초록 ▼

A system and method for design of experiments (DOE) using direct surface manipulation of a mesh model. The method includes the steps of selecting a geometric model in a computer-aided design (CAD) format, converting the geometric model into a mesh model and evaluating the mesh model using a computer

A system and method for design of experiments (DOE) using direct surface manipulation of a mesh model. The method includes the steps of selecting a geometric model in a computer-aided design (CAD) format, converting the geometric model into a mesh model and evaluating the mesh model using a computer-aided engineering (CAE) analysis. The method also includes the steps of determining whether to continue generating the design of experiments response, and modifying a surface of the mesh model by varying a predetermined parameter, wherein the surface is modified using direct surface manipulation (DSM), the mesh model is updated and the updated mesh model is used in continuing generating the design of experiments response, if determined to continue the design of experiments. The method further includes the steps of using the results of the CAE analysis for the design of experiments.

대표청구항 ▼

The invention claimed is: 1. A method for design of experiments using direct surface manipulation of a mesh model, said method comprising the steps of: selecting a geometric model, wherein the model is in a computer-aided design (CAD) format; converting the geometric model into a mesh model; evalua

The invention claimed is: 1. A method for design of experiments using direct surface manipulation of a mesh model, said method comprising the steps of: selecting a geometric model, wherein the model is in a computer-aided design (CAD) format; converting the geometric model into a mesh model; evaluating the mesh model using a computer-aided engineering (CAE) analysis; determining whether to continue generating the design of experiments response; modifying a surface of the mesh model by varying a predetermined parameter, wherein the surface is modified using direct surface manipulation (DSM) by defining a sketch plane containing a domain of a DSM feature, positioning the sketch plane relative to the surface of the model, locating a reference center within the domain, projecting a vertex located on the surface of the mesh model into the domain of the sketch plane, specifying a maximum displacement of the DSM feature by locating a reference vector centered at the reference center to define the height of the DSM feature in object space, specifying a basis function to determine a displacement of the vertex, determining a displacement of the vertex relative to the DSM feature using the basis function, and using the displacement of the vertex to modify the surface of the mesh model, the mesh model is updated and the updated mesh model is used in continuing generating the design of experiments response, if determined to continue generating the design of experiments response; and using the results of the CAE analysis for the design of experiments. 2. A method as set forth in claim 1 wherein said step of evaluating the mesh model using CAE includes using computational fluid dynamics (CFD). 3. A method as set forth in claim 1 including the step of selecting a mesh model stored in a memory of the computer system. 4. A method as set forth in claim 1 including the step of separating the surface feature modified using DSM from the mesh model and storing the DSM feature within an electronic database in the memory of the computer system. 5. A method as set forth in claim 1 including the step of modifying the deformation of a local area of the surface by changing a DSM feature parameter. 6. A method as set forth in claim 1 including the step of refining the number of elements of a surface feature modified using DSM. 7. A method as set forth in claim 3 wherein said step of selecting a CAD model and converting the CAD model into a mesh model includes the steps of: selecting a base mesh model from an electronic database stored in the memory of the computer system; selecting a DSM feature from an electronic database stored in the memory of the computer system; and generating a mesh model using the base mesh model and the selected DSM feature. 8. A method as set forth in claim 3 wherein said step of selecting a CAD model and converting the CAD model into a mesh model includes the steps of selecting a DSM feature from an electronic database stored in the memory of the computer system and generating a mesh model using the converted mesh model and the selected DSM feature. 9. A method for design of experiments using direct surface manipulation of a mesh model, said method comprising the steps of: selecting a base mesh model from an electronic database stored in the memory of the computer system; selecting a DSM feature from an electronic database stored in the memory of the computer system; generating a mesh model using the base mesh model and the selected DSM feature; evaluating the mesh model using a computer-aided engineering (CAE) analysis; determining whether to continue generating the design of experiments response; modifying a surface of the mesh model by varying a predetermined parameter, wherein the surface is modified using direct surface manipulation (DSM) by defining a sketch plane containing a domain of a DSM feature, positioning the sketch plane relative to the surface of the model, locating a reference center within the domain, projecting a vertex located on the surface of the model into the domain of the sketch plane, specifying a maximum displacement of the DSM feature by locating a reference vector centered at the reference center to define the height of the DSM feature in object space, specifying a basis function to determine a displacement of the vertex, determining a displacement of the vertex relative to the DSM feature using the basis function, and using the displacement of the vertex to modify the surface of the mesh model, the mesh model is updated and the updated mesh model is used in continuing generating the design of experiments response, if determined to continue generating the design of experiments response; and using the results of the CAB analysis for the design of experiments response. 10. A method as set forth in claim 9 wherein said step of evaluating the mesh model using CAB includes using computational fluid dynamics (CFD). 11. A method as set forth in claim 9 including the step of separating the surface feature modified using DSM from the mesh model and storing the DSM feature within an electronic database in the memory of the computer system. 12. A method as set forth in claim 9 including the step of modifying the deformation of a local area of the surface by changing a DSM feature parameter. 13. A method as set forth in claim 9 including the step of refining the number of elements of a surface feature modified using DSM.