A vision-based path planning and object tracking framework for 6-DOF robotic manipulator

A Shahzad, X Gao, A Yasin, K Javed, SM Anwar - IEEE Access, 2020 - ieeexplore.ieee.org
A Shahzad, X Gao, A Yasin, K Javed, SM Anwar
IEEE Access, 2020ieeexplore.ieee.org
Industrial robots are widely used for repetitive, humanly unmanageable, and hazardous
tasks. Hence, an improvement in the production efficiency of industrial robot manipulators is
of prime concern. This can be achieved through machine vision and path planning
techniques with a focus on localization and shortest path calculation. In particular, this is
important for manufacturing and bottle filling industries which extensively use robotic
manipulators to place/displace bottles during production and post refill placements. This is …
Industrial robots are widely used for repetitive, humanly unmanageable, and hazardous tasks. Hence, an improvement in the production efficiency of industrial robot manipulators is of prime concern. This can be achieved through machine vision and path planning techniques with a focus on localization and shortest path calculation. In particular, this is important for manufacturing and bottle filling industries which extensively use robotic manipulators to place/displace bottles during production and post refill placements. This is even more challenging when soft, fragile, or opaque objects have to be detected, since it is significantly difficult for robot vision to focus on their indistinguishable features. To this end, we present an ensemble robot framework with a stereo vision system for tracking colored objects which are sensed using blob analysis. An ensemble robotic framework with neural networks is proposed for predicting and thereby overcoming the inbuilt geometric error present in stereo vision systems. Moreover, we have simplified 2-D correspondence problem to 1-D by using a non-rectified stereo camera model and object tracking by applying the triangulation technique in 3D stereo vision coordinate system (SVCS). Subsequently, the SVCS is transformed into robot stereo vision coordinate system for tracking the object centroid by using an RGB marker placed on the object. Finally, in the learning model we have combined color region tracking with machine learning to achieve high accuracy. The outcomes are in accordance with the designed model and successfully achieve path prediction with up to 91.8% accuracy.
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