Your search keyword '"whale optimization algorithm"' showing total 16 results

1. Efficient knowledge model for whale optimization algorithm to solve large-scale problems.

Author

Xu, Zhedong, Su, Yongbo, and Guo, Fei

Subjects

*METAHEURISTIC algorithms, *OPTIMIZATION algorithms, *PROBLEM solving, *SWARM intelligence, *PARTICLE swarm optimization, *DIGITAL transformation, *SPACE

Abstract

In the process of digital transformation and development in various industries, there are more and more large-scale optimization problems. Currently, swarm intelligence optimization algorithms are the best method to solve such problems. However, previous experimental research has found that there is still room for improvement in the performance of using existing swarm intelligence optimization algorithms to solve such problems. To obtain the high-precision optimal value of whale optimization algorithm (WOA) for solving large-scale optimization problems, the optimization problem knowledge model is studied to guide the iterative process of WOA algorithm, and a novel whale optimization algorithm based on knowledge model guidance (KMGWOA) is proposed. First, a population update strategy based on multiple elite individuals is proposed to reduce the impact of the local optimal values, and the knowledge model to guide population update is constructed by combining the proposed population update strategy with the population update strategy based on global optimal individual. Second, a collaborative reverse learning knowledge model with multiple elite and poor individuals in the solution space is proposed to prevent long-term non-ideal region search. The above two knowledge models guide the iterative process of WOA algorithm in solving large-scale optimization problems. The performance of the KMGWOA algorithm guided by the proposed knowledge models is tested through the well-known classical test functions. The results demonstrate that the proposed KMGWOA algorithm not only has good search ability for the theoretical optimal value, but also achieves higher accuracy in obtaining the optimal value when it is difficult to obtain the theoretical optimal value. Moreover, KMGWOA algorithm has fast convergence speed and high effective iteration percentage. [ABSTRACT FROM AUTHOR]

Published

2024

2. Application of non-local mean image denoising algorithm based on machine learning technology in visual communication design.

Author

Wang, Hui

Subjects

*IMAGE denoising, *METAHEURISTIC algorithms, *PARTICLE swarm optimization, *VISUAL learning, *TELECOMMUNICATION, *MACHINE learning, *PIXELS

Abstract

In Visual Communication Design (VCD), noise data is easy to appear, which reduces image quality and affects the effect of VCD. The non local mean image denoising algorithm is a good filtering denoising algorithm, but there are still issues of information interference and missing. To improve the performance of noise recognition and image denoising technology, this study proposes a non local mean image denoising algorithm based on machine learning technology. The whale optimization algorithm, as a machine learning technique, has good performance in seeking optimal solutions. Therefore, it is applied to optimize the filtering parameters of non local mean image denoising algorithms to improve the perforGAmance of non local mean image denoising algorithms. To address the shortcomings of the whale optimization algorithm, BP neural network is introduced for optimization. Finally, the experiment uses the improved particle swarm optimization algorithm to optimize the BPNN and applies it to the recognition and classification of noise data. Combining the above contents, the IBINLM image denoising algorithm is constructed experimentally. It is verified that the IPSO-BPNN model's loss value is 0.12; The recognition accuracy of the model for noise pixels is 98.64%; F1 value reaches 96.32%; The fitting degree reaches 0.983. The PSNR of IBINLM algorithm is 35.86 dB; MSE is 0.29; AUC value reaches 0.903. The results show that the IPSO-BPNN model and IBINLM image denoising algorithm have better performance compared to other models, which can improve the quality of visual communication works, playing an essential role in image transmission and storage in visual communication design. [ABSTRACT FROM AUTHOR]

Published

2023

3. Modeling the hardness properties of high-performance concrete via developed RBFNN coupling matheuristic algorithms.

Author

Zhao, Xiaofang, Li, Faming, Chen, Biao, Li, Xiaofei, and Lu, Shasha

Subjects

*SILICA fume, *OPTIMIZATION algorithms, *RADIAL basis functions, *METAHEURISTIC algorithms, *CONCRETE, *FLY ash, *CONCRETE mixing

