Dual loop feedback pre-distortion in satellite communication

Since the satellite communication goes in the trend of high-frequency and fast speed, the coefficients updating and the precision of the traditional pre-distortion feedback methods need to be further improved. On this basis, this paper proposes dual loop feedback pre-distortion, which uses two first-order Volterra filter models to reduce the computing complexity and a dynamic error adjustment model to construct a revised feedback to ensure a better pre-distortion performance. The computation complexity, iterative convergence speed and precision of the proposed method are theoretically analyzed. Simulation results show that this dual loop feedback pre-distortion can speed the updating of coefficients and ensure the linearity of the amplifier output.

Analysis and design of DSP-based dual-loop controlled UPS inverters

This paper presents a novel digital dual-loop control scheme of the PWM(PUlse width modulate)inverter. Deadbeat control technique are employed to enhance the performance. Half switching period delayed sampling and control timing strategy is used to improve the system dynamic response. Simulation and experimental results presented in the paper verified the validity of the proposed control scheme.

Reliability Analysis on Repairable System with Dual Input Closed-Loop Feedback Link Considering Shutdown Correlation Based on Goal Oriented Methodology

Goal oriented( GO) methodology is a kind of success oriented system reliability analysis method and has been used widely.The repairable system with dual input closed-loop feedback link( DICLFL) considering shutdown correlation didn't make reliability analysis accurately based on existing GO methodology. So, a reliability analysis method used to deal with DICLFL considering shutdown correlation is provided based on GO methodology.Firstly, a new operator, which is used to describe DICLFL considering shutdown correlation,whose number is 1,is created and named as Type 9C operator. And then,the formulas of type 9C operator are derived based on Markov process theory. Finally,the new method presented in this paper is adopted to conduct the reliability analysis of an electro-hydraulic servo speed control system. The analysis result is compared with those of Monte Carlo simulation and fault tree analysis( FTA). The comparison results show that this new reliability analysis method based on GO methodology is feasible and meaningful for reliability analysis of repairable systems with DICLFL considering shutdown correlation.Meantime,it will be useful for more other applications.

高海拔潮气量双环PID控制系统研究

为解决高海拔地区气压降低导致急救呼吸机潮气量控制精度下降的问题,提出了双环PID潮气量控制系统。该系统采用气压补偿型PID控制器调整风机转速,并辅以积分分离式PID控制器,以实现对气流速度的精确控制。在实际海拔4370 m、大气压59 kPa的环境中,系统性能测试表明,相较于单环PID控制,双环控制系统在高海拔条件下表现出快速响应和无超调的卓越性能。平均气流速度输出误差为3.19%,最大误差为4.1%,优于现有临床设备的准确性。这一技术突破不仅提供了高海拔急救呼吸机潮气量控制的有效解决方案,也为特殊环境下的通气控制技术发展贡献了重要参考。

双调节因子的渐进插值Loop细分方法

针对逼近型Loop细分方法产生的极限曲面易凹陷收缩等问题,本文提出了双调节因子的渐进插值Loop细分方法。该方法分别在两步Loop细分方法、渐进迭代过程中引入不同的调节因子,使生成的极限曲面插值于初始控制网格的全部顶点,同时又具有收敛性、局部性和全局性,不仅可以灵活地对极限曲面的形状进行控制,而且一定程度上扩大了形状的可控范围。从数值实验可以看出,该方法通过改变双调节因子的值,可以较好地保留初始三角网格的特征,且生成的极限曲面收缩程度较小,是可行有效的。

