Optimization of CNC Turning Machining Parameters Based on Bp-DWMOPSO Algorithm

Cutting parameters have a significant impact on the machining effect.In order to reduce the machining time and improve the machining quality,this paper proposes an optimization algorithm based on Bp neural networkImproved Multi-Objective Particle Swarm(Bp-DWMOPSO).Firstly,this paper analyzes the existing problems in the traditional multi-objective particle swarm algorithm.Secondly,the Bp neural network model and the dynamic weight multi-objective particle swarm algorithm model are established.Finally,the Bp-DWMOPSO algorithm is designed based on the established models.In order to verify the effectiveness of the algorithm,this paper obtains the required data through equal probability orthogonal experiments on a typical Computer Numerical Control(CNC)turning machining case and uses the Bp-DWMOPSO algorithm for optimization.The experimental results show that the Cutting speed is 69.4 mm/min,the Feed speed is 0.05 mm/r,and the Depth of cut is 0.5 mm.The results show that the Bp-DWMOPSO algorithm can find the cutting parameters with a higher material removal rate and lower spindle load while ensuring the machining quality.This method provides a new idea for the optimization of turning machining parameters.

Hydrodynamic Performance Analysis of a Submersible Surface Ship and Resistance Forecasting Based on BP Neural Networks

This paper investigated the resistance performance of a submersible surface ship(SSS)in different working cases and scales to analyze the hydrodynamic performance characteristics of an SSS at different speeds and diving depths for engineering applications.First,a hydrostatic resistance performance test of the SSS was carried out in a towing tank.Second,the scale effect of the hydrodynamic pressure coefficient and wave-making resistance was analyzed.The differences between the three-dimensional real-scale ship resistance prediction and numerical methods were explained.Finally,the advantages of genetic algorithm(GA)and neural network were combined to predict the resistance of SSS.Back propagation neural network(BPNN)and GA-BPNN were utilized to predict the SSS resistance.We also studied neural network parameter optimization,including connection weights and thresholds,using K-fold cross-validation.The results showed that when a SSS sails at low and medium speeds,the influence of various underwater cases on resistance is not obvious,while at high speeds,the resistance of water surface cases increases sharply with an increase in speed.After improving the weights and thresholds through K-fold cross-validation and GA,the prediction results of BPNN have high consistency with the actual values.The research results can provide a theoretical reference for the optimal design of the resistance of SSS in practical applications.

基于PSO-BP模糊PID的变距取苗机构控制系统设计

为满足番茄、辣椒等蔬菜作物的移栽需求,基于向下取苗原理设计了一种适用72穴和128穴两种主要番茄钵苗穴盘规格的变距取苗机构,通过建立数学模型获得了取苗机械手参数的目标函数,并利用粒子群和模拟退火混合算法对其结构参数进行优化。同时,为实现变距取苗机构的精确控制,提出了一种基于PSO-BP的模糊PID算法以提高控制精度,介绍了系统的结构与工作原理,并通过选型计算与分析建模建立了控制系统的数学模型。针对传统PID控制器稳定性差、响应速度慢等不足之处,利用PSO-BP模糊PID对控制器的参数进行在线调整,以满足控制过程中对参数的不同需求。仿真结果与试验数据的分析表明:在参数相同条件下,基于PSO-BP模糊PID控制系统系统稳定性更好、响应速度更快,具有良好的鲁棒性,提升取苗成功率的同时降低了基质损伤率,能够满足变距取苗机构高精度快速稳定控制的需求。

A method for weighing broiler chickens using improved amplitude-limiting filtering algorithm and BP neural networks

