ARCHIVED - NRC Develops a Sketch-based Design Software
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August 05, 2005— Ottawa, Ontario
Imagine making a free-hand sketch of a house, and then quickly digitally converting this rough, two-dimensional image into a crisp, straight-lined 3D virtual model. A rendering that's accurate enough to be used as the basis for construction or manufacturing. It's an architect's, designer's or even an animator's dream come true. And now it's close to a reality with NRC's Sketch-based Design technology, presently under commercialization.
|Sketch-based design software prototype.|
"For years the design industry market has been looking for a computer-aided solution to help designers during the early conceptual design stage. Our software makes conceptual design as easy as pencil and paper," says John Lyons, a business development officer with the NRC's London, Ontario-based Integrated Manufacturing Technologies Institute (NRC-IMTI).
It's an on-the-job solution that also impressed a distinguished panel of business and scientific leaders who recently awarded the NRC-IMTI team a prize as part of the NRC Business Case Challenge 2005.
This unique software provides a sought after bridge between digital sketch and computer assisted design (CAD) technologies. Commercially available software provides for digital sketching, but no easy way to convert a single isometric sketch into exact two and three dimensional forms. At the other end of the design spectrum, CAD software provides lots of 3D power, but with a complex interface that severely limits early stage free-form creative thinking.
The NRC Sketch-based design system provides designers with a single environment in which to sketch as freely and creatively as if they were using paper and pencil, edit and clean these sketches to 2D engineering drawings, and then easily transform these drawings to 3D models.
The technology builds on the growing popularity and use of tablet PCs, portable computers that include an electronic pen and touch-sensitive screen. These tablets are particularly useful for the highly mobile construction industry. And, as touch-sensitive screen technology drops in cost, it's estimated that by 2008, all lap-top computers will incorporated this feature, significantly expanding the market for Sketch-based design software.
|Screen capture of the sketch-based design software prototype in action.|
"From a technical standpoint, the key unique attribute of our software is the manner in which it translates freehand digital ink into vectors, straight and curved line segments and then to 3D models. They don't need to learn complex interfaces of CAD systems," says Ajit Pardasani, the veteran NRC-IMTI researcher who led the Sketch-based Design development team.
The team developed a secret mathematical method, or algorithm, that analyses roughly drawn lines — even broken and wobbly ones — and converts these into accurate straight or curved ones. What about quickly drawn lines that don't connect at a corner? "The algorithm figures out if the lines should be joined," says Pardasani. The software also incorporates algorithms that interpret the surfaces in the drawing, and state-of-the-art "perceptual organization" techniques that lead the sketcher through a series of interactive questions in order to produce an accurate 3D rendering of the sketch. All of this in the space of minutes.
"Just the ability to go into the field, do a drawing, and convert it into a vector is huge," says Adriana McDonald, a senior CAD instructor at Fanshawe College and one of the experts who provided feedback during the Sketch-based technology's development.
This ability means substantial time and cost savings on construction, design and renovation projects — ones where key information is acquired and approval is usually given on-site. Rather than laboriously inputting pencil drawings into a CAD system, the designer can immediately capture new ideas, digitally edit them (including using cut-and-paste and layering options) and generate a 3D print-out for on-site use, or a sophisticated digital base for further CAD refinement.
The Sketch-based design technology is the product of an intensive three year multidisciplinary team project, says Pardasani. Now in a prototype stage, Lyons says the NRC-IMTI team is examining a variety of options for commercialising the technology, including the possibility of licensing it.
The technology's first target market is design professionals, including architects, interior designers and the educational users. But Lyons says there's a much larger long-term market from mechanical engineers designing machine components, to entertainment industry animators creating virtual buildings and cities for video games and films — all starting with a simple sketch.
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