Robotics: Science and Systems IV 2008
DOI: 10.15607/rss.2008.iv.025
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Simplex-Tree Based Kinematics of Foldable Objects as Multi-body Systems Involving Loops

Abstract: Abstract-Many practical multi-body systems involve loops. Studying the kinematics of such systems has been challenging, partly because of the requirement of maintaining loop closure constraints, which have conventionally been formulated as highly nonlinear equations in joint parameters. Recently, novel parameters defined by trees of triangles have been introduced for a broad class of linkage systems involving loops (e.g., spatial loops with spherical joints and planar loops with revolute joints); these paramet… Show more

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Cited by 7 publications
(6 citation statements)
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“…Han et al [10] proposed a set of geometric parameters for closed chain systems such that the problem can be reformulated as a system of linear inequalities. They extend this work to handle multiple loops [9]. They show results for a 1000-link closed chain and a 1000-loop system containing 3000 links.…”
Section: Related Workmentioning
confidence: 87%
See 1 more Smart Citation
“…Han et al [10] proposed a set of geometric parameters for closed chain systems such that the problem can be reformulated as a system of linear inequalities. They extend this work to handle multiple loops [9]. They show results for a 1000-link closed chain and a 1000-loop system containing 3000 links.…”
Section: Related Workmentioning
confidence: 87%
“…For example, topology 2 requires many more attempts with only 30 links because the links in the inner loops must be very close together to close, see Figure 9(c). We were unable to directly compare to [9] because we do not have access to their Matlab implementation. They report that they can generate a constraint-satisfying configuration for a 1000 loop chain with 3 links per loop (running time and topology not reported).…”
Section: Application: Closed Chain Planningmentioning
confidence: 99%
“…Han et al (2006) solved closed-chain problems by transforming them into a system of linear inequalities. Extensions are capable of solving closed-chain problems with multiple loops (Han and Rudolph, 2009). This method is able to handle problems with thousands of links or thousands of loops.…”
Section: Related Workmentioning
confidence: 99%
“…solve closed chain problems by transforming them into a system of linear inequalities [9]. Extensions are capable of solving closed chain problems with multiple loops [13]. This method is able to handle problems with thousands of links or thousands of loops.…”
Section: Enforcing Constraints During Samplingmentioning
confidence: 99%