Broiler chickens are traditionally weighed by steelyard or platform scale,which is timeconsuming and labor-intensive.Broiler chickens usually exhibit stress-related behavior during weighing.The 3D camera-based weighing system for broiler chickens can only weigh the broiler chicken in the monitoring area.Usually,it makes poor weight prediction due to poor segmentation especially when the broiler chicken is flapping its wings.To solve these issues,we developed one simple and low-cost weighing system with high stability and accuracy.A validity value extraction method from dynamic weighing was proposed.Then,an improved amplitude-limiting filtering algorithm and a BP neural networks model were developed to avoid accidental interference.The BP neural networks model used daily weight gain,day-age,average velocity,and the weight data after filtering algorithm as the input layer.The weighing system was tested in a commercial Beijing Fatty Chickens house with Beijing Fatty Chickens.We tested thirteen groups of Beijing Fatty Chickens of different weights,from 500 g to 1800 g in intervals of 100 g,using the three different methods:no filtering algorithm or BP neural networks,only the improved amplitude-limiting filtering algorithm and a hybrid of the improved amplitude-limiting filtering algorithm and BP neural networks.The results showed that the hybrid algorithm had a better performance in minimizing the error,lowering from the original 6%down to 3%.The accurate weight data was transmitted to the remote service platform for further decision-making,such as activity analysis,feeding management,and health alerts.

基于PSO-BP神经网络的分拣机器人视觉反馈跟踪

针对分拣机器人视觉反馈跟踪精度差、耗时较长的问题,研究基于粒子群算法-反向传播(particle swarm optimization-back propagation,PSO-BP)神经网络的分拣机器人视觉反馈跟踪方法,以提升视觉反馈跟踪效果。依据分拣机器人的视觉反馈信息,建立分拣机器人运动学模型,并求解分拣机器人机械臂输出位置和输入位置的误差函数;利用PSO算法优化BP神经网络的权值与偏置;在权值与偏置优化后的BP神经网络内,输入误差函数,预测分拣机器人视觉反馈跟踪控制量;利用预测视觉反馈跟踪控制量,在线调整增量式比例-积分-微分(proportional-integral-derivative,PID)的参数,输出高精度的分拣机器人视觉反馈跟踪控制量,实现分拣机器人视觉反馈跟踪。实验结果表明,该方法可有效视觉反馈跟踪分拣机器人机械臂的关节角;存在干扰情况下,在运行时间为10 s左右时,阶跃响应趋于稳定;有干扰情况下,视觉反馈跟踪的平均误差为0.09 cm,耗时平均值为0.10 ms;无干扰情况下,平均误差为0.03 cm,耗时平均值为0.04 ms。

基于泥水平衡盾构掘进参数的PSO-BP神经网络掘进地层识别模型研究

为解决泥水平衡盾构机在掘进时无法准确地实时识别掘进地层的问题,以珠三角水资源配置工程为例,研究泥水平衡盾构机的盾构推力、掘进速度、刀盘转速、刀盘扭矩在不同地层下的变化规律,提出基于掘进参数的PSO-BP神经网络掘进地层识别方法,建立盾构推力、掘进速度、刀盘转速、刀盘扭矩4种掘进参数为输入集,地层编码为输出集的地层识别模型。工程数据的验证结果表明,该模型在珠三角水资源配置工程数据集上的掘进地层的识别准确率达99.07%,PSO-BP神经网络算法的识别准确率明显高于BP、RF、RBF、CNN等机械学习算法。

Combining the genetic algorithms with artificial neural networks for optimization of board allocating

This paper introduced the Genetic Algorithms (GAs) and Artificial Neural Networks (ANNs), which have been widely used in optimization of allocating. The combination way of the two optimizing algorithms was used in board allocating of furniture production. In the experiment, the rectangular flake board of 3650 mm 1850 mm was used as raw material to allocate 100 sets of Table Bucked. The utilizing rate of the board reached 94.14 % and the calculating time was only 35 s. The experiment result proofed that the method by using the GA for optimizing the weights of the ANN can raise the utilizing rate of the board and can shorten the time of the design. At the same time, this method can simultaneously searched in many directions, thus greatly in-creasing the probability of finding a global optimum.

