He vision process, enabling recording Measurement of your beam motion was
He vision technique, enabling recording Measurement with the beam motion was based on the vision system, enabling recordof a sequence of images. Each and every image was analyzed working with a vision algorithm, permitting the ing of a sequencedisplacements of 16 chosen points markedvision algorithm, permitting determination of of photos. Each and every image was analyzed using a around the cantilever beam. The the determination of displacements of 16 selected points marked on the cantilever beam. vision method enabled the observation of 16 points on the beam in the very same time, which The vision method enabled the observation of points. on displacement of the time, improves the interdependencies in between the 16 pointsThe the beam in the exact same chosen which improves the Figure 4. points is presented ininterdependencies involving the points. The displacement of your selected points is presented in Figure 4.Figure 4. Arrangement of measured points inside the cantilever beam structure. Figure four. Arrangement of measured points inside the cantilever beam structure.The displacements with the points have been determined in two directions: perpendicular towards the displacements in the points had been determined in two directions: Perpendicular to the beam axis and as well as the axis. Along the beam axis, may be the x-axis with the stationary the beam axissystem. The together with the axis. Along thesystem axis,defined Polmacoxib Immunology/Inflammation because the point stationary coordinates’ and along center with the coordinate beam was will be the x-axis with the P0 rigcoordinates’ method. The center of the coordinate technique was defined because the point carried idly connected in the moving holder. Measurements applying the vision system were P0 rigidly connected in the moving holder. Measurements applying the vision process had been carried out out in following stages: in following stages: job and choice from the approaches of fixing the beam plus the method evaluation of theanalysis on the activity and selection of your solutions of fixing the beam along with the technique of sticking the piezoelectric elements, selection of your hardware configuration of sticking the piezoelectric elements, in the vision method, image calibration in the laboratory station, choice of your hardware configuration in the vision method, recording on the sequence of photos in the laboratory station, image calibration at the laboratory station, improvement of an image of photos at the laboratory station, recording on the sequence evaluation algorithm, overall performance of an image evaluation algorithm, development of measurements and archiving of measurement data. The first stage encompassed analysis of your measuring process and information. overall performance of measurements and archiving of measurement carrying out preliminary tests. They aimed to ascertain the important field of view (FOV), measuring resoThe first stage encompassed analysis of the measuring task and carrying out prelution, as well as the geometry with the vision program setting, concerning the process of sticking liminary tests. They aimed to determine the required field of view (FOV), measuring the piezoelectric components onto the beam and JPH203 Autophagy mounting the beam onto the vibration exresolution, and the geometry from the vision program setting, regarding the technique of sticking citer. the piezoelectric components onto the beam and mounting the beam onto the vibration exciter. The subsequent stage was to project the hardware configuration from the vision program. The field of view was setup so that the complete beam, including the inductor and load, was visible. The vision technique parameters have been chosen to en.