Abstract

Examining the properties of High-Performance Concrete (HPC) has been a big challenge due to the highly heterogeneous relationships and coherence among several constituents. The employment of silica fume and fly ash as eco-friendly components in mixtures benefits the concrete to improve its physical features. Although machine learning approaches are utilized broadly in many studies solitarily to estimate the mechanical features of concrete, causing to reduce accuracy and lift the cost and complexities of computational networks. Consequently, current research aims to develop a Radial Basis Function Neural Network (RBFNN) integrating with optimization algorithms in order to precisely model the mechanical characteristics of HPC mixtures including compressive strength (CS) and slump (SL). Feeding the dataset of HPC samples to hybrid models will result to reproduce the given CS and SL factors simultaneously. The results of the models showed that the maximum rate of correlation between estimated values and measured ones was obtained at 98.3% while the minimum rate of RMSE was calculated at 3.684 mm (and MPa) in the testing phase. Employing such soft-oriented approaches has been benefiting us to reduce costs and increase the result accuracy. [ABSTRACT FROM AUTHOR]

Published

2023

4. A hybrid IMFO-fuzzy algorithm for performance enhancement of microgrid under uncertainty via DGs integration and reconfiguration.

Author

Periasamy, Madhumathi and Kaliannan, Thenmalar

Subjects

*PHOTOVOLTAIC power systems, *MICROGRIDS, *ENERGY storage, *DISTRIBUTED power generation, *VERNACULAR architecture

Abstract

Microgrids (MGs) are distributed generation and distribution systems that include distributed generation (DG) units, energy storage systems (ESSs), distributed reactive sources (DRSs), and resilient loads that can operate in either connected or isolated modes. When dealing with uncontrolled DGs such asWind Energy Systems (WES) and Photovoltaic Energy Systems (PVES), MGs planners have a difficult time making decisions. Thework proposed in this paper addresses three interconnected works: (i) the implementation of a rigorous hybrid optimization approach for reconfiguration and DGs placement; (ii) the performance investigation under uncertain behavior of RES-based DGs and demand; and (iii) performance enhancement realization through the replacement of hybrid DGs for RES-based DGs. An Improved Moth Flame Optimization (IMFO), which is a multi-objective optimization method, has been linked with fuzzy logic in order to handle multiple objectives in an efficient manner. These objectives include the minimization of voltage deviation, the reduction of generation cost, and the reduction of loss. The quality of the power, the amount of money saved by consumers, and the benefits to the Distribution System Operator (DSO) might all be improved with the help of a hybrid algorithm. This research is also extended to address the uncertainties of RES-based DGs by replacing hybrid DGs in the most optimal locations. IEEE 33 bus RDS is used to test radial distribution system (RDS) microgrids. For validation purposes, uses 24-hour load patterns to mimic WES and PVES' 24-hour load dispatching behavior. The research findings clearly demonstrate the advantages of microgrids over traditional architectures. The hybrid DG requires an average generating cost of 185.33 $/kW in order to produce 100kW of power throughout the day with significantly reduced emissions. [ABSTRACT FROM AUTHOR]

Published

2022

5. Tuning of control parameters of the Whale Optimization Algorithm using fuzzy inference system.

Author

Ferrari, Allan Christian Krainski, Silva, Carlos Alexandre Gouvea da, Osinski, Cristiano, Pelacini, Douglas Antonio Firmino, Leandro, Gideon Villar, and Coelho, Leandro dos Santos

Subjects

*FUZZY logic, *FUZZY systems, *MATHEMATICAL optimization, *FUZZY algorithms, *GLOBAL optimization, *SWARM intelligence