基于改进PSO-BP神经网络的热采管柱应力预测

稠油热采过程中,油套管柱由于在温度、地层等多重载荷作用下发生塑性形变进而导致断裂或失效。文中根据热采管柱高温服役工况,引入异步变化学习因子和自适应权重建立输入参数为注汽温度、井深、非均匀系数和水泥环温度,输出参数为套管应力的改进PSO-BP模型。文中以N80热采套管为例,选取260、280、300、320、340℃5种温度工况下有限元模拟结果作为训练数据,对比BP模型、GA-BP模型、MEA-BP模型、PSO-BP模型和改进PSO-BP模型在300℃工况温度下井深200、300、400、500、600、700 m处套管应力的预测值和试验值、有限元计算值。结果表明:改进PSO-BP模型预测的应力与试验值最接近,最大和最小误差分别为2.69%和0.06%。最后从训练数据、预测误差、计算时间等方面对建立的改进PSO-BP模型进行了评价,为热采管柱服役过程中的强度安全分析提供智能高效的模型。

A Simple Hybrid Recursive Learning Algorithm with High Generalization Performance for Radial Basis Function Neural Network

In this paper, we propose a simple learning algorithm for non\|linear function approximation and system modeling using minimal radial basis function neural network with high generalization performance. A hybrid algorithm is constructed, which combines recursive n \|means clustering algorithm with a simple recursive regularized least squares algorithm (SRRLS). The n \|means clustering algorithm adjusts the centers of the network, while the SRRLS constructs a parsimonious network which makes the generalization performance of the network well. The SRRLS algorithm needs no matrix computing, so it has a lower computational cost and no ill\|conditional problem. Because of the recursive manner, this algorithm is suitable for on\|line applications. The effectiveness of this algorithm is demonstrated by two benchmark examples.

基于GM(1,1)-IPSO-BP的重载铁路小半径曲线钢轨磨耗预测方法

为实现重载铁路小半径曲线段钢轨磨耗量的精准预测,提出一种非等间距灰色模型GM(1,1)与改进粒子群算法(IPSO)优化BP神经网络相结合的钢轨磨耗预测方法。首先,根据积分原理优化GM(1,1)非等间距模型的背景值计算方法,基于改进的模型得到实测磨耗序列的初步预测结果;然后,利用IPSO算法对BP神经网络的权值和阈值进行自动寻优,对GM(1,1)模型初步预测序列的残差进行校正;最后,将优化后的两种模型组合构建基于GM(1,1)-IPSO-BP的重载铁路小半径曲线地段钢轨磨耗量预测模型。以某重载铁路桥上半径400 m曲线为例,利用长期的磨耗监测数据进行方法的适用性分析,研究结果表明:GM(1,1)-IPSO-BP模型克服了磨耗数据的非线性、随机性特征对计算结果的影响,预测精度优于单独使用GM(1,1)、IPSO-BP模型;背景值优化后的GM(1,1)模型预测准确性更可靠;IPSO优化算法提高了BP神经网络计算的精度和速度;预测结果和实测数据之间的相对误差不大于4%;在预测区间上的绝对误差小于0.4 mm,运用该方法能够较准确地得到钢轨磨耗的发展规律。研究结果可为重载铁路小半径曲线钢轨的精准维修和科学使用提供参考。

基于改进 PSO-BPNN 的拖拉机液压油品质监测

为实现对拖拉机液压油品质的有效监测,保障拖拉机液压系统的平稳运行,基于改进PSO-BPNN设计一种针对拖拉机液压油品质的监测方法。首先,为研究拖拉机液压油品质恶化情况,在液压油新油的基础上配制不同比例的液压油油样。随后,搭建拖拉机液压油品质监测试验装置,并依据试验装置采集与监测液压油粘度、介电常数和温度参数。然后,设计并搭建一种基于改进PSO-BPNN的拖拉机液压油品质监测模型,该模型利用正弦调整惯性权重的PSO算法优化BPNN的权值和阈值初始值,提高模型收敛效率。最后,为验证基于改进PSO-BPNN的液压油品质监测方法的可行性,与基于传统BPNN、标准PSO-BPNN的拖拉机液压油品质监测模型进行对比。结果表明,基于改进PSO-BPNN的拖拉机液压油品质监测方法具有较快的收敛速度,监测正确率达到97.78%,为优化拖拉机液压油品质监测方法提供参考。