基于双环控制的光伏制氢变流器设计与仿真

变流器是实现光伏发电适用于制氢系统的重要器件,因此,研究变流器相关技术具有十分重要的使用价值和理论意义。该文研究了光伏制氢变流器及双环控制方法。首先,根据光伏制氢系统要求分别计算Boost电路和Buck-Boost电路的元件参数。然后,设计了光伏发电模块的控制回路,通过控制Boost电路中IGBT的导通和关断来升高光伏阵列的输出电压,使其能够达到最大功率点。设计基于电流环和电压环相结合的双环控制策略,控制电路中开关的导通和关断,保证系统输出电压和功率的稳定。储能模块的控制回路通过控制Buck-Boost电路中IGBT的导通和关断,实现蓄电池的充电和放电使得母线电压保持稳定。蓄电池的控制回路采用双环控制,使得光伏制氢系统的控制精度更高。完成设计后搭建光伏制氢系统仿真模型,观察系统在不同情况下的输出波形,验证设计的可行性。

基于主动式阻尼的混合式步进电机转速振荡抑制控制

混合式步进电机因其特殊的机械结构导致自身阻尼极小,在实际运行过程中会发生振荡过大,甚至失步的问题。为提高混合式步进电机的控制品质,提出一种基于主动式阻尼的步进电机转速振荡抑制方法。首先,将电机模型转化至同步旋转dq坐标系,将电流i_d控制恒为额定电流,利用位置误差和速度误差调节电流i_q生成瞬时转矩,抑制电机运行时存在的振荡现象。其次,为实现电机闭环反馈控制,提出一种将同步频率提取滤波器(SFF)与三阶锁相环(PLL~3rd)相结合的无传感器控制方法。SFF可以滤除反电动势信号中的高次谐波,PLL~3rd能消除转速变化过程中的稳态误差。实验证明,该方法有效抑制了步进电机运行过程中的振荡现象,提升了电机的运行品质。

高空低温低气压模拟试验装置研制

面向飞行器高空环境相关气动基础问题研究需求,由低温模拟库嵌套低压模拟舱构建了海拔40 km以上高空大气环境模拟试验装置,采用双回路控制算法实现了低气压参数的精确快速模拟,系统工作真空度10 min内可达200 Pa以下;通过开发的制冷系统无级调节技术和冷热双回路PID自适应技术,实现了温度的稳定节能输出,温度控制精度为±0.5℃,温度均匀性优于±1℃。设计配套了环形回流风洞、螺旋桨带动力及翼型试验子系统,为开展高空环境飞行器气动性能测试提供了可靠的试验平台和技术保障。

考虑滑块动态特性的变质心四旋翼无人机双回路控制

针对滑块动态特性引入的附加干扰力矩造成系统姿态抖动强烈的问题,开展变质心四旋翼无人机滑块参数设计与姿态/伺服双回路控制研究。通过建立双滑块变质心四旋翼无人机八自由度运动模型,明确了滑块的引入对系统的影响,给出了与滑块动态特性相关的各项附加干扰力矩;分析并设计了滑块的安装位置、质量以及行程等参数,降低滑块对系统的耦合与干扰;最后以滑块驱动力作为控制量,设计了姿态/伺服双回路动态滑模控制器,同时利用非线性扰动观测器对复合扰动进行估计和补偿,并进行了仿真试验。仿真结果表明,在考虑滑块动态特性的情况下,所设计的控制器能够实现对变质心四旋翼无人机的姿态控制,并具有良好的抗干扰性能与鲁棒性。

Dual-Delay-Path Ring Oscillator with Self-Biased Delay Cells for Clock Generation

This work summarizes the structure and operating features of a high-performance 3-stage dual-delay-path (DDP) voltage-controlled ring oscillator (VCRO) with self-biased delay cells for Phase-Locked Loop (PLL) structurebased clock generation and digital system driving. For a voltage supply VDD = 1.8 V, the resulting set of performance parameters include power consumption PDC = 4.68 mW and phase noise PN@1MHz = -107.8 dBc/Hz. From the trade-off involving PDC and PN, a system level high performance is obtained considering a reference figure-of-merit ( FoM = -224 dBc/Hz ). Implemented at schematic level by applying CMOS-based technology (UMC L180), the proposed VCRO was designed at Cadence environment and optimized at MunEDA WiCkeD tool.

