Jing L.,Northeast Dianli University
2016 IEEE International Conference on Knowledge Engineering and Applications, ICKEA 2016 | Year: 2016
In view of the problem of inaccurately measuring the gross calorific value of coal, this paper analyzed the relationship between industry analysis data and calorific value of fire coal into the furnace, and five kinds of industrial analysis components were selected as the original independent variables, which were moisture, ash, volatile matter, sulphur content and fixed carbon in fire coal. In the process of modelling, the latent variable factors were extracted by the partial least square regression method, and the latent variables were selected as the input vectors and coal-fired calorific value as the output vector, then the power plant coal calorific value forecasting model was built based on support vector machine regression algorithm. The predicted results showed that, the accuracy of the coupled model was higher than that of the single model and the forecasting deviations met engineering requirements. Therefore, the model proposed here has practical engineering application value. At the same time, in the process of modelling, the five-point method was used to determine the optimal combination of penalty coefficient and kernel coefficient in the process of modelling. The method could quickly and accurately determine the optimal combination and avoid the blindness of the traditional method in the process of determining the optimal combination of penalty coefficient and kernel coefficient. © 2016 IEEE.
Li Q.,Northeast Dianli University
Journal of Chemical and Pharmaceutical Research | Year: 2014
With the development of sports, hurdler has become more and more high in the pursuit of performance, the competition has grown fiercer, the training load has been increasing accordingly, and so sports injury has also been increasing. Liu Xiang has quitted the competition because of injury in 2012, which strengthen people's attention to sports injury again. This paper makes analysis research on hurdle sports injury from the perspective of sports medicine, with an aim to make suggestions for hurdler technical motions and reduce sports injury occurrences. In research process, it firstly do questionnaire investigation to 400 hurdlers, get the most sever body parts that suffer sports injury are successively as ankle joint, knee joint, shoulder and elbow, which respectively cover the total number of injured people as 31%, 17% and 16%.Then combine with relative knowledge of sports medicine, human structure, mechanics to make research analysis respectively on hurdle ankle joint, knee joint, shoulder and elbow injure causes. Finally make reasonable suggestions from medicine perspective, with an aim to standardize technical motions and reduce hurdler injury and make contribution to our country's hurdle technical development.
Dong N.H.,Northeast Dianli University |
Luo K.H.,University College London |
Wang Q.,Northeast Dianli University
Fuel Processing Technology | Year: 2017
Biomass fast pyrolysis in a fluidized bed reactor is studied numerically by a three-fluid model where the biomass thermal decomposition is introduced with multi-step kinetics. Different superficial velocities of fluidizing gas are defined to investigate the hydrodynamics of the fluidized beds and the consequent influence on the yield fractional distribution of end-products. Heat conduction inside particles is considered indirectly through modifying the rate constants of biomass reaction scheme. The simulation results show that superficial velocity has to be designed carefully based on balancing the char-removal efficiency and biomass heating up rate; compared to the experimental data, the modified reaction scheme can be employed to describe the intra-particle heat penetration, qualitatively, but the accuracy of predicting the end-product yields needs to be improved. © 2016 Elsevier B.V.
Song C.,Northeast Dianli University
Agro Food Industry Hi-Tech | Year: 2017
The different curve or surface structures, and whether the use of a curve or surface is reasonable, are directly related to the quality of clothing design and effect. Hence, the research of curve and surface modeling for clothing in CAD has important theoretical significance and application value. First, in this paper, the status quo of the research was understood and the related theory and technology were analyzed. Then, curve and surface modeling methods in garment CAD were constructed. Finally, to demonstrate the characteristics of the method, specific experiments were specifically tested, thereby showing that the method is feasible, advanced, and effective with specific data.
Li J.,Beijing Normal University |
Deng G.,Northeast Dianli University |
Li H.,Dalian University of Technology |
Zeng W.,Beijing Normal University
Information Sciences | Year: 2012
In this paper, we introduce an axiomatic definition of the similarity measure of intuitionistic fuzzy sets (IFS) that differs from the definition of Li . The relationship between the similarity measure and the entropy of IFS is investigated in detail. Six theorems on how the similarity measure could be transformed into the entropy for IFS and vice versa are proposed based on their axiomatic definitions. Some formulas have been proposed to calculate the similarity measure and the entropy of IFS. Finally, sufficient conditions to transform the similarity measures to the entropy for IFS and vice versa are given. © 2011 Elsevier Inc. All rights reserved.