Abstract

The Whale Optimization Algorithm (WOA) is a recent approach to the swarm intelligence field that can be explored in many global optimization applications. This paper proposes a new mechanism to tune the control parameters that influence the hunting process in the WOA to improve its convergence rate. This schema adjustment is made by a fuzzy inference system that uses the normalized fitness value of each whale and the hunting mechanism control parameters of WOA. The method proposed was tested and compared with the conventional WOA and another version that uses a fuzzy inference system as input information on the ratio of the current iteration number and the maximum number of iterations. For performance analysis of the method proposed, all optimizers were evaluated with twenty-three benchmark optimization functions in the continuous domain. The algorithms were also implemented in the identification process of two real control system that are a boiler system and water supply network. For identification process, it is used the value of MSE (mean squared error) to available each algorithm. The simulation results show that the proposed fuzzy mechanism improves the convergence of the conventional WOA and it is competitive in relation to another fuzzy version adopted in the WOA design. [ABSTRACT FROM AUTHOR]

Published

2022

6. An enhanced whale optimized fractional order piλ controller based power quality improvement for sensorless brushless dc motor under dynamic operating conditions.

Author

Prakash, R and Ayyar, K

Subjects

*BRUSHLESS electric motors, *WHALES, *INTELLIGENT control systems, *COST functions, *MATHEMATICAL optimization, *OCHRATOXINS

Abstract

This paper presents an Enhanced Whale Optimization Algorithm (EWO) approach for tuning to perfection of Fractional Order Proportional Integral and integral order Controller (FOPI λ) is used to sensorless speed control of permanent magnet Brushless DC (PMBLDC) motor under the operating dynamic condition such as (i) speed change by set speed command signal (ii) varying load conditions, (iii) integrated conditions and (iv) controller parameters uncertainty. On the other hand, it deals with a reduced THD (Total Harmonic Distortion) under dynamic operating conditions to improve the power quality for the above control system. Here present are three optimization techniques, namely (i) Enhanced Whale Optimization (EWO), (ii) Invasive Weed Optimization (IWO), and (iii) Social Spider Optimization (SSO) for fine-tuning of the FOPI λ controller parameters with reduction of THD. The proposed optimization algorithm optimized FOPI λ controller are compared under various BLDC motor operating conditions. Based on the results of MATLAB/Simulink models, the proposed algorithms are evaluated. Here, both the simulation and the results of the experiments are validated for the proposed controller technique. It demonstrates that the effectiveness of the proposed controllers is completely validated by comparing the three intelligent optimization techniques mentioned above. The EWO optimized FOPI λ controller for speed control of sensorless PMBLDC motor clearly outperforms the other two intelligent controllers by minimizing the time domain parameters, THD, performance Indices error, convergence time, control efforts, cost function, mean and standard deviation. [ABSTRACT FROM AUTHOR]

Published

2022

7. Improved whale optimization algorithm based on variable spiral position update strategy and adaptive inertia weight.

Author

Li, Maodong, Xu, Guanghui, Fu, Yuanwang, Zhang, Tingwei, and Du, Li

Subjects

*MATHEMATICAL optimization, *WHALES, *PARTICLE swarm optimization, *SEARCH algorithms, *PROBLEM solving

Abstract

In this paper, a whale optimization algorithm based on adaptive inertia weight and variable spiral position updating strategy is proposed. The improved algorithm is used to solve the problem that the whale optimization algorithm is more dependent on the randomness of the parameters, so that the algorithm's convergence accuracy and convergence speed are insufficient. The adaptive inertia weight, which varies with the fitness of individual whales, is used to balance the algorithm's global search ability and local exploitation ability. The variable spiral position update strategy based on the collaborative convergence mechanism is used to dynamically adjust the search range and search accuracy of the algorithm. The effective combination of the two can make the improved whale optimization algorithm converge to the optimal solution faster. It had been used 18 international standard test functions, including unimodal function, multimodal function, and fixed-dimensional function to test the improved whale optimization algorithm in this paper. The test results show that the improved algorithm has faster convergence speed and higher algorithm accuracy than the original algorithm and several classic algorithms. The algorithm can quickly converge to near the optimal value in the early stage, and then effectively jump out of the local optimal through adaptive adjustment, and has a certain ability to solve large-scale optimization problems. [ABSTRACT FROM AUTHOR]

