Difference between revisions of "DCIO.2020.GAXC3484"

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(Created page with "#REDIRECT [[]] Category:DCIO Category:DCIO2020 Category:DCIO Posters Category:DCIO WIP Category:Conferences =D-Star: System Feature for Interacting with A...")
 
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=D-Star: System Feature for Interacting with Alternatives=
 
=D-Star: System Feature for Interacting with Alternatives=
 
by ROBERT WOODBURY, AREFIN MOHIUDDIN, NILOOFAR KAZEMI, VAHID ZAHEDNEJAD, DOĞAN ERISEN
 
by ROBERT WOODBURY, AREFIN MOHIUDDIN, NILOOFAR KAZEMI, VAHID ZAHEDNEJAD, DOĞAN ERISEN
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Designers rapidly make plentiful and available design representations as they work. We label such work patterns as “design dialog.” We introduce key design elements for a new kind of interface to parametric modelers aimed at supporting such dialog and at capturing the design space it induces and demonstrate these with a prototype system D.Star. The interface is explicitly multi-state, that is, it supports access to and editing of multiple alternatives simultaneously. Multi-state interaction enables new types of design operators that take multiple alternatives as input and produce multiple alternatives as output. We demonstrate several new operators as examples of a much larger set of new operators made possible by the new system design.

Revision as of 12:55, 14 September 2020

  1. REDIRECT [[]]

D-Star: System Feature for Interacting with Alternatives

by ROBERT WOODBURY, AREFIN MOHIUDDIN, NILOOFAR KAZEMI, VAHID ZAHEDNEJAD, DOĞAN ERISEN

Designers rapidly make plentiful and available design representations as they work. We label such work patterns as “design dialog.” We introduce key design elements for a new kind of interface to parametric modelers aimed at supporting such dialog and at capturing the design space it induces and demonstrate these with a prototype system D.Star. The interface is explicitly multi-state, that is, it supports access to and editing of multiple alternatives simultaneously. Multi-state interaction enables new types of design operators that take multiple alternatives as input and produce multiple alternatives as output. We demonstrate several new operators as examples of a much larger set of new operators made possible by the new system design.