Chen J.,Northeast Dianli University |
Li G.,Northeast Dianli University
Entropy | Year: 2014
As a novel data mining approach, a wavelet entropy algorithm is used to perform entropy statistics on wavelet coefficients (or reconstructed signals) at various wavelet scales on the basis of wavelet decomposition and entropy statistic theory. Shannon wavelet energy entropy, one kind of wavelet entropy algorithm, has been taken into consideration and utilized in many areas since it came into being. However, as there is wavelet aliasing after the wavelet decomposition, and the information set of different-scale wavelet decomposition coefficients (or reconstructed signals) is non-additive to a certain extent, Shannon entropy, which is more adaptable to extensive systems, couldn't do accurate uncertainty statistics on the wavelet decomposition results. Therefore, the transient signal features are extracted incorrectly by using Shannon wavelet energy entropy. From the two aspects, the theoretical limitations and negative effects of wavelet aliasing on extraction accuracy, the problems which exist in the feature extraction process of transient signals by Shannon wavelet energy entropy, are discussed in depth. Considering the defects of Shannon wavelet energy entropy, a novel wavelet entropy named Tsallis wavelet energy entropy is proposed by using Tsallis entropy instead of Shannon entropy, and it is applied to the feature extraction of transient signals in power systems. Theoretical derivation and experimental result prove that compared with Shannon wavelet energy entropy, Tsallis wavelet energy entropy could reduce the negative effects of wavelet aliasing on accuracy of feature extraction and extract transient signal feature of power system accurately. © 2014 by the authors; licensee MDPI, Basel, Switzerland.
Liu C.-G.,Northeast Dianli University |
Guan X.-H.,Northeast Dianli University
Physical Chemistry Chemical Physics | Year: 2012
Second-order nonlinear optical properties of a tetrathiafulvalene (TTF) derivative of spiropyran have been studied based on density functional theory (DFT) combined with the finite field (FF) calculations. Our DFT-FF calculations confirm a switching behavior of the static first hyperpolarizability caused by the redox and photochromic reaction. The photochromic reaction generates spiropyran-merocyanine conversion by reversible cleavage of the C-O bond, which is relative to the close- and open-ring forms 1-c and 1-o. The open-ring form 1-o displays the large static first hyperpolarizability relative to its close-ring form 1-c according to our DFT-FF calculations with three functionals. The electronic structure analysis and spin unrestricted calculations show that the redox processes significantly affect the geometrical structure of the TTF unit, and thus enhance the static first hyperpolarizabilities. The one-electron-oxidized species having good planar structure of the TTF unit are ∼30 and ∼200 times as large as that of the neutral compounds 1-c and 1-o, respectively. But the difference in the static first hyperpolarizability between one- and two-electron-oxidized states of spiropyran species is not substantial according to our DFT-FF calculations, and the spiropyran-merocyanine conversion of two-electron-oxidized species does not largely affect their static first hyperpolarizability. On the basis of the large change in the static first hyperpolarizability, our DFT-FF calculations support a five-state switching of the static first hyperpolarizability based on the redox and photoisomerization. © 2012 the Owner Societies.
Deng G.,Northeast Dianli University |
Jiang Y.,Northeast Dianli University
Information Sciences | Year: 2014
This paper presents a new fuzzy reasoning method by optimizing the similarity of truth-tables (OS method for short). Its basic idea is to find a fuzzy set such that the truth-tables generated by the antecedent rule and the consequent rule are as similar as possible. Based on this idea, the principle of OS method and the fuzzy reasoning with OS method are given and discussed. And then the OS methods with certain similarity measure and several fuzzy implications are investigated. Finally, numerical examples are analyzed to compare the proposed method with compositional rule of inference (CRI) method. © 2014 Elsevier Inc. All rights reserved.
Jia S.,Northeast Dianli University
DRPT 2011 - 2011 4th International Conference on Electric Utility Deregulation and Restructuring and Power Technologies | Year: 2011
Wind power, among all renewable resources, is the most promising and booming technology. With the increasing wind power capacities, power system planners and operators are facing many new challenges because of its variability and average predictability. An accurate wind power forecasting tool is therefore essential for economical and reliable operation of a power system with high level of wind penetration. This paper proposes a novel short term wind forecasting model based on ensemble empirical mode decomposition and combination of support vector machines. © 2011 IEEE.
Peng H.K.,Northeast Dianli University
Applied Mechanics and Materials | Year: 2014
Ignoring the coordinated development and the natural environment carrying capacity plight caught the traditional development model, emphasizing the natural environment and the economy to adapt to the pursuit of harmony between man and nature, sustainable development become a wise choice, eco-design of the built environment is a human realization important tool for sustainable development. Sustainable eco-design of the built environment and the long-term goal of the current interests combine to maintain maximum coordination with the natural environment, not only become the reality of human needs, while also considering the needs of the human potential. Ecological construction and environmental protection around the significance of in-depth discussion of the needle eco-building for sustainable development thinking and practice of environmental design, environmental design proposed ecological architecture reflects the theme of sustainable development, while recycling is designed to achieve low carbon, environmentally friendly eco-building environment design approach. © (2014) Trans Tech Publications, Switzerland.