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ARTÍCULO
TITULO

Parallel algorithm for approximating the work space of a robot

Andrei Gorchakov    
Andrei Ignatov    
Dmitry Malyshev    
Mikhail Posypkin    

Resumen

The workspace of a robot is the set of positions that can be taken by its working tool. The understanding of the workspace is necessary when designing robots, planning their location, assessing their functionality, the path planning of the robot. So far many methods have been developed to determine the workspace. It should be noted that deterministic methods have the greatest potential, allowing to obtain approximations with a given accuracy in the automatic mode. A known disadvantage of deterministic methods is their high computational complexity, which prevents the effective wide application of these methods in practice. The paper proposes a parallel algorithm for constructing the approximation of the working area with guaranteed accuracy. The OpenMP package is used to create a multithreaded application. An original technique has been developed that allows to evenly distribute the load across the threads without explicit balancing. The results of experiments showing high efficiency of parallelization for multicore systems are presented. Another important problem is to visualize the constructed approximations. The workspace often has a complex structure with internal cavities. In this paper, we propose approaches for effective visualization of the working area of the robot, based on augmented reality technology, allowing not only to study the structure of the object, but also to place it in the desired visual context.

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