Published

2022

8. A variable-order fractional discrete grey model and its application.

Author

Meixin, Huang and Caixia, Liu

Subjects

*ELECTRIC power consumption, *MATHEMATICAL optimization, *WHALES

Abstract

Fractional order grey model is effective in describing the uncertainty of the system. In this paper, we propose a novel variable-order fractional discrete grey model (short for VOFDGM(1,1)) by combining the discrete grey model and variable-order fractional accumulation, which is a more general form of the DGM(1,1). The detailed modeling procedure of the presented model is first systematically studied, in particular, matrix perturbation theory is used to prove the validity in terms of the stability of the model, and then, the model parameters are optimized by the whale optimization algorithm. The accuracy of the proposed model is verified by comparing it with classical models on six data sequences with different forms. Finally, the model is applied to predict the electricity consumption of Beijing and Liaoning Province of China, and the results show that the model has a better prediction performance compared with the other four commonly-used grey models. To the best of our knowledge, this is the first time that the variable-order fractional accumulation is introduced into the discrete grey model, which greatly increases the prediction accuracy of the DGM(1,1) and extends the application range of grey models. [ABSTRACT FROM AUTHOR]

Published

2021

9. End-point prediction of 260 tons basic oxygen furnace (BOF) steelmaking based on WNPSVR and WOA.

Author

Liu, Liming, Li, Ping, Chu, Maoxiang, and Gao, Chuang

Subjects

*BASIC oxygen furnaces, *STEEL manufacture, *CARBON nanofibers, *MATHEMATICAL optimization, *ALGORITHMS, *PREDICTION models

Abstract

Basic oxygen furnace (BOF) steelmaking plays an important role in steelmaking process. Hence, it is necessary to study BOF steelmaking modeling. In this paper, a novel regression algorithm is proposed by using nonparallel support vector regression with weight information (WNPSVR) for the end-point prediction of BOF steelmaking. The weight information is excavated by K-nearest neighbors (KNNs) algorithm. Since the whale optimization algorithm (WOA) has the characteristics of fast convergence speed and a few adjustment parameters, WOA is applied to optimize the parameters in the objective function of WNPSVR. Compared with traditional prediction models, WNPSVR-WOA is not easy to fall into local minimum values and is insensitive to noise. Thus, the prediction and control of molten steel end-point information are more accurate. Experimental results verify the effectiveness and feasibility of the proposed model. Within different error bounds (0.005 wt.% for carbon content model and 10°C for temperature model), the hit rates of carbon content and temperature are 89% and 95%, respectively. Meanwhile, a double hit rate of 85% is achieved. The above results conclude that our WNPSVR-WOA has important reference value for actual BOF application and can improve the steel product quality. Moreover, WNPSVR-WOA can also be used to other fields. [ABSTRACT FROM AUTHOR]

Published

2021

10. Whale optimization algorithm based on lateral inhibition for image matching and vision-guided AUV docking.

Author

Yan, Zheping, Zhang, Jinzhong, and Tang, Jialing

Subjects

*IMAGE registration, *DOCKS, *MATHEMATICAL optimization, *HUMPBACK whale behavior, *AUTONOMOUS underwater vehicles, *IMAGE intensifiers, *VISION

