Prediction for Gas Emission Quantity of the Working Face Based on LSSVM Optimized by Improved Particle Swarm Optimization

Yu Xi Feng; Kai Zhi Zhang; Xi Zhan Yu; Qing Zhi Liu

doi:10.4028/www.scientific.net/AMR.1051.1028

Paper Titles

SOC Estimation for Li-Ion Battery Using SVM Based on Particle Swarm Optimization
p.1004

Study on Prediction of Mackey-Glass Chaotic Time Series Using Support Vector Machines
p.1009

Performance Improvement Study of CV-EWMA Control Chart to Detect Small Shifts of CV
p.1016

A Production Estimation Algorithm in Commingled Oil Wells Based Kernel Partial Least Square
p.1023

Prediction for Gas Emission Quantity of the Working Face Based on LSSVM Optimized by Improved Particle Swarm Optimization
p.1028

Factors that Influence Green Purchase Behaviour among Young Consumers
p.1035

Performance Evaluation of Agriculture and Forestry Biomass Energy Listed Companies
p.1040

Study on Application of Markowitz’s Portfolio Selection Theory in Overseas Petroleum Venture Investment Decision
p.1045

A Study of an Administrative System for High Risk Operations-Take a Science Park as an Example
p.1051

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1051Prediction for Gas Emission Quantity of the...

Prediction for Gas Emission Quantity of the Working Face Based on LSSVM Optimized by Improved Particle Swarm Optimization

Abstract:

Gas emission quantity may forecast the quantity of gas inside the coal, which has important significance for predicting the outburst of gas, but the problem always has not been well solved. Traditional Particle swarm optimization (PSO) algorithm lacks the ability to track the optimal solution while the fitness function changes. An improved algorithm named Time Variant PSO (TVPSO) was proposed to track the optimal solution online. Then it was used to choose the parameters of Least Square Support Vector Machine (LSSVM), which could avoid the man-made blindness and enhance the efficiency of online forecasting. The TVPSO-LSSVM method is based on the minimum structure risk of SVM and the globally optimizing ability of TVPSO to forecast continuously the gas emission quantity of the working face. The method was applied to solve the problem of nonlinear chaos time series prediction. Result shows that the method satisfies the need of online forecasting.

You might also be interested in these eBooks

Applied Engineering Decisions in the Context of Sustainable Development

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 1051)

Pages:

1028-1031

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1051.1028

Citation:

Cite this paper

Online since:

October 2014

Authors:

Yu Xi Feng, Kai Zhi Zhang, Xi Zhan Yu, Qing Zhi Liu

Keywords:

Continuous Forecasting, Gas Emission Quantity, Improved Particle Swarm Optimize, Least Square Support Vector Machine

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Hongqing Zhu, Wenjie Chang, Bin Zhang. Difference-source gas emission prediction model of working face based on BP artificial neural network and its application[J], JOURNAL OF CHINA COAL SOCIETY, 2007, 32(5): pp.504-505.

Google Scholar

[2] Yujing Liu, Guangzhi Xiao. Applying artificial neural network to predict gas emission of working face, [J]. Safety In Coal Mines, 2003, 34(1): pp.11-13.

Google Scholar

[3] Zhanyou Sa, Xueqiu He, Enyuan Wang, Prediction for amount of gas emission from extracted coal face based on self-adapting neural network[J], JOURNAL OF CHINA COAL SOCIETY, 2001, 26(10): pp.96-99.

Google Scholar

[4] Lin Sun, Shiyuan Yang, Prediction for gas emission quantity of the working face based on LS-SVM[J], JOURNAL OF CHINA COAL SOCIETY, 2008, 33(5): pp.1378-1380.

Google Scholar

[5] Weiwu Yan, Huihe Shao, The study of comparing and application for support vector machines and least squares support vector machines[J], CONTROL AND DECISION, 2003, 18(3): pp.358-340.

DOI: 10.1109/acc.2003.1239851

Google Scholar

[6] Liping Zhang. The Theory and Practice of Particle Swarm Optimization Algorithm [D]. HangZhou: ZheJiang Universit, (2005).

Google Scholar