基于MIV-PSO-BPNN的掘进面风温预测方法

目的为防治矿井热害,解决矿井掘进面风温预测问题,方法提出一种MIV算法优化的PSO-BPNN预测模型。通过利用MIV算法确定模型的输入变量,以BP网络建模,使用粒子群优化算法结合BP神经网络实现掘进工作面风流温度的预测,得到预测结果并与BPNN模型、PSO-BPNN模型、SVR模型相比较。结果结果表明:MIV-PSO-BPNN预测模型的相对误差为-0.47%~1.81%,分别优于PSO-BPNN、BPNN、SVR预测模型的-3.96%~1.93%,-5.54%~2.98%,-2.16%~2.95%,预测模型的误差为-0.1~0.5℃,表明预测值与实测值基本一致;与BPNN预测模型、PSO-BPNN预测模型、SVR预测模型相比,MIV-PSO-BPNN预测模型的预测结果平均绝对误差分别减少65%,54%,50%,均方误差分别减少88%,78%,69%,表明该预测模型的预测效果优于其他3种模型。结论所提模型适用于矿井掘进工作面风温的预测。

QPSO-optimized BP Neural Network to Predict Occurrence Quantity of Myzus persicae

In order to effectively predict occurrence quantity of Myzus persicae, BP neural network theory and method was used to establish prediction model for oc- currence quantity of M. persicae. Meanwhile, QPSO algorithm was used to optimize connection weight and threshold value of BP neural network, so as to determine. the optimal connection weight and threshold value. The historical data of M. persica quantity in Hongta County, Yuxi City of Yunnan Province from 2003 to 2006 was adopted as training samples, and the occurrence quantities of M. persicae from 2007 to 2009 were predicted. The prediction accuracy was 99.35%, the mini- mum completion time was 30 s, the average completion time was 34.5 s, and the running times were 19. The prediction effect of the model was obviously superior to other prediction models. The experiment showed that this model was more effective and feasible, with faster convergence rate and stronger stability, and could solve the similar problems in prediction and clustering. The study provides a theoretical basis for comprehensive prevention and control against M. persicae.

基于PSO-BP神经网络的船舶生产设计软件成熟度评估方法

[目的]针对现有船舶生产设计软件成熟度评估方法尚不明确、评估存在模糊性等问题,提出一种船舶生产设计软件成熟度评估模型。[方法]该模型根据船舶生产设计过程中船体、管系、舾装和涂装4个阶段,构建成熟度评估体系并确定各级成熟因子。结合贝叶斯网络与模糊最优最劣法,提出一种完全客观的赋权方法以提高数据集的准确性。引入粒子群优化(PSO)算法改进反向传播(BP)神经网络,通过PSO对BP神经网络的权值和阈值进行最优化,避免局部最优问题,并对软件的成熟度进行全面评估。[结果]实例分析表明,PSO-BP比BP评价的均方根误差减少了56.86%。[结论]该模型的精度和速度较好,能够满足实际评估需求,为船舶工业软件成熟度评估提供一种新思路。

基于IPSO-BP的船舶航迹预测研究

目的面对复杂的海上交通及密集的物流交通流,及时有效地对船舶航迹进行跟踪预测显得尤为重要,针对传统船舶航迹预测方法精确度低且效率低下的问题,提出一种改进方法。方法在船舶自动识别系统(Automatic Identification System,AIS)数据的基础上,建立改进粒子群算法(IPSO)与BP神经网络相结合的船舶轨迹预测模型,利用船舶历史航行轨迹数据,实现对未来船舶运动的预测。选取宁波舟山港的船舶历史轨迹数据进行实验,并将IPSO-BP模型的实验结果与其他模型进行比较。结果不同模型航迹预测对比结果表明,IPSO-BP模型的性能较好,其预测精度较高,适用于船舶轨迹预测。结论使用IPSO-BP模型能够更加精准地预测船舶航迹,在船舶危险预警、船舶异常监测等方面具有重要的指导作用。

