S. C. Luby scite author profile

A Prototype of Feature-Based Design for Assembly

Fazio

¹

,

Edsall

²

,

Gustavson

³

et al. 1993

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This paper describes a prototype software system that implements a form of featurebased design for assembly. It is not an automated design system but instead a decision and design aid for designers interested in Concurrent Design. Feature-based design captures design intent (assembly topology, product function, manufacturing, or field use) while creating part and product geometry. Design for assembly as used here extends existing ideas about critiquing part shapes and part count to include assembly process planning, assembly sequence generation, assembly fixturing assessments, and assembly process costs. This work was primarily interested in identifying the information important to DFA tasks, and how that information could be captured using feature-based design. It was not intended to extend the state of the art in feature-based geometry creation, but rather to explore the uses of the information that can be captured. The prototype system has been programmed in LISP on Sun workstations. Its research contributions comprise integration of feature-based design with several existing and new assembly analysis and synthesis algorithms; construction of feature properties to meet the needs of those algorithms; a carefully chosen division of labor between designer and computer;, and illustration of feature-based models of products as the information source for assembly analysis and process design. Some of its functions have been implemented approximately or partially but they give the flavor of the benefits to be expected from a fully functional system.

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Improving human and environmental health in urban informal settlements: the Revitalising Informal Settlements and their Environments (RISE) programme

Brown

¹

,

Leder²,

Wong³

et al. 2018

The Lancet Planetary Health

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A prototype of feature-based design for assembly

Fazio

¹

,

Edsall

²

,

Gustavson

³

et al. 1991

View full text Add to dashboard Cite

This paper describes a prototype software system that implements a form of featurebased design for assembly. It is not an automated design system but instead a decision and design aid for designers interested in Concurrent Design. Feature-based design captures design intent (assembly topology, product function, manufacturing, or field use) while creating part and product geometry. Design for assembly as used here extends existing ideas about critiquing part shapes and part count to include assembly process planning, assembly sequence generation, assembly fixturing assessments, and assembly process costs. This work was primarily interested in identifying the information important to DFA tasks, and how that information could be captured using feature-based design. It was not intended to extend the state of the art in feature-based geometry creation, but rather to explore the uses of the information that can be captured. The prototype system has been programmed in LISP on Sun workstations. Its research contributions comprise integration of feature-based design with several existing and new assembly analysis and synthesis algorithms; construction of feature properties to meet the needs of those algorithms; a carefully chosen division of labor between designer and computer;, and illustration of feature-based models of products as the information source for assembly analysis and process design. Some of its functions have been implemented approximately or partially but they give the flavor of the benefits to be expected from a fully functional system.

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Expert systems for mechanical design: Examples of symbolic representations of design geometries

Dixon

¹

,

Libardi

²

,

Luby

³

et al. 1987

Engineering with Computers

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A Prototype of Feature-Based Design for Assembly

DeFazio

¹

,

Edsall

²

,

Gustavson

³

et al. 1990

View full text Add to dashboard Cite

This paper describes a prototype software system that implements a form of feature-based design for assembly. It is not an automated design system but instead a decision and design aid for designers interested in Concurrent Design. Feature-based design captures design intent (assembly topology, product function, manufacturing, or field use) while creating part and product geometry. Design for assembly as used here extends existing ideas about critiquing part shapes and part count to include assembly process planning, assembly sequence generation, assembly fixturing assessments, and assembly process costs. This work was primarily Interested in identifying the information important to DFA tasks, and how that information could be captured using feature-based design. It was not intended to extend the state of the art in feature-based geometry creation, but rather to explore the uses of the information that can be captured. The prototype system has been programmed in LISP on Sun workstations. Its research contributions comprise integration of feature-based design with several existing and new assembly analysis and synthesis algorithms; construction of feature properties to meet the needs of those algorithms; a carefully chosen division of labor between designer and computer; and illustration of feature-based models of products as the information source for assembly analysis and process design. Some of its functions have been implemented approximately or partially but they give the flavor of the benefits to be expected from a fully functional system.

show abstract

S. C. Luby

A Prototype of Feature-Based Design for Assembly

Improving human and environmental health in urban informal settlements: the Revitalising Informal Settlements and their Environments (RISE) programme

A prototype of feature-based design for assembly

Expert systems for mechanical design: Examples of symbolic representations of design geometries

A Prototype of Feature-Based Design for Assembly

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