2012
DOI: 10.1137/100797916
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The Gathering Problem for Two Oblivious Robots with Unreliable Compasses

Abstract: Anonymous mobile robots are often classified into synchronous, semi-synchronous and asynchronous robots when discussing the pattern formation problem. For semi-synchronous robots, all patterns formable with memory are also formable without memory, with the single exception of forming a point (i.e., the gathering) by two robots. (All patterns formable with memory are formable without memory for synchronous robots, and little is known for asynchronous robots.) However, the gathering problem for two semi-synchron… Show more

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Cited by 89 publications
(32 citation statements)
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“…Research on this problem was initiated at the MITACS "International Problem Solving Workshop" held on July [16][17][18][19][20] 2012, in Vancouver, BC, Canada. The authors would like to express their deepest appreciation for the generous support of MITACS.…”
Section: Acknowledgementsmentioning
confidence: 99%
See 1 more Smart Citation
“…Research on this problem was initiated at the MITACS "International Problem Solving Workshop" held on July [16][17][18][19][20] 2012, in Vancouver, BC, Canada. The authors would like to express their deepest appreciation for the generous support of MITACS.…”
Section: Acknowledgementsmentioning
confidence: 99%
“…[8], flocking, e.g., [30] and many other ones. Several papers, e.g., [9,20,29] concerned unreliable or inaccurate robot sensing devices, rather than the robots themselves. Experimental papers related to unreliable robots performing patrolling were considered in the robotics literature [14,15,18,24].…”
Section: Introductionmentioning
confidence: 99%
“…With respect to the level of global agreement on the local coordinate systems, different assumptions are made, ranging from availability of a global positioning system [31,32,35,40,43], to the agreement on the direction and orientation of both axes but not on the unit of distance nor the origin (e.g., as provided by a compass) [26,27], to partially accurate agreement on the direction and orientation (e.g., inaccurate compass) [34,36,49], to the absence of any relationship among the local coordinate systems of different robots [6,27,52], i.e., when the robots are disoriented.…”
Section: Settingmentioning
confidence: 99%
“…The Rendezvous has been extensively studied by assuming different level of agreement on the compass systems of the robots. In particular, the problem is solvable in Async when the robots agree on chirality, but the axis are however tilted up to a φ < π 2 degrees [37], and the tilt is fixed. If the robots still agree on chirality, but the tilt of their compasses might be variable, rendezvous can be achieved in Ssync with fully variable compasses if and only if φ < Gathering and Convergence.…”
Section: Static Problemsmentioning
confidence: 99%