The present work consists of dynamic detection of damages in reinforced concrete bridges by using a MMUM (mathematical model updating method) from incomplete test data. A well suited finite element model of a repair...The present work consists of dynamic detection of damages in reinforced concrete bridges by using a MMUM (mathematical model updating method) from incomplete test data. A well suited finite element model of a repaired bridge is carried out. The diagnosis enables us to locate and detect the damage in a reinforced concrete bridge. Thus, developments of analytical predictions have been checked by modal testing techniques. Besides, the FTCS (finite time centered space) scheme is developed to solve the set of equations which can easily handle finite element matrices of a bridge model. It is shown in this study that the method is applied to detect damages as well as existing cracks in real time of a repaired bridge. To check the efficiency of the method, the repaired bridge of OuedOumazer in Algeria has been selected. It is proven that identification methods have been able to detect the exact location of damage areas to be corrected avoiding the inaccuracy from the finite element model for the mass, stiffness and loading.展开更多
Based on the 1983~2011 CMAP data,the precipitation anomaly in East Asia and its nearby sea regions(hereafter called East Asia for short) demonstrates the "+-+" pattern before 1999 and the "-+-" pattern afterw...Based on the 1983~2011 CMAP data,the precipitation anomaly in East Asia and its nearby sea regions(hereafter called East Asia for short) demonstrates the "+-+" pattern before 1999 and the "-+-" pattern afterwards; this decadal change is contained principally in the corresponding EOF3 component.However,the NCC_CGCM forecast results are quite different,which reveal the "+-+-" pattern before 1999 and the "-+-+" pattern afterwards.Meanwhile,the probability of improving NCC_CGCM's forecast accuracy based on these key SST areas is discussed,and the dynamic-statistics combined forecast scheme is constructed for increasing the information of decadal change contained in the summer precipitation in East Asia.The independent sample forecast results indicate that this forecasting scheme can effectively modify the NCC_CGCM's decadal change information contained in the summer precipitation in East Asia(especially in the area of 30°N–55°N).The ACC is 0.25 and ACR is 61% for the forecasting result based on the V SST area,and the mean ACC is 0.03 and ACR is 51% for the seven key areas,which are better than NCC_CGCM's system error correction results(ACC is -0.01 and ACR is 49%).Besides,the modified forecast results also provide the information that the precipitation anomaly in East Asia mainly shows the "+-+" pattern before 1999 and the "-+-" pattern afterwards.展开更多
文摘The present work consists of dynamic detection of damages in reinforced concrete bridges by using a MMUM (mathematical model updating method) from incomplete test data. A well suited finite element model of a repaired bridge is carried out. The diagnosis enables us to locate and detect the damage in a reinforced concrete bridge. Thus, developments of analytical predictions have been checked by modal testing techniques. Besides, the FTCS (finite time centered space) scheme is developed to solve the set of equations which can easily handle finite element matrices of a bridge model. It is shown in this study that the method is applied to detect damages as well as existing cracks in real time of a repaired bridge. To check the efficiency of the method, the repaired bridge of OuedOumazer in Algeria has been selected. It is proven that identification methods have been able to detect the exact location of damage areas to be corrected avoiding the inaccuracy from the finite element model for the mass, stiffness and loading.
基金supported by the National Basic Research Program of China(Grant No.2012CB955203)the National Natural Science Foundation of China(Grant Nos.41205040,41105055)the Special Scientific Research Project for Public Interest(Grant No.GYHY201306021)
文摘Based on the 1983~2011 CMAP data,the precipitation anomaly in East Asia and its nearby sea regions(hereafter called East Asia for short) demonstrates the "+-+" pattern before 1999 and the "-+-" pattern afterwards; this decadal change is contained principally in the corresponding EOF3 component.However,the NCC_CGCM forecast results are quite different,which reveal the "+-+-" pattern before 1999 and the "-+-+" pattern afterwards.Meanwhile,the probability of improving NCC_CGCM's forecast accuracy based on these key SST areas is discussed,and the dynamic-statistics combined forecast scheme is constructed for increasing the information of decadal change contained in the summer precipitation in East Asia.The independent sample forecast results indicate that this forecasting scheme can effectively modify the NCC_CGCM's decadal change information contained in the summer precipitation in East Asia(especially in the area of 30°N–55°N).The ACC is 0.25 and ACR is 61% for the forecasting result based on the V SST area,and the mean ACC is 0.03 and ACR is 51% for the seven key areas,which are better than NCC_CGCM's system error correction results(ACC is -0.01 and ACR is 49%).Besides,the modified forecast results also provide the information that the precipitation anomaly in East Asia mainly shows the "+-+" pattern before 1999 and the "-+-" pattern afterwards.
