@article {Berry:2015:0736-2935:623, title = "Reconstruction of deterministic and random excitations on a bending plate using the virtual fields method", journal = "INTER-NOISE and NOISE-CON Congress and Conference Proceedings", parent_itemid = "infobike://ince/incecp", publishercode ="ince", year = "2015", volume = "251", number = "1", publication date ="2015-04-13T00:00:00", pages = "623-648", itemtype = "ARTICLE", issn = "0736-2935", url = "https://ince.publisher.ingentaconnect.com/content/ince/incecp/2015/00000251/00000001/art00049", author = "Berry, Alain and Robin, Olivier and Benghanem, Abdelghani", abstract = "The identification of dynamic forces acting on a structure is an important practical problem in many engineering situations, for instance, to determine dynamic wall pressure fluctuations in- duced by airflows on vehicles. This work investigates the reconstruction of deterministic and ran- dom surface excitations of bending panels from their measured vibration response. The approach employed, called Virtual Fields Method (VFM), starts from an integral form of the plate dynam- ics (virtual work principle) in which piecewise virtual displacement fields are used to extract the unknown loading over the plate surface. The method therefore requires that the differential opera- tor governing the plate dynamics and its material properties are known a priori. It is fed with the transverse velocity response of the plate measured by Laser Doppler Vibrometry (LDV) over a grid of points. This response is processed to generate both the transverse displacements and bending curvatures necessary to obtain inertial and elastic forces in the integral form of the plate dynam- ics. The method was initially implemented to extract spatially deterministic excitations provided by mechanical point forces and acoustical point sources on flexural plates. It has been more recently extended to spatially-correlated excitations such as diffuse acoustic fields and turbulent boundary layers. In these situations, the method allows extracting spatial distributions of loading autospec- tra and spatial correlations over the plate surface. The presentation will review the principle of the Virtual Fields Method for deterministic and random excitations as well as implementation details. Examples of experimental results will be presented for shaker, acoustic point source and diffuse acoustic field excitations on a test panel.", }