Part orientation with one or two stable equilibria using programmable force fields

Böhringer, K. F.; Donald, Bruce Randall; Kavraki, Lydia E.; Lamiraux, Florent

doi:10.1109/70.843172

Cited by 72 publications

(48 citation statements)

References 39 publications

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“…The proof of this proposition can be found in [7]. Proposition 3 states that a stable equilibrium configuration corresponds to a value of i where the equilibrium curve crosses the y-axis from …”

Section: Proposition 3 For Anymentioning

confidence: 99%

“…An extensive survey of previous and related work in the area of programmable force fields is offered in [7]. In this paper we only give a brief summary.…”

Section: Related Workmentioning

confidence: 99%

“…and we define the following potential field over the configuration space b of the part: The proof of this proposition can be found in [7].…”

Section: Equilibrium Through Potential Fieldsmentioning

confidence: 99%

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A Single Universal Force Field Can Uniquely Orient Non-Symmetric Parts

et al. 2000

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Recent work in parts handling advocates the investigation of a new generation of devices for parts feeding, sorting, positioning, and assembly. Unlike robot grippers, conveyor belts, or vibratory bowl feeders, these devices generate force fields in which the parts move until they may reach a stable equilibrium pose.The development of the theory of programmable force fields has yielded a number of strategies to uniquely position and orient parts. Typically, more than one fields are applied in sequence to achieve the desired result. In this paper we show that unique part poses can be achieved with a single field. In particular, we present a single field that positions and orients any non-symmetric part into two stable equilibrium poses. Then we show that for any laminar part there exists a field in which the non-symmetric part reaches a unique stable equilibrium pose. Our latter result leads to the design of devices that can act as "universal parts feeders" proving an earlier conjecture about their existence.

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Section: Proposition 3 For Anymentioning

confidence: 99%

“…An extensive survey of previous and related work in the area of programmable force fields is offered in [7]. In this paper we only give a brief summary.…”

Section: Related Workmentioning

confidence: 99%

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A Single Universal Force Field Can Uniquely Orient Non-Symmetric Parts

et al. 2000

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“…One interesting class of force fields are potential fields in which the work integral is zero along any circular path. Such fields are the squeeze field [3,4,11], the elliptical field [3,7,11], and the radial plus gravity field [3,8]. These potential fields can translate and rotate a part to equilibrium configurations.…”

Section: Related Workmentioning

confidence: 99%

“…They are the squeeze, elliptical, and radial plus gravity fields. A polygonal part can be uniquely oriented up to symmetries with a sequence of squeeze fields [3,4]. However, we have to select different sequences of squeeze fields for different parts.…”

Section: Our Approachmentioning

confidence: 99%