Title :
Representation for knot-tying tasks
Author :
Takamatsu, Jun ; Morita, Takuma ; Ogawara, Koichi ; Kimura, Hiroshi ; Ikeuchi, Katsushi
Author_Institution :
Inst. of Ind. Sci., Univ. of Tokyo, Japan
Abstract :
The learning from observation (LFO) paradigm has been widely applied in various types of robot systems. It helps reduce the work of the programmer. However, the applications of available systems are limited to manipulation of rigid objects. Manipulation of deformable objects is rarely considered, because it is difficult to design a method for representing states of deformable objects and operations against them. Furthermore, too many operations are possible on them. In this paper, we choose knot tying as a case study for manipulating deformable objects, because the knot theory is available and the types of operations possible in knot tying are limited. We propose a knot planning from observation (KPO) paradigm, a KPO theory, and a KPO system.
Keywords :
learning (artificial intelligence); manipulators; robot programming; KPO system; KPO theory; deformable object manipulation; knot planning from observation paradigm; knot theory; knot-tying task representation; learning from observation paradigm; rigid object manipulation; Design methodology; Educational technology; Humans; Machine vision; Programming profession; Robot programming; Robot sensing systems; Robotics and automation; Sensor systems; Shape; Knot-tying task; Reidemeister moves; learning from observation (LFO); movement primitives; state representation (P-data);
Journal_Title :
Robotics, IEEE Transactions on
DOI :
10.1109/TRO.2005.855988