Abstract

The accuracy and stability of relative pose estimation of an autonomous underwater vehicle (AUV) and a target depend on whether the characteristics of the underwater image can be accurately and quickly extracted. In this paper, a whale optimization algorithm (WOA) based on lateral inhibition (LI) is proposed to solve the image matching and vision-guided AUV docking problem. The proposed method is named the LI-WOA. The WOA is motivated by the behavior of humpback whales, and it mainly imitates encircling prey, bubble-net attacking and searching for prey to obtain the globally optimal solution in the search space. The WOA not only balances exploration and exploitation but also has a faster convergence speed, higher calculation accuracy and stronger robustness than other approaches. The lateral inhibition mechanism can effectively perform image enhancement and image edge extraction to improve the accuracy and stability of image matching. The LI-WOA combines the optimization efficiency of the WOA and the matching accuracy of the LI mechanism to improve convergence accuracy and the correct matching rate. To verify its effectiveness and feasibility, the WOA is compared with other algorithms by maximizing the similarity between the original image and the template image. The experimental results show that the LI-WOA has a better average value, a higher correct rate, less execution time and stronger robustness than other algorithms. The LI-WOA is an effective and stable method for solving the image matching and vision-guided AUV docking problem. [ABSTRACT FROM AUTHOR]

Published

2021

11. Improved whale optimization algorithm based on random hopping update and random control parameter.

Author

Guo, Yanju, Shen, Huan, Chen, Lei, Liu, Yu, and Kang, Zhilong

Subjects

*MATHEMATICAL optimization, *WHALES, *BEES algorithm, *ALGORITHMS, *METAHEURISTIC algorithms

Abstract

Whale Optimization Algorithm (WOA) is a relatively novel algorithm in the field of meta-heuristic algorithms. WOA can reveal an efficient performance compared with other well-established optimization algorithms, but there is still a problem of premature convergence and easy to fall into local optimal in complex multimodal functions, so this paper presents an improved WOA, and proposes the random hopping update strategy and random control parameter strategy to improve the exploration and exploitation ability of WOA. In this paper, 24 well-known benchmark functions are used to test the algorithm, including 10 unimodal functions and 14 multimodal functions. The experimental results show that the convergence accuracy of the proposed algorithm is better than that of the original algorithm on 21 functions, and better than that of the other 5 algorithms on 23 functions. [ABSTRACT FROM AUTHOR]

Published

2021

12. Meta-heuristic inspired by the behavior of the humpback whale tuned by a fuzzy inference system.

Author

Ferrari, Allan Christian Krainski, Coelho, Leandro dos Santos, Leandro, Gideon Villar, Osinski, Cristiano, and da Silva, Carlos Alexandre Gouvea

Subjects

*HUMPBACK whale behavior, *FUZZY systems, *PARTICLE swarm optimization, *MATHEMATICAL optimization, *GLOBAL optimization

Abstract

The Whale Optimization Algorithm (WOA) is a recent meta-heuristic that can be explored in global optimization problems. This paper proposes a new parameter adjustment mechanism that influences the probability of the food recognition process in the whale algorithm. The adjustment is performed using a fuzzy inference system that uses the current iteration number as input information. Our simulation results are compared with other meta-heuristics such as the conventional version of WOA, Particle Swarm Optimization (PSO) and Differential Evolution (DE). All algorithms are used to optimize ten test functions (Sphere, Schwefel 2.22, Quartic, Rosenbrock, Ackley, Rastrigin, Penalty 1, Schwefel 2.21, Six hump camel back and Shekel 1) in order to obtain their respective optimal values for be used as criteria for analysis and comparison. The results of the simulations show that the proposed fuzzy inference system improves the convergence of WOA and also is competitive in relation to the other algorithms, i.e., classical WOA, PSO and DE. [ABSTRACT FROM AUTHOR]

