Artificial Fish Swarm Optimization with Deep Learning Enabled Opinion Mining Approach

Sentiment analysis or opinion mining(OM)concepts become familiar due to advances in networking technologies and social media.Recently,massive amount of text has been generated over Internet daily which makes the pattern recognition and decision making process difficult.Since OM find useful in business sectors to improve the quality of the product as well as services,machine learning(ML)and deep learning(DL)models can be considered into account.Besides,the hyperparameters involved in the DL models necessitate proper adjustment process to boost the classification process.Therefore,in this paper,a new Artificial Fish Swarm Optimization with Bidirectional Long Short Term Memory(AFSO-BLSTM)model has been developed for OM process.The major intention of the AFSO-BLSTM model is to effectively mine the opinions present in the textual data.In addition,the AFSO-BLSTM model undergoes pre-processing and TF-IFD based feature extraction process.Besides,BLSTM model is employed for the effectual detection and classification of opinions.Finally,the AFSO algorithm is utilized for effective hyperparameter adjustment process of the BLSTM model,shows the novelty of the work.A complete simulation study of the AFSO-BLSTM model is validated using benchmark dataset and the obtained experimental values revealed the high potential of the AFSO-BLSTM model on mining opinions.

基于PSO与AFSA的GNSS整周模糊度种群融合优化算法

载波相位测量是实现全球导航卫星系统(Global navigation satellite system, GNSS)快速高精度定位的重要途径,而准确解算整周模糊度是其中的关键步骤之一.粒子群算法(Particle swarm optimization, PSO)收敛速度快但易陷入局部最优,人工鱼群算法(Artificial fish swarm algorithm, AFSA)全局优化性能好但收敛速度慢,因此融合两种算法的优点,提出一种GNSS整周模糊度种群融合优化算法(PSOAF).首先,通过载波相位双差方程求解整周模糊度的浮点解和对应的协方差矩阵.然后,采用反整数Cholesky算法对模糊度浮点解作降相关处理.其次,针对整数最小二乘估计的不足通过优化适应度函数来提高算法的收敛性和搜索性能.最后,通过PSOAF算法对整周模糊度进行解算.通过经典算例和试验研究表明:PSOAF算法可以更快地收敛于最优解,搜索效率也更为出色,解算的基线精度可以控制在10 mm以内,在短基线的实际情况下具有较高的应用价值.

基于AFSA-SVM动态光谱的血液识别研究

血液是一种受管制的特殊遗传生物资源。针对传统血液光谱检测中易氧化变质的问题,采用基于仿生血管的动态共聚焦拉曼荧光光谱,开展了猪、马、鸽、鸡、鸭、鹅等六种家禽家畜的血液物种鉴别研究。原始光谱的预处理过程包括去基线、平滑和归一化等。采用线性判别分析对光谱数据进行降维处理,继而用支持向量机建立识别模型,选用高斯核函数,通过人工鱼群算法优化支持向量机的参数C和γ,使其分类准确率最高,最优的C和γ分别为0.2和0.134。人工鱼群-支持向量机模型识别准确率达到97.2%,基于仿生血管的动态共聚焦拉曼荧光光谱可以满足血液安全高效的检测要求,用人工鱼群算法优化支持向量机参数的算法模型表现出较好的分类效果。

Unmanned wave glider heading model identification and control by artificial fish swarm algorithm

We introduce the artificial fish swarm algorithm for heading motion model identification and control parameter optimization problems for the“Ocean Rambler”unmanned wave glider(UWG).First,under certain assumptions,the rigid-flexible multi-body system of the UWG was simplified as a rigid system composed of“thruster+float body”,based on which a planar motion model of the UWG was established.Second,we obtained the model parameters using an empirical method combined with parameter identification,which means that some parameters were estimated by the empirical method.In view of the specificity and importance of the heading control,heading model parameters were identified through the artificial fish swarm algorithm based on tank test data,so that we could take full advantage of the limited trial data to factually describe the dynamic characteristics of the system.Based on the established heading motion model,parameters of the heading S-surface controller were optimized using the artificial fish swarm algorithm.Heading motion comparison and maritime control experiments of the“Ocean Rambler”UWG were completed.Tank test results show high precision of heading motion prediction including heading angle and yawing angular velocity.The UWG shows good control performance in tank tests and sea trials.The efficiency of the proposed method is verified.

