Geometric reasoning via internet crowdsourcing

A. P. Jagadeesan, A. Lynn, J. Wenzel, A. Sherlock, W. Regli, J.R. Corney, X.T. Yan, C. Torres-Sanchez

Research output: Chapter in Book/Report/Conference proceedingConference contribution book

13 Citations (Scopus)
109 Downloads (Pure)


The ability to interpret and reason about shapes is a peculiarly human capability that has proven difficult to reproduce algorithmically. So despite the fact that geometric modeling technology has made significant advances in the representation, display and modification of shapes, there have only been incremental advances in geometric reasoning. For example, although today's CAD systems can confidently identify isolated cylindrical holes, they struggle with more ambiguous tasks such as the identification of partial symmetries or similarities in arbitrary geometries. Even well defined problems such as 2D shape nesting or 3D packing generally resist elegant solution and rely instead on brute force explorations of a subset of the many possible solutions. Identifying economic ways to solving such problems would result in significant productivity gains across a wide range of industrial applications. The authors hypothesize that Internet Crowdsourcing might provide a pragmatic way of removing many geometric reasoning bottlenecks.This paper reports the results of experiments conducted with Amazon's mTurk site and designed to determine the feasibility of using Internet Crowdsourcing to carry out geometric reasoning tasks as well as establish some benchmark data for the quality, speed and costs of using this approach.After describing the general architecture and terminology of the mTurk Crowdsourcing system, the paper details the implementation and results of the following three investigations; 1) the identification of "Canonical" viewpoints for individual shapes, 2) the quantification of "similarity" relationships with-in collections of 3D models and 3) the efficient packing of 2D Strips into rectangular areas. The paper concludes with a discussion of the possibilities and limitations of the approach.
Original languageEnglish
Title of host publicationProceedings of the 2009 ACM Symposium on Solid and Physical Modeling, San Francisco, California, USA
Place of PublicationNew York, USA
Number of pages5
Publication statusPublished - 8 Oct 2009
EventSPM 09 2009 SIAM/ACM Joint Conference on Geometric and Physical Modeling - San Francisco, United States
Duration: 5 Oct 20098 Oct 2009


ConferenceSPM 09 2009 SIAM/ACM Joint Conference on Geometric and Physical Modeling
Abbreviated titleSPM09
Country/TerritoryUnited States
CitySan Francisco


  • 2D strip packing
  • 3D similarity
  • canonical view
  • crowdsourcing
  • geometric reasoning
  • mTurk
  • micro-outsourcing

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