The process can include: scanning the vane ring, including creating a tri-dimensional digital model of the vane ring in an initial configuration; performing a computerized simulation of airflow across the vane ring based on the tri-dimensional digital model; identifying one or more flow discrepancy based on the computerized airflow simulation; associating a subset of one or more vanes of the set of vanes to the one or more flow discrepancy; and plastically deforming at least one vane of the subset.

A process of assembling a filling system for low volume filling of a liquid into a container is disclosed. The process includes obtaining plural liquid forwarding devices configured to provide the liquid from a reservoir to the container, and simulating operation of each of the liquid forwarding devices by numerically modelling flow patterns of the liquid when being forwarded by the liquid forwarding devices, and by determining a shear stress rate for each of the liquid forwarding devices based on the modelled flow patterns. The process further includes determining an appropriateness for each of the liquid forwarding devices by comparing operation parameters of the liquid forwarding of the liquid forwarding devices, wherein the operation parameters include the determined shear stress rates, selecting the liquid forwarding device having the highest determined appropriateness, and installing the selected liquid forwarding device into the filling system.

A damping shock absorber includes a pipe and a plurality of shock absorbers configured on the pipe. The shock absorber includes a main body sleeved on the outer periphery of the pipe and a damping medium filled in the main body. The main body is provided with an inner cavity, and the inner cavity is divided into a plurality of chambers for placing the damping medium separately. A method for designing the damping shock absorber, wherein the main body is filled with the damping medium, such that the shock of the pipe or a shaft body is reduced, ensuring the smooth operation of the pipe or the shaft body, and further ensuring the safety and efficiency of the pipe or the shaft body in a working process. The damage to the pipe or the shaft body and the shock interference to other linked apparatuses are greatly avoided.

A method and computer program for designing straightening aligners are disclosed. The method for designing straightening aligners according to an exemplary embodiment of the present invention includes generating current alignment information representing a patient's current tooth alignment state, and generating orthodontic alignment information for multiple orthodontic steps that are reached sequentially by correcting the current alignment information, wherein generating the orthodontic alignment information sets the multiple orthodontic steps such that the total sum of orthodontic forces applied to the patient's teeth per one orthodontic step is less than or equal to a preset total sum of orthodontic forces in order to reach a tooth alignment state corresponding to the orthodontic alignment information of each orthodontic step.

A system and a method simulate a motion of a cable of a real kinematic system, e.g. robot, containing one or several joints. The method includes the following steps: receiving a virtual representation of the real kinematic system; receiving a target task to be performed by the real kinematic system; perform the target task, and the simulation is configured for calculating a next joint value from a previous joint value. The method is characterized in that each simulation time interval results in a calculation of a next joint value from a previous joint value, and the next joint value is used as an input to a cable position artificial intelligence algorithm trained for outputting a cable position for the next joint value. The outputted cable position for the next joint value is stored.

Provided method and system for three-directional displacement monitoring of building by fusion of InSAR data and physical knowledge. Time-series LOS-directional deformation displacement of region of study, where building to be monitored is located, from each orbit is acquired based on periodical observation data of SAR satellite; time-unified LOS-directional time-series deformations from plurality of orbits are acquired using interpolation method; deformations in vertical and east-west directions are solved by establishing observation equation using interpolated multi-orbital LOS-directional deformation data; ratio of major-axis-directional deformation to minor-axis-directional deformation is calculated by calculating major-axis stiffness and minor-axis stiffness of each standard storey of building structure according to building structure plan, and establishing priori model of building structure using Equivalent Lateral Force method; deformation displacement of building structure in south-north direction is solved based on two-dimensional deformation result and with established priori model of building. The present invention can efficiently and accurately monitor building deformation.

A computer-implemented method for analysing a result of a simulation of a manufacturing or deformation process, comprises retrieving the result of the simulation, comprising at least the geometry of the part (2) and stress tensors (23) in the part (2) caused by the forming process; for one or more starting points (32) in a critical region (22), determining a cause line (3) by following the stress or a corresponding force in the direction in which it is maximal; for each cause line (3), determining at least one line section (31) of the cause line (3), and a cause trajectory (5) representing values of a stress or a force directed along the cause line (3); and performing at least one of presenting information representing the line section (31) and the cause trajectory (5) along the line section (31) to a user; and automatically adapting, parameters of the forming process.