Published

2020

13. Optimize star sensor calibration based on integrated modeling with hybrid WOA-LM algorithm.

Author

Niu, Yanbiao, Zhou, Yongquan, Luo, Qifang, and Farouk, Ahmed

Subjects

*MATHEMATICAL optimization, *ALGORITHMS, *DETECTORS, *CALIBRATION

Abstract

To ensure the high measurement accuracy, the star sensor must be accurately calibrated before use. Which calibration method is selected to complete the calibration of parameters and how to improve the precision of parameters calibration is the key to achieve high precision attitude measurement of star sensor. Aiming at the problem that the accuracy of the traditional calibration algorithm is greatly affected by the initial value, a parameter calibration algorithm based on hybrid WOA-LM algorithm is proposed. This algorithm can dynamically fuse levenberg-Marquardt (LM) algorithm with Whale Optimization Algorithm (WOA). By making full use of the global search ability of WOA algorithm and the local optimization ability of LM algorithm, the problems of traditional algorithm relying on the initial value, easy to fall into local convergence, low WOA algorithm's calibration efficiency and calibration results are solved. Compared with WOA method, Li method, and the two-step method, this method has better performance. Simulation and experimental results show that this method can optimize all parameters of the star sensor with high accuracy and efficiency. [ABSTRACT FROM AUTHOR]

Published

2020

14. A new sizing and optimization framework for stand-alone hybrid renewable energy systems.

Author

Xia, Yaowei and Qin, Jiejie

Subjects

*PHOTOVOLTAIC power generation, *PARTICLE swarm optimization, *MATHEMATICAL optimization, *ELECTRICAL energy, *HYBRID systems, *BATTERY storage plants

Abstract

In this paper, a new optimization methodology to assess the designs of the various renewable generation systems of electrical energy is used. This methodology utilizes Whale Optimization Algorithm (WOA) to minimize the cost of the electrical energy generated. The methodology permits to examine and to combine different sources of energy as to touch base at an optimal configuration of the hybrid system. This system is capable of providing energy to the predefined site in an achievable way as indicated by certain specialized and financial criteria. The system incorporates wind generation, photovoltaic generation and batteries for energy storage. The recreation results have been acquired with the help of MATLAB programming. Moreover, the outcomes of the proposed methodology have been compared with Particle Swarm Optimization (PSO) Algorithm for validation. The recreation results demonstrated the predominance of the proposed methodology. [ABSTRACT FROM AUTHOR]

Published

2019

15. Estimation of component values of filter design using optimization algorithms.

Author

Nayak, Byamakesh, Choudhury, Tanmoy Roy, Misra, Banishree, and Mohapatra, Alivarani

Subjects

*MATHEMATICAL optimization, *FILTERS & filtration, *METAHEURISTIC algorithms

Abstract

In this paper, component values of analog active filters are selected based on the manufacturer's values of E series. The selection is based on optimization algorithms and here one is nature-inspired meta-heuristic optimization algorithm, called Whale Optimization Algorithm (WOA), and another one is the physics-based method called Sine Cosine Algorithm (SCA), are used for active filter design. The capability of optimization of the above algorithms is evaluated by considering the two active filters of a 4th order Butterworth and State variable filter. The performances of each algorithm are analyzed by applying to above two different filter structures, where the component values are determined by making compatible with different E series manufacturer. [ABSTRACT FROM AUTHOR]

Published

2019

16. 3DPCNN based on whale optimization algorithm for color image segmentation.

Author

Xing, Zhikai, Jia, Heming, and Song, Wenlong

Subjects

*MATHEMATICAL optimization, *COLOR image processing, *IMAGE segmentation, *PLANT canopies, *WHALES, *SWARM intelligence

Abstract

Considering that the 3D pulse-coupled neural network (3D-PCNN) model has the deficiency of high parameter complexity and low accuracy in color image segmentation, swarm intelligence optimization algorithm is adopted to optimize the image segmentation process. In this paper, whale optimization algorithm (WOA) is adopted to optimize the 3D-PCNN model parameters E and β. The improved product cross entropy (IPCE) is chosen as the fitness function of optimization algorithm. WOA algorithm is used to find the minimum fitness function, and the corresponding optimal parameters are obtained. Through the study of image segmentation in the image segmentation library of University of Berkeley and the actual plant canopy image, the maximum entropy value and the Tsallis entropy value are compared and analyzed. Experimental results illustrate that the proposed algorithm can obtain more accurate image segmentation effect and higher segmentation rate. [ABSTRACT FROM AUTHOR]

Published

2019