A FORTRAN IV computer program is presented which provides an objective approach to tectonic-strain marker analysis. The algorithms are based on the “Theta-Curve” method and include a test (chi-square, goodness of fit) to check the validity of an initially random marker deformation model. Graphically represented values of confidence versus calculated tectonic-strain estimates, are produced for critical interpretation of results. Orientation data are not dependent on any preconceived reference directions such as cleavage or bedding. The method does assume, in its undeforming procedure, that the median value of the deformed marker-orientations is equivalent to the direction of maximum extension in the finite-strain ellipse. Optional line...
A new computer program for strain visualization has been written. Given an upper triangular deformat...
Nowadays, deformation monitoring survey includes numerous tasks, for example monitoring of engineeri...
Several methods exist for the determination of the finite strain ellipsoid from deformed pebble shap...
A FORTRAN IV computer program is presented which provides an objective approach to tectonic-strain m...
By considering computer models representing suites of passive elliptical markers subjected to homoge...
A new technique for estimating the finite strain of deformed elliptical markers is presented. This m...
A method of strain analysis is described which takes into account a possible competence difference b...
A simple technique is devised for obtaining finite strain estimates from deformed patterns of points...
Basic concept of deformation and strain is described. Strain ellipse and reciprocal strain ellipse a...
STRAIN3D is a new computer program designed to facilitate the analysis of deformed clastic sedimenta...
The shapes of the strain ellipse in homogeneous strain fields can be determined by measuring the cha...
The estimation of the strain ellipse from data consisting of longitudinal strains measured along dif...
Two Matlab™ software packages for strain field computation, starting from displacements of experimen...
A new computer program for strain visualization has been written. Given an upper triangular deformat...
Nowadays, deformation monitoring survey includes numerous tasks, for example monitoring of engineeri...
Several methods exist for the determination of the finite strain ellipsoid from deformed pebble shap...
A FORTRAN IV computer program is presented which provides an objective approach to tectonic-strain m...
By considering computer models representing suites of passive elliptical markers subjected to homoge...
A new technique for estimating the finite strain of deformed elliptical markers is presented. This m...
A method of strain analysis is described which takes into account a possible competence difference b...
A simple technique is devised for obtaining finite strain estimates from deformed patterns of points...
Basic concept of deformation and strain is described. Strain ellipse and reciprocal strain ellipse a...
STRAIN3D is a new computer program designed to facilitate the analysis of deformed clastic sedimenta...
The shapes of the strain ellipse in homogeneous strain fields can be determined by measuring the cha...
The estimation of the strain ellipse from data consisting of longitudinal strains measured along dif...
Two Matlab™ software packages for strain field computation, starting from displacements of experimen...
A new computer program for strain visualization has been written. Given an upper triangular deformat...
Nowadays, deformation monitoring survey includes numerous tasks, for example monitoring of engineeri...
Several methods exist for the determination of the finite strain ellipsoid from deformed pebble shap...