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Request a sales quote**Preface. Symposium chairpersons. International scientific committee. Organizing committee. Participants. Inverse heat conduction.** A combined use of experimental design and Kalman filter - BEM for identification ofunknown boundary shape for axisymmetric bodies under steady-state heat conduction (M. Tanaka *et al.*). Estimation of the temperature and the concentration fields in a semitransparent medium: emphasis on the experimental noise disturbance (A. Chouaki *et al.*). Numerical estimation of the transient heat flux boundary conditions for a flat specimen (S. Abboudi, E. Artioukhine). Estimation of the thermal state of two bars in dry sliding (F. Lacour *et al.*). Moisture diffusivity estimation by temperature response of a drying body (G.H. Kanevce *et al.*). Parameter estimation in moist capillary porous media by using temperature measurements (L.B. Dantas *et al.*). Determination of heat transfer coefficient maps using an inverse BEM algorithm (E. Divo *et al.*). Tracking of phase change front for continuous casting - inverse BEM solution (I. Nowak *et al.*). Application of DRBEM and Iterative Regularization to Inverse Heat Conduction (M. Tanaka, K.M. Singh). Numerical solution of an inverse steady state heat conduction problem (F. Berntsson, L. Eldén). An inverse heat conduction problem and an application to heat treatment of aluminium (F. Berntsson, L. Eldén). **Boundary data detection in solid mechanics**. Inverse analysis to determine contact stresses using photoelasticity (H. Inoue *et al.*). Identification of tractions based on displacement observations at interior points (M. Nakajima *et al.*). Identification of dynamic pressure distribution applied to the elastic thin plate (M. Arai *et al.*). Determination of unsteady container temperatures during freezing of three-dimensional organs with constrained thermal stresses (B.H. Dennis, G.S. Dulikravich). Analysis of inverse boundary value problem by the alternating boundary element inversion scheme and its improvement using boundary division (S. Kubo, A. Furukawa). **Material property determination**. Method for identification of elastic properties of laminates (R. Rikards). A single integral finite strain characterization of soft connective tissues and parameter identification (V. Quaglini *et al.*). Identification strategies for recovering material parameters from indentation experiments (A. Constantinescu, N. Tardieu). Identification of material parameters in constitutive model for shape memory alloy based on isothermal stress-cycle tests (F. Yoshida *et al.*). **Defect detection**. On the identification of a crack in 3D acoustics (H.D. Bui *et al.*). On the identification of conductive cracks (C.J.S. Alves *et al.*). Inversion of defects by linearized inverse scattering methods with measured waveforms (K. Nakahata, M. Kitahara). Fast recovering algorithm for crack shape of steam generator tubes using geometric approach (F. Kojima, N. Okajima). Structural damage identification using static test data and changes in frequencies (X. Wang *et al.*). Inverse analysis for fracture process zone characterization (D.K. Tran *et al.*). Identification of delamination in bonded dissimilar materials with orthotropic electric conductivity by the electric potential CT method (S. Kubo *et al.*). Damage detection of structure using image processing (1st Report, Detection of joint failure) (T. Kawai *et al.*). **Shape determination**. Solution to boundary shape identification problems in elliptic boundary value problems using shape derivatives (H. Azegami). Shape optimization of transient response problems (Z.Q. Wu *et al.*). Solution to shape determination problem on unsteady heat-conduction fields (E. Katamine *et al.*). **Parameter identification in solid mechanics**. Multi-objective parameter identification of unified material models (T. Furukawa *et al.*). The polar method as a tool for solving inverse problems of the classical laminated plate theory (G. Verchery *et al.*). Verification of ultrasonic transducer characteristics determined in an inverse problem based on laser measurements (T. Kanbayashi *et al.*). Identification of elastodynamics load using DRBEM and dynamic programming filter (M. Tanaka, W. Chen). A geometrical design technique for impact pistons based on stress waveforms (D. Liu *et al.*). Inversion of stress and constitutive relations using strain data for Japan Islands (M. Hori). Estimation of parameters in tank model analysis using least squares of residuals with constraints (M. Kanoh *et al.*). Identification of damped joints parameters using the error in the constitutive relation (A. Deraemaeker *et al.*). Condition monitoring and damage quantification in robot joints using nonlinear dynamics characteristics and inverse classification methods (I. Trendafilova, H. Van Brussel). **Inverse problems in aeronautics and fluid dynamics**. Waverider design with parametric flow quality control by inverse method of characteristics (Y. Qian *et al.*). Improper integrals in the formulation of a supersonic inverse problem (K. Matsushima). A function estimation approach for the identification of the transient inlet profile in parallel plate channels (M.J. Colaço, H.R.B. Orlande). Inverse aerodynamic shape design for improved wing buffet-onset performance (B.I. Soemarwoto *et al.*). The application of modified output error method and its verification on inverse problems in aeronautics (No.2) (Y. Koyama, F. Imado). **Inverse problems in electromagnetics and acoustics**. Optimization of electroplating on silicon wafer (K. Amaya *et al.*). Defect shape recovering for electromagnetic problem using HTS-SQUID gradiometer (F. Kojima *et al.*). Design optimization of electromagnetic devices with neural network (A. Kimura, Y. Kagawa). On the reconstruction of magnetic source in cylindrical permanent magnets (H. Igarashi). Extraction of transfer characteristics of vocal tract from speech signals (K. Tsutsumi, Y. Kagawa). **Uniqueness, ill-posedness, regularization**. Regularizing procedures for solving the general inverse problem of structural chemistry and their applications (I.V. Kochikov *et al.*). Numerical solution of a Cauchy problem for an elliptic equation (J. Cheng *et al.*). Variational and D-N approaches for a magnetostatic Cauchy problem (T. Shigeta). **Numerical and computational algorithms**. Identification coefficient problems for elliptic hemivariational inequalities and applications (S. Migórski). Variational approach for the problem of coeffcient identification of the wave equation (K. Shirota). On an inverse phase change problem (A. El-Badia). On some inverse EEG problems (M. Chafik *et al.)*. Numerical solution of under-determined 2D Laplace equation with internal information (Q. Wang *et al.*). **Applications of computational algorithms**. Evolutionary methods in inverse problems of engineering mechanics (T. Burczyński *et al.*). Screen detection with near field measurements (C.J.S. Alves, G.E. Pires). Bayesian estimation for nonlinear inverse problems (M. Suzuki, A. Murakami). Structural optimization using cellular automata (T. Toyoda, E. Kita). **Author index**.### G.S. Dulikravich

