Improved Hybrid Particle Swarm Optimized Wavelet Neural Network for Modeling the Development of Fluid Dispensing for Electronic Packaging

Ling, Sai Ho; Iu, Herbert Ho-Ching; Leung, F.H.F.; Chan, Kit Yan

doi:10.1109/tie.2008.922599

Cited by 157 publications

(85 citation statements)

References 41 publications

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“…In addition, the optimization was done until 150 generations were completed with 30 particles in each generation. As for the parameter of the wavelet, the work in this section will vary the value of the wavelet parameters, as seen in Equation (9) and Equation (10)) except for α; it is determined randomly, according to [33].To test the efficacy of the proposed system, some experiments will be conducted. They are:…”

Section: The Experimental Setupmentioning

confidence: 99%

Optimized Kernel Extreme Learning Machine for Myoelectric Pattern Recognition

Anam¹,

Al-Jumaily²

2018

IJECE

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Myoelectric pattern recognition (MPR) is used to detect user's intention to achieve a smooth interaction between human and machine. The performance of MPR is influenced by the features extracted and the classifier employed. A kernel extreme learning machine especially radial basis function extreme learning machine (RBF-ELM) has emerged as one of the potential classifiers for MPR. However, RBF-ELM should be optimized to work efficiently. This paper proposed an optimization of RBF-ELM parameters using hybridization of particle swarm optimization (PSO) and a wavelet function. These proposed systems are employed to classify finger movements on the amputees and able-bodied subjects using electromyography signals. The experimental results show that the accuracy of the optimized RBF-ELM is 95.71% and 94.27% in the healthy subjects and the amputees, respectively. Meanwhile, the optimization using PSO only attained the average accuracy of 95.53 %, and 92.55 %, on the healthy subjects and the amputees, respectively. The experimental results also show that SW-RBF-ELM achieved the accuracy that is better than other well-known classifiers such as support vector machine (SVM), linear discriminant analysis (LDA) and knearest neighbor (kNN).

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Section: The Experimental Setupmentioning

confidence: 99%

Optimized Kernel Extreme Learning Machine for Myoelectric Pattern Recognition

Anam¹,

Al-Jumaily²

2018

IJECE

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“…The basic PSO algorithm is simple to use and has fast searching speed, but it also easily falls into the local minimum and convergence precision problems [17], so it is necessary to improve it.…”

Section: Brief Of Particle Swarm Optimizationmentioning

confidence: 99%

Aeroengine Fault Diagnosis Using Optimized Elman Neural Network

Huang

2017

Mathematical Problems in Engineering

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A new Elman Neural Network (ENN) optimized by quantum-behaved adaptive particle swarm optimization (QAPSO) is introduced in this paper. According to the root mean square error, QAPSO is used to select the best weights and thresholds of the ENN in training samples. The optimized neural network is applied to aeroengine fault diagnosis and is compared with other optimized ENN, original ENN, BP, and Support Vector Machine (SVM) methods. The results show that the QAPSO-ENN is more accurate and reliable in the aeroengine fault diagnosis than the conventional neural network and other ENN methods; QAPSO-ENN has great diagnostic ability in small samples.

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“…And constraint (17) shows the wind power output limitations. Equation (18) gives the power balance between generations and loads including the transmission losses.…”

Section: System Constraintsmentioning

confidence: 99%

“…Different heuristic techniques have been developed to solve the classical ED problems with constraints, to namely simulated annealing (SA) [11], genetic algorithm (GA) [12], evolutionary programming (EP) [13,14], tabu search (TS) [15], pattern search (PS) [16], particle swarm optimization (PSO) [17,18], as well as differential evolution (DE) [19,20]. Based on our experience, when compared with other approaches, the PSO is computationally inexpensive in terms of memory and speed.…”

Section: Introductionmentioning

confidence: 99%

Sequential quadratic programming particle swarm optimization for wind power system operations considering emissions

Zhang

Yao

et al. 2013

J. Mod. Power Syst. Clean Energy

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In this paper, a computation framework for addressing combined economic and emission dispatch (CEED) problem with valve-point effects as well as stochastic wind power considering unit commitment (UC) using a hybrid approach connecting sequential quadratic programming (SQP) and particle swarm optimization (PSO) is proposed. The CEED problem aims to minimize the scheduling cost and greenhouse gases (GHGs) emission cost. Here the GHGs include carbon dioxide (CO 2 ), nitrogen dioxide (NO 2 ), and sulphur oxides (SO x ). A dispatch model including both thermal generators and wind farms is developed. The probability of stochastic wind power based on the Weibull distribution is included in the CEED model. The model is tested on a standard system involving six thermal units and two wind farms. A set of numerical case studies are reported. The performance of the hybrid computational method is validated by comparing with other solvers on the test system.

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Improved Hybrid Particle Swarm Optimized Wavelet Neural Network for Modeling the Development of Fluid Dispensing for Electronic Packaging

Cited by 157 publications

References 41 publications

Optimized Kernel Extreme Learning Machine for Myoelectric Pattern Recognition

Optimized Kernel Extreme Learning Machine for Myoelectric Pattern Recognition

Aeroengine Fault Diagnosis Using Optimized Elman Neural Network

Sequential quadratic programming particle swarm optimization for wind power system operations considering emissions

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