Dimensional deviations are a consequence of the mass production of parts. These deviations can be controlled by tightening production tolerances. However, this solution is not always desired because it increases production costs. Availability of larger amounts of data and automatized production has opened new opportunities to improve the geometrical quality of products by individualization of the assembly process. This concept is proposed by S\uf6derberg et al. as Smart Assembly 4.0 in which the individualized matching of parts, locator adjustments, weld sequence optimization, etc. are performed on an assembly line.This study focuses on two techniques of individualizing the assembly process, individualized matching of parts and individualiz...
Disturbances in the manufacturing and assembly processes cause geometrical variation from the ideal ...
AbstractIn the assembly process, the tolerance of mating parts or products, especially geometric tol...
For assembly of non-rigid components, given the scanned geometries, a self-compensating assembly lin...
Dimensional deviations are a consequence of the mass production of parts. These deviations can be co...
The availability of automated production lines and production data has opened a new opportunity for ...
Geometrical variation affects all mass-produced products. This variation will lead to deviations fro...
Applying the concept of Digital Twin in production processes supports the manufacturing of products ...
Digital twin-driven productions have opened great opportunities to increase the efficiency and quali...
Modern assembly lines for mass production need to fulfill several important criteria. One of them is...
Sheet metal assemblies are often used as support structures in automobiles, airplanes and appliances...
The automotive industry deals with an increased demand for virtual verification of the geometrical q...
Geometrical part robustness is today used as an engineering criterion in many manufacturing companie...
Dimensional variation in assembly processes is one of the most important issues that affect quality....
Geometrical variation in individual manufacturing and assembly processes often propagates and accumu...
Assembly plays a vital role in the quality of a final product and has a great impact on the manufact...
Disturbances in the manufacturing and assembly processes cause geometrical variation from the ideal ...
AbstractIn the assembly process, the tolerance of mating parts or products, especially geometric tol...
For assembly of non-rigid components, given the scanned geometries, a self-compensating assembly lin...
Dimensional deviations are a consequence of the mass production of parts. These deviations can be co...
The availability of automated production lines and production data has opened a new opportunity for ...
Geometrical variation affects all mass-produced products. This variation will lead to deviations fro...
Applying the concept of Digital Twin in production processes supports the manufacturing of products ...
Digital twin-driven productions have opened great opportunities to increase the efficiency and quali...
Modern assembly lines for mass production need to fulfill several important criteria. One of them is...
Sheet metal assemblies are often used as support structures in automobiles, airplanes and appliances...
The automotive industry deals with an increased demand for virtual verification of the geometrical q...
Geometrical part robustness is today used as an engineering criterion in many manufacturing companie...
Dimensional variation in assembly processes is one of the most important issues that affect quality....
Geometrical variation in individual manufacturing and assembly processes often propagates and accumu...
Assembly plays a vital role in the quality of a final product and has a great impact on the manufact...
Disturbances in the manufacturing and assembly processes cause geometrical variation from the ideal ...
AbstractIn the assembly process, the tolerance of mating parts or products, especially geometric tol...
For assembly of non-rigid components, given the scanned geometries, a self-compensating assembly lin...