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A new efficient motion-planning algorithm for a rod in two-dimensional polygonal space (1987)

Sifrony, S. ; Sharir, M.

Springer

Algorithmica 2 (1987), S. 367-402

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ISSN: 1432-0541

Keywords: Robotics ; Motion planning ; Computational geometry ; Configuration space

Source: Springer Online Journal Archives 1860-2000

Topics: Computer Science , Mathematics

Notes: Abstract We present here a new and efficient algorithm for planning collision-free motion of a line segment (a rod or a “ladder”) in two-dimensional space amidst polygonal obstacles. The algorithm uses a different approach than those used in previous motion-planning techniques, namely, it calculates the boundary of the (three-dimensional) space of free positions of the ladder, and then uses this boundary for determining the existence of required motions, and plans such motions whenever possible. The algorithm runs in timeO(K logn) =O(n 2 logn) wheren is the number of obstacle corners and whereK is the total number of pairs of obstacle walls or corners of distance less than or equal to the length of the ladder. The algorithm has thus the same complexity as the best previously known algorithm of Leven and Sharir [5], but if the obstacles are not too cluttered together it will run much more efficiently. The algorithm also serves as an initial demonstration of the viability of the technique it uses, which we expect to be useful in obtaining efficient motion-planning algorithms for other more complex robot systems.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01840368

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On the existence and synthesis of multifinger positive grips (1987)

Mishra, B. ; Schwartz, J. T. ; Sharir, M.

Springer

Algorithmica 2 (1987), S. 541-558

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ISSN: 1432-0541

Keywords: Positive grip ; Grip selection ; Force/torque

Source: Springer Online Journal Archives 1860-2000

Topics: Computer Science , Mathematics

Notes: Abstract We study the criteria under which an object can be gripped by a multifingered dexterous hand, assuming no static friction between the object and the fingers; such grips are calledpositive grips. We study three cases in detail: (i) the body is at equilibrium, (ii) the body is under some constant external force/torque, and (iii) the body is under a varying external force/torque. In each case we obtain tight bounds on the number of fingers needed to obtain grip. We also present efficient algorithms to synthesize such positive grips for bounded polyhedral/polygonal objects; the number of fingers employed in the grips synthesized by our algorithms match the above bounds. The algorithms run in time linear in the number of faces/sides. The paper may be of independent interest for its presentation of algorithms arising in the study of positive linear spaces.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01840373

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