四端网络传输矩阵参量,并与其它类型的变幅杆进行比较.结果表明,余弦形变幅杆具有和指数形变幅杆相同的放大系数和频率方程,同样可作为单一变幅杆使用.

半波长余弦形超声聚能器

本文导出了半波长余弦形聚能器的频率方程以及参数的计算式和曲线。根据理论公式设计制作了这种聚能器。通过对谐振频率及放大系数的测量发现实测值与理论值吻合。

余弦形预制双曲梁非线性隔振器的隔振性能

设计了中点固结的余弦形预制双曲梁非线性隔振器,以用于船舶设备的主动与被动隔振.给出了余弦形预制双曲梁隔振器所受横向压力-位移关系解析表达式,分别建立了主动与被动隔振系统的非线性振动微分方程,利用谐波平衡法求得近似解析解,并与龙格-库塔法的数值解进行比较,给出了力传递率与位移传递率的表达式.同时,研究了在不同的非线性刚度系数、激励幅值、阻尼系数条件下,余弦形预制双曲梁隔振器的力传递率与位移传递率的变化规律.结果表明:谐波平衡法的解析解与龙格-库塔法的数值解基本吻合;所设计的非线性隔振器具有优良的低频隔振效果,其响应和隔振性能与激励幅值和阻尼有关.

滚降系数不匹配对基带传输系统的性能影响

介绍了高速数字基带传输系统的基本要求,重点仿真分析了滚降系数不匹配时,采用数字成形滤波技术对数字基带传输系统的性能的影响。仿真结果表明,滚降系数误差对高速数字基带传输系统有重要的影响,通过调节接收端的滚降系数能改善系统性能。对工程中数字基带传输系统的设计与研究以及高速通信中的成形滤波器的实现有着重要的指导意义。

新型超声复合变幅杆的设计及有限元分析

超声变幅杆是超声振动系统中的一个重要部件。设计了余弦半周期圆柱形复合变幅杆,实现了余弦段与圆柱段的平滑过渡。通过理论计算,推导了其频率方程和放大系数公式。结果表明,新型余弦圆柱形复合变幅杆的频率方程比圆柱圆锥形复合变幅杆和阶梯形变幅杆更为简单;新型余弦半周期圆柱形复合变幅杆的放大系数公式与阶梯形变幅杆相似,比圆柱圆锥形复合变幅杆更为简捷。利用ABAQUS有限元分析软件,对所设计的余弦半周期圆柱形复合变幅杆进行了模态分析,确定了其固有频率和振型;进行谐响应分析,检查了理论设计的可行性。模态分析和谐响应分析结果表明,当余弦段长度为55、60 mm时,超声复合变幅杆性能最优。研究结果为超声复合变幅杆的设计与应用提供了参考。

一种基于高阶累积量和谱特征结合的卫星信号调制识别方法

为了提升卫星通信系统的频带利用率,卫星通信信号常采用升余弦、高斯等信号成形方法。由于信号高阶累积量的理论值以矩形成形为基础,未考虑其他成形方式,采用上述理论值作为特征参量将导致信号调制识别性能受限。针对这一问题,仿真了升余弦成形后的BPSK、QPSK、8PSK、OQPSK、pi/4-QPSK、16QAM和高斯成形后的GMSK等7种信号的高阶累积量并提取特征,同时基于信号包络四次方谱提取GMSK信号的识别特征。在提取上述两类特征和信号四次方谱特征的基础上,使用决策树分类器对上述7种常见卫星信号进行调制识别。仿真结果表明,在信噪比为3 dB下,所提算法对7种信号的调制识别概率可以达到95%。

基于UG的三维参数化曲面车刀建模及ANSYS强度分析

由于现代数控车刀设计有断屑槽,形成了不同形状的前刀面,本文利用UG强大的三维实体参数化建模的功能,建立了余弦柱面形前刀面车刀。并利用有限元软件ANSYS的分析功能,对相同前角下的余弦柱面形与平面形车刀进行强度分析。通过观察刀头内部应力、应变的大小,得出余弦柱面形前刀面比平面形前刀面车刀的刃磨强度高,为刃磨高强度的车刀提供依据。

Study on the Splicing Principle of the Air Splicer for Auto-coner

The shaping form of an untwisted yarn-end for the air splicer is analyzed and then a cosine curve form which will have practically good splicing effect is proposed. The yarn motion in the splicing nozzle by applying hydrodynamics and the splicing principle of the air splicer are also studied.