Artificial Fish Swarm for Multi Protein Sequences Alignment in Bioinformatics

The alignment operation between many protein sequences or DNAsequences related to the scientific bioinformatics application is very complex.There is a trade-off in the objectives in the existing techniques of MultipleSequence Alignment (MSA). The techniques that concern with speed ignoreaccuracy, whereas techniques that concern with accuracy ignore speed. Theterm alignment means to get the similarity in different sequences with highaccuracy. The more growing number of sequences leads to a very complexand complicated problem. Because of the emergence;rapid development;anddependence on gene sequencing, sequence alignment has become importantin every biological relationship analysis process. Calculating the numberof similar amino acids is the primary method for proving that there is arelationship between two sequences. The time is a main issue in any alignmenttechnique. In this paper, a more effective MSA method for handling themassive multiple protein sequences alignment maintaining the highest accuracy with less time consumption is proposed. The proposed method dependson Artificial Fish Swarm (AFS) algorithm that can break down the mostchallenges of MSA problems. The AFS is exploited to obtain high accuracyin adequate time. ASF has been increasing popularly in various applicationssuch as artificial intelligence, computer vision, machine learning, and dataintensive application. It basically mimics the behavior of fish trying to getthe food in nature. The proposed mechanisms of AFS that is like preying,swarming, following, moving, and leaping help in increasing the accuracy andconcerning the speed by decreasing execution time. The sense organs that aidthe artificial fishes to collect information and vision from the environmenthelp in concerning the accuracy. These features of the proposed AFS make thealignment operation more efficient and are suitable especially for large-scaledata. The implementation and experimental results put the proposed AFS as afirst choice in the queue of alignment compared to the well-known algorithmsin multiple sequence alignment.

Development of an Artificial Fish Swarm Algorithm Based on aWireless Sensor Networks in a Hydrodynamic Background

The main objective of the present study is the development of a new algorithm that can adapt to complex and changeable environments.An artificial fish swarm algorithm is developed which relies on a wireless sensor network(WSN)in a hydrodynamic background.The nodes of this algorithm are viscous fluids and artificial fish,while related‘events’are directly connected to the food available in the related virtual environment.The results show that the total processing time of the data by the source node is 6.661 ms,of which the processing time of crosstalk data is 3.789 ms,accounting for 56.89%.The total processing time of the data by the relay node is 15.492 ms,of which the system scheduling and the Carrier Sense Multiple Access(CSMA)rollback time of the forwarding is 8.922 ms,accounting for 57.59%.The total time for the data processing of the receiving node is 11.835 ms,of which the processing time of crosstalk data is 3.791 ms,accounting for 32.02%;the serial data processing time is 4.542 ms,accounting for 38.36%.Crosstalk packets occupy a certain amount of system overhead in the internal communication of nodes,which is one of the causes of node-level congestion.We show that optimizing the crosstalk phenomenon can alleviate the internal congestion of nodes to some extent.

基于AFSPSO-ν-SVM的山洪灾害预测方法研究

随着科学技术的发展,人类在山区的工程活动越来越频繁,这加剧了山洪灾害的发生频率。准确及时预测出山洪灾害发生的可能性,对于保证工程安全、降低经济损失、提高人员安全防范能力具有重要意义。将人工智能算法应用于山洪灾害预测成为当下研究者们关注的焦点。为了解决当下山洪诱发因素敏感性差异导致的预测精度不足、小样本数据引起的模型拟合效果欠优以及非线性模型参数不易确定等问题,将主成分分析与ν支持向量机相结合对山洪发生进行预测,通过人工鱼群算法扩大粒子群算法中粒子的搜索范围和速度,并利用改进粒子群算法对支持向量机参数进行寻优,建立AFSPSO-ν-SVM山洪灾害概率预测模型。通过实验对比了本文模型与BL模型、ν-SVM模型、PSO-ν-SVM模型的性能,结果表明,本文模型误差最小且速度最快。本文研究为山洪预报预警领域研究提供了一种新的思路。

基于改进AFSA算法的智慧农业监测网络研究

智慧化农业监测实际上是将无线传感器网络应用于农业监测场景中实时采集农田、气象、养殖等方面的数据。多个微小型嵌入式系统相互协作共同构成无线传感器网络,可实时监测、感知、收集和处理环境信息,并以无线通信方式进行信息交互。无线传感器网络覆盖是无线传感器网络监测的基础,直接影响网络感知质量。建立了面向农业场景的无线传感器网络覆盖问题模型,提出了一种基于改进人工鱼群算法的覆盖优化策略,提高了网络覆盖率和算法收敛性,得到最优网络传感器节点覆盖。

