Add to ORKGRoundness is one of the most common features in machining, and various criteria may be used for roundness errors evaluation. The minimum zone tolerance (MZT) method produces more accurate solutions than data fitting methods like least squares interpolation. The problem modeling and the application of Genetic Algorithms (GA) for the roundness evaluation is reviewed here. Guidelines for the GA parameters selection are also provided based on computation experiments
In the verification of the compliance with dimensional and geometrical specifications of manufacture...
AbstractWhen Genetic Algorithms (GA) are used to solve layout problems, the solution quality may be ...
The geometrical tolerance verification of machined part is a process composed of a set of inspection...
Roundness is one of the most common features in machining, and various criteria may be used for roun...
According to ISO 1101, “A geometrical tolerance applied to a feature defines the tolerance zone with...
Roundness is one of the most common features in machining. The minimum zone tolerance (MZT) approach...
Roundness is one of the most common features in machining. The minimum zone tolerance (MZT) approach...
The minimum zone tolerance is a non linear method to find a global solution to the roundness evaluat...
AbstractWhether roundness error can be evaluated accurately and efficiently or not will directly inf...
Form deviation of machined components need to be controlled within the required tolerance values for...
Quality of mechanical components is more and more often related to geometric tolerances, e.g., round...
Requirements to roundness tolerances are a part of the geometrical product specifications. However, ...
MESH is an ε-approximate algorithm to find the minimum zone center of a given roundness profile, wit...
The minimum zone tolerance (MZT) meets the ISO 1101 definition of roundness error: it determines two...
As far as machine parts are concerned, accuracy can be defined in many aspects. In order for a workp...
In the verification of the compliance with dimensional and geometrical specifications of manufacture...
AbstractWhen Genetic Algorithms (GA) are used to solve layout problems, the solution quality may be ...
The geometrical tolerance verification of machined part is a process composed of a set of inspection...
Roundness is one of the most common features in machining, and various criteria may be used for roun...
According to ISO 1101, “A geometrical tolerance applied to a feature defines the tolerance zone with...
Roundness is one of the most common features in machining. The minimum zone tolerance (MZT) approach...
Roundness is one of the most common features in machining. The minimum zone tolerance (MZT) approach...
The minimum zone tolerance is a non linear method to find a global solution to the roundness evaluat...
AbstractWhether roundness error can be evaluated accurately and efficiently or not will directly inf...
Form deviation of machined components need to be controlled within the required tolerance values for...
Quality of mechanical components is more and more often related to geometric tolerances, e.g., round...
Requirements to roundness tolerances are a part of the geometrical product specifications. However, ...
MESH is an ε-approximate algorithm to find the minimum zone center of a given roundness profile, wit...
The minimum zone tolerance (MZT) meets the ISO 1101 definition of roundness error: it determines two...
As far as machine parts are concerned, accuracy can be defined in many aspects. In order for a workp...
In the verification of the compliance with dimensional and geometrical specifications of manufacture...
AbstractWhen Genetic Algorithms (GA) are used to solve layout problems, the solution quality may be ...
The geometrical tolerance verification of machined part is a process composed of a set of inspection...