This paper presents a method for synthesizing multicomponent beam structural assemblies with maximum structural performance and manufacturability. The problem is posed as a relaxation of decomposition-based assembly synthesis, where both topology and decomposition of a structure are regarded as variables over a ground structure with nonoverlapping beams. A multiobjective genetic algorithm with graph-based crossover, coupled with FEM analyses, is used to obtain Pareto optimal solutions to this problem, exhibiting trade-offs among structural stiffness, total weight, component manufacturability (size and simplicity), and the number of joints. Case studies with a cantilever and a simplified automotive floor frame are presented, and representati...
Modular product design---sharing components across multiple products---is viewed as a convenient way...
This paper presents a method for systematically decomposes product geometry into a set of components...
This paper presents an extension of our previous work on decomposition-based assembly synthesis for ...
A method is presented for synthesizing multi-component structural assemblies with maximum structural...
This paper presents a new method for synthesizing structural assemblies directly from the design spe...
Most structural products have complex geometry to meet customer's demand of high functionality. Sinc...
Most structural products have complex geometry to meet customer's demand of high functionality. Sinc...
This study presents a systematic decomposition process to carry out assembly synthesis as a tool dur...
Most structural products have complex geometry to meet customer's demand of high functionality with ...
This paper presents a method for identifying the optimal designs of components and joints in the spa...
An extension of decomposition-based assembly synthesis for structural modularity is presented where ...
Advances in computational techniques have allowed the successful solution of problems involving the ...
A method for optimally synthesizing multi-component structural assemblies of an aluminum space frame...
This paper presents a method for decomposition of structural products in order to provide the produc...
A method for optimally synthesizing multicomponent structural assemblies of an aluminum space frame ...
Modular product design---sharing components across multiple products---is viewed as a convenient way...
This paper presents a method for systematically decomposes product geometry into a set of components...
This paper presents an extension of our previous work on decomposition-based assembly synthesis for ...
A method is presented for synthesizing multi-component structural assemblies with maximum structural...
This paper presents a new method for synthesizing structural assemblies directly from the design spe...
Most structural products have complex geometry to meet customer's demand of high functionality. Sinc...
Most structural products have complex geometry to meet customer's demand of high functionality. Sinc...
This study presents a systematic decomposition process to carry out assembly synthesis as a tool dur...
Most structural products have complex geometry to meet customer's demand of high functionality with ...
This paper presents a method for identifying the optimal designs of components and joints in the spa...
An extension of decomposition-based assembly synthesis for structural modularity is presented where ...
Advances in computational techniques have allowed the successful solution of problems involving the ...
A method for optimally synthesizing multi-component structural assemblies of an aluminum space frame...
This paper presents a method for decomposition of structural products in order to provide the produc...
A method for optimally synthesizing multicomponent structural assemblies of an aluminum space frame ...
Modular product design---sharing components across multiple products---is viewed as a convenient way...
This paper presents a method for systematically decomposes product geometry into a set of components...
This paper presents an extension of our previous work on decomposition-based assembly synthesis for ...