基于IAFS算法融合小波神经网络的变压器故障诊断研究

鉴于小波神经网络训练模型在电力变压器故障诊断中存在易陷入局部最优与对初始值高难度、高要求性问题,通过将人工鱼群算法和小波神经网络技术有机地融入到变压器故障诊断中,开发出一种全新、高效的方法。采用人工鱼群算法改善小波神经网络训练模型的权重和阈值,以达到最佳的模型性能,提升模型的准确性和可靠性。在整个学习过程中,小波神经网络训练模型的复杂度和泛化能力都得到了较大的提升,同时加快了收敛速度,从全局搜索逐步转向精细搜索,避免算法出现局部最优的情况。最后,通过仿真实验结果证明所提方法可有效地提升变压器故障诊断的准确度,提高了变压器故障诊断效率。

基于DP-HAFS算法的移动边缘计算卸载策略

针对移动边缘计算的计算资源有限、系统处理任务总开销过高的问题,提出一种基于动态感知—混合人工鱼群(DP-HAFS)算法的卸载策略。首先,构建本地—边缘—云端三层网络架构,采用基于细粒度的部分卸载模式;然后,针对一个终端设备被多个基站覆盖的场景,提出基站选择策略进行最优基站的选择;最后,采用DP-HAFS算法对卸载决策进行动态修正,得到最优卸载策略。仿真结果表明,所提卸载策略在任务数量较多的场景下能有效降低系统总开销。

基于M-AFSA的MPRM逻辑电路面积优化

现有基于传统智能优化算法的MPRM电路面积优化算法存在效果差的问题。由于MPRM电路面积优化属于组合优化问题,先提出一种多策略协同进化人工鱼群算法(MAFSA),该算法引入基于反向学习的种群初始化策略,以提高种群多样性及初始种群解的质量;引入觅食与追尾交互性策略,以加强人工鱼个体之间的信息交流、提高所提算法的收敛速度;引入自适应扰动策略,以增加人工鱼个体位置变异的随机性、避免所提算法陷入局部最优。此外,提出一种MPRM逻辑电路面积优化方法,利用所提算法来搜索电路面积最小的最佳极性。基于北卡罗莱纳州微电子中心(MCNC)Benchmark电路的实验结果表明:与遗传算法相比,所提算法优化电路平均面积百分比最高为57.24%,平均为39.57%;与人工鱼群算法相比,所提算法优化电路平均面积百分比最高为33.53%,平均为14.54%;与改进的人工鱼群算法相比,所提算法优化电路平均面积百分比最高为30.25%,平均为13.86%。

基于SAFSA-SVM的边坡稳定性预测模型

了解边坡的稳定状况是保证水利工程长期安全稳定运行的关键之一,对边坡稳定情况进行预测是当前研究的热点。目前边坡稳定性预测研究中普遍存在样本数据较少导致预测精度难以满足实际需求的问题,为此,将支持向量机模型引入边坡稳定性预测的研究,并利用改进人工鱼群算法对模型的参数进行优化,以实际工程的数据对模型进行测试,并将该模型与单一SVM模型的性能进行对比。结果表明,优化后的模型能够有效地改善预测精度。研究成果可以为水利工程的安全施工和管理提供参考。

基于AFSA-SVM的手势识别方法

为了提高表面肌电信号(sEMG)对手势识别的准确率,提出了一种人工鱼群算法优化支持向量机分类器(AFSA-SVM)方法。采集了10位受试者手势动作的sEMG信号,对sEMG信号进行预处理后,进行时域信号积分肌电值(iEMG)和均方根值(RMS)的特征提取,使用特征进行分类。实验结果表明,在特征iEMG上AFSA-SVM与SVM平均分类准确率分别为88.21%与84.29%,AFSA-SVM提高了3.92%;在特征RMS上AFSA-SVM与SVM平均分类准确率分别为86.85与83.69%,AFSA-SVM提高了3.16%。因此,AFSA-SVM相对SVM分类器的识别准确率更高,并且时域特征iEMG相对RMS更具识别度。

考虑系统稳定边界的同步调相机励磁与升压变参数联合优化

现有提升调相机动态无功特性的参数优化方法侧重于电磁参数的优化,这给生产企业带来较高的工艺要求和较大的成本压力。针对该问题提出考虑系统稳定约束的调相机励磁系统及升压变参数联合优化方法,分析其对电磁参数优化的可替代性。首先,推导了基于Park模型下调相机的无功频域特性,与6阶实用模型下的无功频域特性对比,基于调相机的Park模型可提升调相机动态无功特性的分析精度。然后,提出根据调相机并网系统的稳定边界确定参数的优化区间,采用频域灵敏度方法确定重点参数,并基于人工鱼群算法进行参数优化。最后,通过仿真结果表明,励磁系统与升压变参数的联合优化,可获得与仅优化电磁参数时相近的调相机动态无功性能,验证了电磁参数优化的可替代性,从而降低调相机的制造成本,扩大同步调相机的应用场合和范围。