球形转向轮仿真设计

设计一种应用于农田作业环境尤其是蔬菜大棚环境的球形转向轮,为农业机器人在农田环境下不能顺利球形移动的问题提供一种解决办法。球形转向轮采用双轮驱动方式,同轴直流减速电机驱动,产生转矩从而前后左右移动,并以陀螺仪检测补偿,实现轮系闭环控制,再通过上位机整体驱动轮系运转,并设置补偿环节,使得下位机整体闭环,实现该轮系整体驱动与控制,使得农业机器人在野外球形移动,尽可能少地受到环境的约束。

不平衡负载下并网逆变器功率解耦控制方法

为了解决并网逆变器在不平衡负载下有功功率和无功功率为耦合影响状态、关联复杂,导致控制精度不佳、响应慢等问题,提出不平衡负载下并网逆变器功率解耦控制方法。根据并网逆变器拓扑结构获取并网逆变器功率,对并网逆变器有功功率与无功功率实行解耦,并通过带比例系数的双闭环功率控制器,完成并网逆变器功率解耦控制。在此基础上,通过遗传算法进行控制参数优化,获取比例系数的最优解,进一步提高并网逆变器功率解耦控制能力。实验结果表明:解耦后的控制方法在并网逆变器响应功率与给定功率上基本一致,解耦后的功率波动范围降低了8 kW,功率控制电流和功率波动最小,具有良好的控制效果。

双能量源纯电动汽车制动能量回收控制策略研究

该文以前轮永磁直流电机驱动的双能量源纯电动汽车为研究对象,以开发合理高效的纯电动汽车制动能量回收系统及设计相应的控制策略为目的,建立了蓄电池、超级电容、双向DC/DC变换器等部件的数学模型,并进行了双能量源系统主回路、恒流恒压双闭环PI控制器设计研究,建立了系统的仿真模型并进行仿真。仿真结果表明,PI控制器可有效实现恒流恒压充放电过程,恒流充电以限制充电电流,当蓄电池达到额定电压或超级电容SOC饱和后再进行恒压充电,实现了保护储能元件并完全充电的目的。

“微观经济学”课程“四重构+双循环”改革实施路径探索——基于OBE理念

当前的“微观经济学”课程教学存在内容偏重理论、教学方法过于讲授式、评价方式单一以及反馈机制不够完善等问题。文章基于OBE理念,对“微观经济学”课程改革实施路径进行分析,提出了“四重构+双循环”的改革策略,包括重构学习目标、教学内容、教学方法和评价体系,并建立校内、校外两个反馈机制,从而提高学生的学习积极性和教学质量,更好地培养学生的创新能力和实践能力。

基于双分支编码的闭环分割网络

Transformer模型中,卷积视觉转换器(CvT)具备同时提取图像的局部和全局特征的能力而受到关注.对于腹部器官分割问题,为了解决CNN模型分割目标边界轮廓模糊不清的问题,提出了一种新颖的基于CvT和CNN的双分支闭环分割模型DBLNet.模型利用形状先验和预测结果的分割轮廓显式监督并指导网络学习过程.模型包括:轮廓提取编码模块(CEE)、边界形状分割网络(BSSN)和闭环结构.CEE模块首次利用改造的3D CvT和3D门控卷积层(GCL)捕获多层级轮廓特征,并辅助BSSN训练.BSSN模块设计形状特征融合模块(SFF)同时捕获目标区域和轮廓特征,推动CEE训练拟合.闭环结构使得双分支的分割结果互相反馈并辅助对方的训练.DBLNet在BTCV排行榜上测试,平均Dice得分为0.878,排名第13位;在临床医院数据进行应用测试,表现出强大的性能.