Wave Attenuation Properties of Double Trapezoidal Submerged Breakwaters on Flat-Bed

This paper investigates the wave attenuation properties of the double trapezoidal submerged breakwaters on the flat-bed by conducting physical experiments subjected to linear and cnoidal incident waves.The method of Goda's two points is used to separate the heights of incident,reflected and transmitted waves based on the experimental data.The possible factors affecting the wave attenuation properties of the double trapezoidal submerged breakwaters(i.e.,the relative submerged water depth,relative breakwater spacing,wave steepness and relative wave height) are investigated with respect to the reflection and transmission coefficients.The results show that there is a range,within which the breakwater spacing has little impact on the reflection coefficient,and the transmission coefficient tends to be a constant.The influence of the wave steepness is reduced while the breakwater spacing is too large or too small.Within the range of the relative wave height tested in this study,the reflection and transmission coefficients increase and decrease with the relative wave height,respectively.The double trapezoidal submerged breakwaters model indicates a good attenuation effect for larger wave steepness,big relative wave height and within the range of the relative breakwater spacing between 12.5 and 14 according to linear and cnoidal waves.The changes of wave energy spectra between the double submerged breakwaters on the flat-bed are investigated by the fast Fourier transform(FFT) method,showing that wave energy dissipation can be reached more effectively when the relative breakwater spacing is 12.5.

A Coupled Hybrid Lattice: Its Related Continuous Equation and Symmetries

The hybrid lattice, known as a discrete Korteweg-de Vries (KdV) equation, is found to be a discrete modified Korteweg-de Vries (mKdV) equation in this paper. The coupled hybrid lattice, which is pointed to be a discrete coupled KdV system, is also found to be discrete form of a coupled mKdV systems. Delayed differential reduction system and pure difference systems are derived from the coupled hybrid system by means of the symmetry reduction approach. Cnoidal wave, positon and negaton solutions for the coupled hybrid system are proposed.

卫星通信信号体系调制识别技术

对常用卫星通信信号的高阶累积量和高阶谱的谱线特征进行了理论分析与仿真,提出一种基于高阶累积量和谱特征相结合的卫星通信信号调制方式识别方法。该方法从升余弦成形信号的高阶累积量、功率谱、平方谱和四次方谱中提取一组健壮性强的特征参数,在没有先验知识的条件下,完成对卫星信号符号速率和载波频率的盲估计,并在此基础上实现调制方式的自动识别。该方法涵盖了目前绝大多数的卫星通信调制方式,初步形成了卫星通信信号调制识别体系。仿真实验表明,该方法能够克服升余弦成形带来的影响,在实际中有较好的应用前景。

具有连续多行程恒力柔顺机构设计

为实现多段恒力功能,提出一种基于并联负刚度结构的多行程恒力柔顺机构设计方法。以一种新型余弦形曲梁作为负刚度结构,其负刚度行程大、线性度高,与具有正刚度特性的复合梁组合后,以实现连续两段恒力输出性能。采用伪刚体法和基于能量法的瑞利一里兹法建立多行程恒力柔顺机构的理论分析模型,有限元仿真结果验证理论模型的准确性。以提高恒力范围为目标,分析主要尺寸参数对力学特性的影响,优化初始尺寸参数。制作且测试优化后的恒力机构样机,实验结果表明恒力机构两段恒力范围分别为1mm~6.8mm、8.8mm~14.4mm,输出恒力分别约为7.7N、19.7N,证明了设计方法的有效性。

Interaction Behaviours Between Solitons and Cnoidal Periodic Waves for (2＋1)-Dimensional Caudrey–Dodd–Gibbon–Kotera–Sawada Equation

The consistent tanh expansion(CTE) method is employed to the(2+1)-dimensional Caudrey–Dodd–Gibbon–Kotera–Sawada(CDGKS) equation. The interaction solutions between solitons and the cnoidal periodic waves are explicitly obtained. Concretely, we discuss a special kind of interaction solution in the form of tanh functions and Jacobian elliptic functions in both analytical and graphical ways. The results show that the profiles of the soliton-cnoidal periodic wave interaction solutions can be designed by choosing different values of wave parameters.