基于PSO-BP的岩性识别方法研究

近些年来,数据分析、深度学习技术取得了长足的发展,并为社会带来了可观的收益。故利用深度学习手段进行岩性识别也成为了一个研究热点。岩性识别是录井解释的核心业务,准确而有效地预测储层性质对石油勘探工作有着重大意义。为解决传统岩性识别方法成本高、耗时长等缺点。论文利用松辽盆地中若干井的测井数据进行模型研究,提出了一种基于PSO-BP的岩性识别方法。通过对测井源数据进行数据预处理、构建网络识别模型、优化岩性识别模型、评价模型输出结果等步骤,实现基于PSO-BP岩性识别方法。经过反复试验,结果表明采用PSO-BP的岩性识别方法对岩性进行识别的平均准确率可达92.2%,为储层预测工作提供了可靠的支撑。

基于GA-BP和PSO-BP神经网络的SLM GH3625高温合金残余应力预测研究

采用PSO-BP和GA-BP混合算法的人工神经网络模型预测了选区激光熔化成形GH3625高温合金的残余应力。通过响应面法为实验设计生成样本集,以激光功率、扫描速度和扫描间距作为模型的输入层,以残余应力作为模型的输出层进行预测优化。采用相关系数R^(2)和平均绝对相对误差e_(AARE)评价指标对预测模型进行了验证和对比分析。结果表明:BP、 GA-BP和PSO-BP神经网络模型均能够较好地预测不同工艺参数下GH3625高温合金的残余应力,且通过算法优化后的BP神经网络具有更高的预测精度。其中GA-BP神经网络对选区激光熔化成形GH3625高温合金残余应力的预测精度最高,模型性能更优越,其相关系数R^(2)和相对平均绝对误差e_(AARE)分别为0.909和2.06%。

基于GA-PSO-BP神经网络的气象能见度预测

针对安徽省气象能见度数据缺测问题,选取安徽省4种不同地形条件下的自动气象站点(黄山站、灵璧站、山南溪谷站、白泽湖站)2017—2019年的气象数据,首先采用灰色关联分析法筛选出与能见度联系紧密的气象要素,然后构建遗传算法(genetic algorithm,GA)和粒子群算法(particle swarm optimization algorithm,PSO)混合算法优化BP(back propagation)神经网络的预测模型,对4种不同地形条件下的自动气象站点的能见度进行预测,并与RF预测模型、XGBoost预测模型的预测效果进行对比,结果表明采用GA-PSO-BP神经网络预测模型无论在哪种地形条件下,预测误差更小,模型精度更高。

Finite Convergence of On-line BP Neural Networks with Linearly Separable Training Patterns

In this paper we prove a finite convergence of online BP algorithms for nonlinear feedforward neural networks when the training patterns are linearly separable.

基于PSO-IBP神经网络的纯电动汽车电驱总成故障诊断

为了提高纯电动汽车电驱总成的故障诊断准确率,提出了一种基于粒子群优化(Particle Swarm Optimizing,PSO)算法的改进BP(Improved Back Propagation,IBP)神经网络(PSO-IBP)故障诊断方法。应用线性整流单元(Rectified Linear Unit,ReLU)作为BP神经网络的激活函数,通过粒子群优化算法对BP神经网络权值和阈值进行动态寻优,构建PSO-IBP模型。通过采集纯电动汽车电驱总成故障数据,分别对PSO-IBP神经网络模型、BP神经网络模型和概率神经网络(Probabilistic Neural Network,PNN)模型进行训练与仿真,结果表明,相比于BP神经网络方法及概率神经网络方法,基于PSO-IBP神经网络模型的纯电动汽车电驱总成故障诊断方法具有更高的准确率。