63 research outputs found
Structural model updating based on metamodel using modal frequencies
Modal frequencies are often used in structural model updating based on the finite element model, and metamodel technique is often applied to the corresponding optimization process. In this work, the Kriging model is used as the metamodel. Firstly, the influence of different correlation functions of Kriging model is inspected, and then the approximate capability of Kriging model is investigated via inspecting the approximate accuracy of nonlinear functions. Secondly, a model updating procedure is proposed based on the Kriging model, and the samples for constructing Kriging model are generated via the method of Optimal Latin Hypercube. Finally, a typical frame structure is taken as a case study and demonstrates the feasibility and efficiency of the proposed approach. The results show the Kriging model can match the target functions very well, and the finite element model can achieve accurate frequencies and can reliably predict the frequencies after model updating
Structural dynamic model updating based on Kriging model using frequency response data
Metamodel technique is attracting more and more attention in structural dynamic model updating. In this paper, an attempt is made to explore the effectiveness of Kriging method for acceleration frequency response function based model updating. A Kriging model is constructed based on the input variables selected by F-test method specially, which is applied to the results of design of experiment. The response of design of experiment is obtained based on the errors between acceleration response curves of analytical model and experimental model. Two examples of representative structure are discussed, the comparison of updated results of different metamodel shows that a less error of updated results can be obtained based on Kriging model, and the updated analytical model has a good prediction capability. It can be concluded that the Kriging model is suitable for the frequency response function based model updating
Leaf photosynthetic function duration during yield formation of large-spike wheat in rainfed cropping systems
Improving photosynthetic capacity significantly affects the yield of wheat (Triticum aestivum L.) in rainfed regions. In this study, the physiological characteristics of eight large-spike wheat lines were compared with a multiple-spike cultivar as a control (CK) in a field over two consecutive seasons: 2010–2012. The tillering peak was 7–21 d after returning green for line 2040, the average rate of decline of relative water content was slower, and the average duration time of photosynthetic rate was longer than CK in vitro. There was a strong linear and positive correlation between photosynthetic rate and root activity at jointing, flowering, and grain-filling stages. In addition, average yields were higher in large-spike lines than CK (multiple-spike cultivar). The results suggest that large-spike lines might have greater water retaining capacity during yield formation under rainfed conditions
Negative differential conductance effect and electrical anisotropy of 2D ZrB2 monolayers
Two-dimensional (2D) metal-diboride ZrB2 monolayers was predicted
theoretically as a stable new electronic material [A. Lopez-Bezanilla, Phys.
Rev. Mater., 2018, 2, 011002 (R)]. Here, we investigate its electronic
transport properties along the zigzag (z-ZrB2) and armchair (a-ZrB2)
directions, using the density functional theory and non-equilibrium Green's
function methods. Under low biases, the 2D ZrB2 shows a similar electrical
transport along zigzag and armchair directions as electric current propagates
mostly via the metallic Zr-Zr bonds. However, it shows an electrical anistropy
under high biases, and its I-V curves along zigzag and armchair directions
diverge as the bias voltage is higher than 1.4 V, as more directional B-B
transmission channels are opened. Importantly, both z-ZrB2 and a-ZrB2 show a
pronounced negative differential conductance (NDC) effect and hence they can be
promising for the use in NDC-based nanodevices
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