全保偏飞秒光纤激光器异步锁定技术研究

基于全保偏掺铒光纤激光器、锁相环系统和太赫兹测距光路搭建了一套太赫兹双光梳测距系统。所采用的全保偏掺铒光纤激光器重复频率为79.261 MHz。利用压电陶瓷(piezoelectric ceramics,PZT)和步进电机(stepper motor,SM)双级反馈控制的方案,实现了重复频率锁定和重复频率1.54 MHz可调。使用频率计数器对双光梳重复频率锁定效果进行监测,重复频率锁定的峰峰值抖动为±1.5 mHz,抖动标准差为0.4 mHz。将双光梳重频差设置在10 Hz,10 min内重复频率差最大抖动为3 mHz,标准差为0.6 mHz。进一步将异步采样双光梳系统应用于太赫兹测距,测量移动距离的误差为3µm。该系统具有锁定精度高,稳定性强等优势,有望应用于生物无损检测和工业精密加工中。

永磁无刷轮毂电机轮对系统同步工况下的协调控制策略

针对双轮毂电机在负载不平衡工况下转速同步精度不够及同步响应速度不快的问题,该文提出速度环补偿PID交叉耦合同步控制和电流环补偿PID交叉耦合同步控制策略。首先,建立双轮毂电机的数学模型,采用双闭环六步方波控制。基于该模型,采用速度环补偿PID交叉耦合同步控制代替单增益交叉耦合控制器,使转速同步调节精度提升。在两侧电机负载不平衡工况下,用电流环补偿PID交叉耦合控制方法进一步提升转速同步精度,同时加快同步响应速度,并兼顾了转矩精度。仿真和实验验证了所提控制策略的正确性和有效性。

模糊PID控制对电磁耦合调速器的转速控制研究

为了提高PI算法控制的转速-电流双闭环控制模型对电磁耦合调速器转速的控制性能与鲁棒性,将模糊PID算法注入转速控制环,通过Simulink进行建模仿真,利用PSO算法优化模糊PID的控制参数,并利用模糊PID控制对电磁耦合调速器进行转速控制试验。结果表明:优化后的目标转速较PI算法在超调量方面减少了23.31 r/min,扰动量减少了19.8 r/min,稳定时间缩短了0.101 s;试验后的模糊PID控制消除了超调,稳定时间较PID算法缩短了4 s;模糊PID控制算法能够提高转速-电流双闭环对电磁耦合调速器的转速控制性能与鲁棒性,相比PI算法和PID算法具有优化效果。

A Low Profile Four-Way Directional Antenna with Dual Polarization

This paper presents a low profile dual polarized directional antenna composed of loop and dipole arrays mounted on a ground plane with each loops and dipoles being fed independently. Each loop antenna is paired with a reflector while each dipole antenna is paired with a director and a reflector. The proposed antenna is intended for an indoor base station (BS) with resonance frequency of 2.4 GHz and capable of producing four orthogonal directional pattern with downward elevation angle equals to 30°;and half power bandwidth (HPBW) less than 80°;in both vertical and horizontal polarization. The reflection characteristics of the loop and dipole arrays are less than -10 dB and the mutual coupling between the vertical and horizontal polarization elements is nearly less than -20 dB. In later progress, the dipole antenna was substituted with printed dipole antenna to achieve a better performance. Both the calculated and measured results demonstrated that the desired radiation patterns were achieved, and the measured results agreed well with the calculated ones. Consequently, a low profile antenna with a thickness of 0.16 λ (20 mm) having the expected radiation pattern is successfully designed.

EFFICIENT COMPUTATIONAL METHOD FOR TRANSIENT EM RESPONSE OF LARGE-LOOP SOURCE OVER LAYERED EARTH

Calculations of the ElectroMagnetic(EM) response produced by a large horizontal loop placed over layered medium are rather complex because its integral expression contains the product of two Bessel functions and has a divergent term. In this paper, an improved fast Hankel and Gaver-Stehfest transforms are introduced to solve the strong-oscillation and slow-decay properties of the integrand, where one Bessel function in the product is substituted by a carefully chosen polynomial of high accuracy and the other used as the digital filter coefficients in the convolution integral. Comparisons prove the validity and the efficiency of the proposed method.