### Mana Tanaka

- 1st Edition - December 11, 2000
- Authors: G.S. Dulikravich, Mana Tanaka
- Language: English
- eBook ISBN:9 7 8 - 0 - 0 8 - 0 5 3 5 1 5 - 9

Inverse Problems are found in many areas of engineering mechanics and there are many successful applications e.g. in non-destructive testing and characterization of material… Read more

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Inverse Problems are found in many areas of engineering mechanics and there are many successful applications e.g. in non-destructive testing and characterization of material properties by ultrasonic or X-ray techniques, thermography, etc. Generally speaking, inverse problems are concerned with the determination of the input and the characteristics of a system, given certain aspects of its output. Mathematically, such problems are ill-posed and have to be overcome through development of new computational schemes, regularization techniques, objective functionals, and experimental procedures.

Following the IUTAM Symposium on these topics, held in May 1992 in Tokyo, another in November 1994 in Paris, and also the more recent ISIP'98 in March 1998 in Nagano, it was concluded that it would be fruitful to gather regularly with researchers and engineers for an exchange of the newest research ideas. The most recent Symposium of this series "International Symposium on Inverse Problems in Engineering Mechanics (ISIP2000)" was held in March of 2000 in Nagano, Japan, where recent developments in inverse problems in engineering mechanics and related topics were discussed.

The following general areas in inverse problems in engineering mechanics were the subjects of ISIP2000: mathematical and computational aspects of inverse problems, parameter or system identification, shape determination, sensitivity analysis, optimization, material property characterization, ultrasonic non-destructive testing, elastodynamic inverse problems, thermal inverse problems, and other engineering applications. The papers in these proceedings provide a state-of-the-art review of the research on inverse problems in engineering mechanics and it is hoped that some breakthrough in the research can be made and that technology transfer will be stimulated and accelerated due to their publication.

For researchers and engineers interested in inverse problems in engineering mechanics.

- No. of pages: 608
- Language: English
- Edition: 1
- Published: December 11, 2000
- Imprint: Elsevier Science
- eBook ISBN: 9780080535159

GD

Affiliations and expertise

Department of Mechanical and Aerospace Engineering, Box 19018, University of Texas at Arlington, TX, 76019, USA. Tel: 001 817 272 2603 Fax: 001 272 5010 E-mail: [email protected]MT

Affiliations and expertise

Department of Mechanical Systems Engineering, Shinshu University, Nagano, JapanRead *Inverse Problems in Engineering Mechanics II* on ScienceDirect