基于改进小波神经网络的实时系统任务流量预测方法

针对当前航空装备实时系统对非周期实时任务无法预知难以实现可靠调度的困难,开展对航空装备实时系统非周期任务流量预测方法的研究。以小波神经网络为基础结合航空装备实时系统的特性建立任务流量预测模型,并提出利用人工鱼群算法对小波预测模型关键参数进行优化,避免陷入局部最优解,最终构建一种人工鱼群算法改进的小波神经网络任务流量预测系统。利用提出的预测模型开展实时任务流量预测对比仿真实验,实验结果表明,建立的基于改进小波神经网络的实时系统任务流量预测系统对非周期实时任务具有较高的预测精度,预测效果优于原始小波神经网络模型及T-S模糊神经网络模型。

基于人工鱼群-遗传算法的多品种小批量零件数控加工工艺优化研究

基于多品种小批量零件加工成本高的问题,基于人工鱼群-遗传算法(AFSA-GA)构建了数控机床能耗模型,以实现零件加工能耗下降。首先,将数控机床功率划分为各工序功率模型,基于功率模型与工作时间关系得出机床运转能耗模型,结合产品表面粗糙度模型,对各工序能耗模型及整体粗糙度进行归一化处理,形成整体能耗模型;其次,以能耗及粗糙度为目标函数,建立AFSA-GA算法,通过对各工序能耗求解得出最适当的机床功率及其所对应的能耗和表面粗糙度;最后,针对所获得的最优功率,进行优化结果的验证,为五轴机床的实际加工提供解决方案。

基于人工鱼群算法的篮球跳投轨迹实时跟踪

篮球运动轨迹跟踪方法由于轨迹特征提取效果差,导致跟踪误差高,提出一种基于人工鱼群算法的篮球跳投轨迹实时跟踪方法。提取三维坐标系下图像中篮球边缘轮廓信息,通过滤波函数消除篮球跳投图像噪声,基于人工鱼群算法提取图像中篮球跳投轨迹特征,寻找篮球运动轨迹的最优解集,改进篮球实时跟踪匹配路径,形成轨迹跟踪函数。实验结果可知,该方法的平均轨迹跟踪误差为18.28mm,与常规方法相比降低了6.22mm以上。因此,该跟踪方法的篮球轨迹跟踪精度更高,并且实时跟踪轨迹与真实轨迹更吻合。

超网络体系作战下的打击目标优选模型

针对当前进行海上作战体系目标优选分析与决策时对打击代价考虑不足的问题,提出综合考虑目标节点重要度和打击费效度的网络节点分析模型。利用超网络构建海上作战体系网络模型,通过度和介数等指标评估网络中节点的重要度;利用打击费效比为指标评估网络中节点的打击代价,进而将目标分析与选择问题转化为多目标优化问题,建立寻优模型,并通过人工鱼群算法进行寻优求解。最后对模型进行案例仿真应用,通过专家Delphi法评估检验,结果表明所建立的模型方法可行,对水面舰队体系的目标分析与选择具有借鉴作用。

基于神经网络和人工鱼群算法的惯性延时微通道优化

为了保证中、小口径弹引信的炮口安全性控制要求,设计了具有肋板阻尼结构的惯性延时微通道,同时为了保证其具有稳定的延时性能,研究了该微通道在高离心转速下的延时响应性能。采用了神经网络模型和人工鱼群算法对蛇形微通道内肋板的结构位置进行优化设计。用两相流水平集模型以微通道的延迟时间为研究对象进行了模拟仿真,得到180组样本数据,分析发现肋板结构在微通道内的不同位置与延迟时间呈现出高度的非线性关系。根据样本数据建立神经网络模型用以拟合设计变量与优化目标之间的映射函数,并采用人工鱼群算法对神经网络模型拟合的映射函数的参数进行优化。结果表明,经过结构优化之后,在1 000 g离心环境下微通道中流体的延迟时间从最短的11.446 ms提升到了25.054 ms,延时效果得到了显著提升。最后研究了优化后的结构在中、小口径弹引信使用环境下的延时特性,验证了其满足大部分中、小口径弹引信的延时控制要求。

PSO和AFSA混合优化算法

结合粒子群优化(PSO)算法和人工鱼群算法(AFSA)的优势,提出一种PSO-AFSA混合算法。将种群分为2个子群体,在每次迭代中,一个子群体利用PSO算法进化,另一个子群体利用AFSA进化,2个算法共享整个种群极值信息。通过混合算法对5个标准函数进行实验,并与标准PSO算法进行比较,结果表明混合算法具有更好的优化性能。